30 0 29 MB
Product Catalog
2018
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Contents content............................................................................................................................ 2 General Information........................................................................................................ 6 Novomet approach to QHSE.............................................................................................. 7 Quality control............................................................................................................... 9 Company overview. .......................................................................................................17 Service solutions...........................................................................................................19 Powder metallurgy technology.........................................................................................21 ESP selection guide..................................................................................................... 25 ESP design data sheet................................................................................................... 36 Bypass questionnaire.................................................................................................... 40 VSD questionnaire........................................................................................................ 44 ESPCP questionnaire.................................................................................................... 47 Scale preventer application to the well questionnaire............................................................ 49 Smart solutions............................................................................................................. 50 Novomet unique Power Save™ technology ...................................................................51 Permanent magnet motors design features........................................................................ 53 ESPCP.......................................................................................................................... 54 Slim-line ESP. .............................................................................................................. 55 Abrasion resistant gas separator............................................................................... 58 Multiphase pump......................................................................................................... 59 Gas Preventing Intake. ................................................................................................ 60 Open stage...................................................................................................................61 Solids management solutions..................................................................................... 62 Slotted screen pump intake (SFI). .................................................................................... 62 Downhole slotted filter (SFD).......................................................................................... 62 Downhole gravitation filter (GFD)..................................................................................... 63 Downhole slotted gravitation filter (SGFD).......................................................................... 63 Sand catcher............................................................................................................... 64 Scale management solutions...................................................................................... 65 Scale preventer. .......................................................................................................... 66 Downhole monitoring systems......................................................................................... 67 Downhole sensor systems designs................................................................................... 70 Surface panels. ........................................................................................................... 73 Bypass (Y-tool) system ................................................................................................ 75 Dual ESP for multi-zone production............................................................................ 76 Coal bed methane (CBM) production systems............................................................... 77 Optimization services..................................................................................................... 79 Novomet Sel-Pro......................................................................................................... 80 ESP Calculator............................................................................................................ 87 Smart oil well............................................................................................................. 89 downhole equipment...................................................................................................... 90 Conventional PUMPS.....................................................................................................91 Conventional Pumps Glossary..........................................................................................91 Conventional Pumps Summary. ....................................................................................... 93 ND/338 series............................................................................................................. 98 NDV150.................................................................................................................................................. 98 NDO150................................................................................................................................................ 102 NDV230................................................................................................................................................ 106 ND530...................................................................................................................................................110 ND600...................................................................................................................................................114 NDV1500................................................................................................................................................118 NF/362 series............................................................................................................ 122 NFV110M1............................................................................................................................................. 122 NFV150................................................................................................................................................. 126 NFO150................................................................................................................................................ 130
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NFV190M2............................................................................................................................................ 134 NFV230................................................................................................................................................. 138 NFV260................................................................................................................................................. 142 NFV340................................................................................................................................................. 146 NFV380................................................................................................................................................. 150 NFV450................................................................................................................................................. 154 NFV600M1............................................................................................................................................ 158 NFV760................................................................................................................................................. 162 NFV940................................................................................................................................................. 166 NFV3800............................................................................................................................................... 170 NH/406 series............................................................................................................ 174 NHV200.................................................................................................................................................174 NHV250................................................................................................................................................ 178 NHV380................................................................................................................................................ 182 NHV450................................................................................................................................................ 186 NHV600................................................................................................................................................ 190 NHV760................................................................................................................................................ 195 NHV940................................................................................................................................................ 199 NHV1200............................................................................................................................................... 203 NH1900M1............................................................................................................................................ 207 NH3000.................................................................................................................................................211 NHV3800...............................................................................................................................................215 NHV5300.............................................................................................................................................. 220 NJ/449 series.............................................................................................................224 NJV6000............................................................................................................................................... 224 NJV7600............................................................................................................................................... 228 NJ9400................................................................................................................................................. 232 NL/484 series.............................................................................................................236 NLV1000............................................................................................................................................... 236 NLV1900............................................................................................................................................... 240 NR/677 series............................................................................................................244 NRV3800.............................................................................................................................................. 244 NRV7600.............................................................................................................................................. 248 NRV12000............................................................................................................................................. 252 NRV15000............................................................................................................................................. 256 NRV19000............................................................................................................................................. 260 NRV22500............................................................................................................................................. 264 NR30000............................................................................................................................................... 268 NT/740 series.............................................................................................................272 NT38000............................................................................................................................................... 272 Power Save™ PUMP.....................................................................................................276 Power Save™ pump Glossary.........................................................................................276 Power Save™ pump summary.........................................................................................278 Power Save™ pumps NA, 272 series................................................................................279 NAV(130-250)H..................................................................................................................................... 279 NAV(190-380)H..................................................................................................................................... 283 NAV(440-630)H..................................................................................................................................... 287 NA(630-1300)H semi-compression design............................................................................................... 291 NA(630-1300)H compression design....................................................................................................... 295 Power Save™ pumps NB, 319 series.................................................................................299 NBV(160-250)H..................................................................................................................................... 299 NBV(250-500)H..................................................................................................................................... 303 NB(630-1000)H - semi-compression design............................................................................................ 307 NB(630-1000)H - compression design..................................................................................................... 311 NB(1100-1800)H.....................................................................................................................................315 NB(1500-2500)H compression design......................................................................................................319 NB(2000-3100)H................................................................................................................................... 323 2018 Page 3
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Power Save™ pumps NF, 362 series................................................................................327 NFV(130-250)H..................................................................................................................................... 327 NFV(310-630)H...................................................................................................................................... 331 NF(900-1300)H..................................................................................................................................... 335 NF(1300-2000)H.................................................................................................................................... 339 NF(2000-3100)H.................................................................................................................................... 343 NF(2500-4400)H................................................................................................................................... 347 Power Save™ Pumps NH, 406 series................................................................................ 351 NHV(790-1000)H................................................................................................................................... 351 NH(1200-2100)H compression design..................................................................................................... 355 NH(1500-2500)H compression design..................................................................................................... 359 NH(2500-3100)H................................................................................................................................... 363 NH(2500-3800)H................................................................................................................................... 367 NH(4400-5000)H....................................................................................................................................371 Power Save™ Pumps NP, 535 series................................................................................375 NP(1900-2500)H................................................................................................................................... 375 NP(3100-4400)H.................................................................................................................................... 379 NP(4400-5700)H................................................................................................................................... 383 NP(4700-6300)H................................................................................................................................... 387 NP(7900-10100)H.................................................................................................................................. 391 NP(11300-15100)H................................................................................................................................. 395 Power Save™ Pumps NR, 677 series................................................................................399 NR(10000-11300)H................................................................................................................................ 399 NR(12600-15700)H................................................................................................................................ 403 NR(15700-19000)H................................................................................................................................ 407 Rotary Displacement Pump............................................................................................ 411 N362RDCP63.........................................................................................................................................413 Intake devices ............................................................................................................ 416 Intake....................................................................................................................... 416 Gas separator............................................................................................................ 418 Advanced Gas Handler..................................................................................................420 Multiphase Pump. .......................................................................................................422 Multiphase pump summary............................................................................................425 N272MPP940........................................................................................................................................ 426 N319MPP1500....................................................................................................................................... 429 N362MPP1500...................................................................................................................................... 432 N406MPP940........................................................................................................................................ 435 N406MPP2400...................................................................................................................................... 438 N406MPP3800...................................................................................................................................... 441 N535MPP12000.................................................................................................................................... 444 Protector..................................................................................................................447 Asynchronous motor.................................................................................................454 Asynchronous motor summary. ......................................................................................455 378 series............................................................................................................................................. 456 406 series............................................................................................................................................. 458 460 series............................................................................................................................................. 461 512 series.............................................................................................................................................. 465 562 series............................................................................................................................................. 469 744 series............................................................................................................................................. 473 Permanent Magnet Motor..........................................................................................476 Permanent Magnet Motor summary.................................................................................477 319 series.............................................................................................................................................. 482 406 series............................................................................................................................................. 485 460 series............................................................................................................................................. 490 512 series.............................................................................................................................................. 499 744 series............................................................................................................................................. 505 Downhole Monitoring System ....................................................................................508 2018 Page 4
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Downhole Sensor........................................................................................................508 PUMP DISCHARGE SENSOR WITH FLOW METER................................................................. 510 Surface Panel............................................................................................................. 511 Choke Unit................................................................................................................. 511 Cable Products ......................................................................................................... 513 Motor Lead Extension................................................................................................ 513 Surface Cable............................................................................................................ 516 Carrying Cable........................................................................................................... 519 Surface Equipment........................................................................................................520 Variable Speed Drive................................................................................................... 521 Skid-Mounted Variable Speed Drive.............................................................................526 Miscellaneous Equipment..............................................................................................529 Check Valve................................................................................................................530 Drain Valve.................................................................................................................532 Bolt-on-head.............................................................................................................534 SUB.............................................................................................................................538 Downhole Slotted Filter............................................................................................540 Downhole Gravitation Filter......................................................................................542 Downhole Downhole Disk Filter.................................................................................544 Downhole Cascade Filter. ..........................................................................................546 Downhole Slotted Gravitation Filter..........................................................................548 Slotted Screen Pump Intake.......................................................................................550 Upper Sand Trap.........................................................................................................553 Sand Catcher..............................................................................................................555 Scale Preventer.........................................................................................................557 Shroud.......................................................................................................................559 Pump/Motor Clamp.....................................................................................................565 Cable Band.................................................................................................................567 MLE Guard..................................................................................................................569 Centralizer................................................................................................................ 571 Flexible coupling ......................................................................................................573 Spline Coupling..........................................................................................................575 Pump section - Pump section......................................................................................... 576 Pump section - Multiphase Pump....................................................................................579 Pump section (MPP) - Intake device................................................................................. 581 Intake device - Protector...............................................................................................583 Protector - Motor........................................................................................................583 Tools and consumables.................................................................................................584 Installation tools......................................................................................................585 Engineering Tables........................................................................................................ 591 Conventional Pump Engineering Data..........................................................................592 Power Save™ Pump Engineering Data...........................................................................596 Units of Mesurement..................................................................................................608 List of Abbrevaitions..................................................................................................609 Temperature Conversion Table................................................................................... 611 Conversion Factors................................................................................................... 612 Shaft Diameter........................................................................................................... 613 Maximum break horse power (BHP) of shafts with involute splines............................. 613 ESP SYSTEM OVERALL DIMENSIONS................................................................................... 613 Viscosity correlation................................................................................................ 614 API casing chart......................................................................................................... 615 Tubing........................................................................................................................ 617
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General Information
> General information
NOVOMET APPROACH TO QUALITY, HEALTH, SAFETY AND ENVIRONMENT Quality, Health, Safety and Environment have always been a top priority for Novomet. We sincerely believe that the right way to conduct business is to continuously follow the here below QHSE principles: • We supply products and render services with the utmost quality. • We pay significant attention to the protection of health and safety, security of our employees, customers and any third parties. • We promote the environmentally-safe manner of operations. • The above commitments have become the foundations of Novomet QHSE Policy and Guide. Such Policy is a guiding document for all Novomet employees in all work locations.
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NOVOMET GROUP OF COMPANIES Quality, Health, Safety and Environmental Policy Continual improvement of our performance is driven by our Quality, Health, Safety and Environment Management systems aligned with the requirements of ISO 9001:2008, the Quality Management System Standard ISO 14001:2004, the Environmental Management System Standard OHSAS 18001:2007, the Health and Safety Management System Standard and in strict compliance with legal and any other QHSE-related obligations. Quality, Health, Safety and Environment Management Systems are based on the following principles: • Continuous improvement of the existing business processes through adoption of best industry practice and both professional and personal progress of our personnel. • Development and manufacturing of customer-tailored products based on the market needs. • Priority to be one of the leading manufacturers of complete ESP systems. • Ensuring financial and economic stability of the Company, permanent development of our technical solutions and facilities, and improvement of organizational structure and R&D base. • Prevention of accidents and minimization of our environmental footprint. • Strict compliance with health, safety and environment standards by our employees and contractors. • Assessment of our environmental impact and risk management, including identification, control and evaluation of risks and hazards to determine appropriate means of prevention and mitigation. Novomet executive management strongly believes that compliance with above QHSE principles will contribute to the prosperity of our employees, customers, contractors and the whole community.
General Director M.O. Perelman
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Quality Control NOVOMET performs all its activities with high quality standards, always striving to maintain customer oriented service culture. For this purpose we comply strictly to international standards such us: ISO 9001, API spec Q1 and API spec Q2. The durability and service life of NOVOMET ESP system relies on the quality of each system compound. Quality of the manufactured production is provided owing to: • high level of technology and production culture; • constant improvement of production design; • reliability of used components; • improvement of the personnel professional skill; • material responsibility and incentive of executors on all stages of technological chain; • constancy and improvement of quality control. • Development of technology to increase ESP system reliability harsh production environments with high intervention costs • Conduction of system integration testing prior to field installation • All ESP components are tightly tested before installation, as per our quality system, every part and component has it’s own technological passport and serial number, so they are traceable for efficiency. Pump and Protector acceptance testing procedures meet or exceed requirements of API recommended practices RP 11S2 and RP 11S7, respectively.
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> General information > Standart terms and conditions for sale
STANDARD TERMS AND CONDITIONS FOR SALE OF GOODS These Terms and Conditions apply to all Quotations, Purchase Orders and Contracts provided or entered into by any subsidiary or related company within the Novomet Group. These Terms and Conditions are of indicative nature, changes can apply based on mutual negotiations between the Buyer and the Company.
1. DEFINITIONS AND INTERPRETATION 1.1 The definitions and rules of interpretation apply in these conditions. Buyer means any person, firm, company, partnership, competent authority or other business entity who agrees to purchase Goods from the Company under the Contract. Company means any subsidiary or related company within the Novomet Group. Contract means any contract between the Company and the Buyer for the sale and purchase of the Goods, incorporating these conditions. Goods mean any goods agreed in the Contract to be supplied to the Buyer by the Company (including any part or parts of them). Insolvency Event means the lodging of a petition or the passing of a resolution for the appointment of a liquidator, the appointment of a receiver or administrator or a similar manager or the entering into of a general agreement with creditors, bankruptcy or any similar event in any jurisdiction. Purchase Order means a written confirmation of purchase of Goods under the terms and conditions of respective Quotation issued by the Company. Price means the charge made by the Company for the provision of sale of the Goods as further defined in the Contract. Quotation means the Company’s Quotation for the provision of sale of the Goods, which term includes any document issued by the Company indicating the terms on which the Goods sold. Terms and Conditions means the Terms and Conditions set out in this document and any other terms and conditions agreed pursuant to clause 2.3. Writing means any form of written communication including transmission by facsimile. It shall not include electronic mail. 1.2 A reference to a law is a reference to it as it is in force for the time being taking account of any amendment, extension, application or re-enactment and includes any subordinate legislation for the time being in force made under it. 1.3 Words in the singular include the plural and in the plural include the singular. 1.4 A reference to one gender includes a reference to the other gender. 1.5 Condition headings do not affect the interpretation of these conditions.
2. APPLICATION OF TERMS 2.1 All business conducted by the Company with the Buyer, including any contracts, Quotations or precontractual negotiations, shall be subject to these Terms and Conditions to the exclusion of any and all other terms and conditions unless otherwise agreed in Writing. 2.2 No terms or conditions endorsed on, delivered with or contained in the Buyer’s Purchase Order, confirmation of Purchase Order, specification or other document shall form part of the Contract simply as a result of such document being referred to in the Contract. 2.3 No variation or addition to these Terms and Conditions shall be binding unless agreed in Writing by the Company. Any and all statements, representations, advice or recommendations made or given by the Company during negotiations prior to the conclusion of a Contract are not binding unless incorporated into the Contract in Writing signed by both parties. 2.4 Each Purchase Order or acceptance of a Quotation for Goods by the Buyer from the Company shall be deemed to be an offer by the Buyer to buy Goods subject to these conditions. 2.5 No Purchase Order placed by the Buyer shall be deemed to be accepted by the Company until acknowledgement of Purchase Order is issued by the Company in Writing or (if earlier) the Company delivers the Goods to the Buyer.
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2.6 The Buyer shall ensure that the terms of its Purchase Order and any applicable specification are complete and accurate. 2.7 Any Quotation is given on the basis that no Contract shall come into existence until the Company confirms in Writing Purchase Order to the Buyer. 2.8 The Company will sell Goods and the Buyer will pay the specified Price, in accordance with the Company’s acceptance in 2.7 above
3. DESCRIPTION 3.1 The quantity and description of the Goods shall be as set out in the Company’s Quotation or acknowledgement of Purchase Order. 3.2 All samples, drawings, descriptive matter, specifications and advertising issued by the Company and any descriptions or illustrations contained in the Company’s catalogues or brochures are issued or published for the sole purpose of giving an approximate idea of the Goods described in them. They shall not form part of the Contract and this is not a sale by sample.
4. DELIVERY 4.1 Unless otherwise agreed in Writing by the Company, deliveries shall be made either (i) at the time specified on the Buyer’s Purchase Order unless the Company specifies a different time, (ii) during the Company’s customary working hours, or (iii) at such time as may be requested by the Buyer and agreed to in Writing by the Company; provided, however, that the Buyer has provided the Company with reasonable advance notice of the day and time such delivery is requested, together with all necessary information. The Buyer shall be responsible for delivering to the Company all necessary shipping instructions, and until such instructions are received, the Company shall retain the Goods in storage. 4.2 The Buyer shall take delivery of the Goods within 10 days of the Company giving it notice that the Goods are ready for delivery. 4.3 Any dates specified by the Company for delivery of the Goods are intended to be an estimate and time for delivery shall not be made of the essence by notice. If no dates are so specified, delivery shall be within a reasonable time. 4.4 Subject to the other provisions of these conditions the Company shall not be liable for any direct, indirect or consequential loss (all three of which terms include, without limitation, pure economic loss, loss of profits, loss of business, depletion of goodwill and similar loss), costs, damages, charges or expenses caused directly or indirectly by any delay in the delivery of the Goods (even if caused by the Company’s negligence), nor shall any delay entitle the Buyer to terminate or rescind the Contract unless such delay exceeds 180 days. 4.5 If for any reason the Buyer fails to accept delivery of any of the Goods when they are ready for delivery, or the Company is unable to deliver the Goods on time because the Buyer has not provided appropriate instructions, documents, licences or authorisations: a) risk in the Goods shall pass to the Buyer (including for loss or damage caused by the Company’s negligence); b) the Goods shall be deemed to have been delivered; and c) the Company may store the Goods until delivery, whereupon the Buyer shall be liable for all related costs and expenses (including, without limitation, storage and insurance). 4.6 The Buyer shall provide at the point of delivery and at its expense adequate and appropriate equipment and manual labour for loading or unloading the Goods. 4.7 The Company may deliver the Goods by separate instalments. Each separate instalment shall be invoiced and paid for in accordance with the provisions of the Contract. 4.8 Each instalment shall be a separate Contract and no cancellation or termination of any one Contract relating to an instalment shall entitle the Buyer to repudiate or cancel any other Contract or instalment. 4.9 The Company, upon the Buyer’s request and with the Company’s written agreement, shall arrange for export shipment of the Goods on behalf of the Buyer. The Buyer shall pay the Company for all fees and expenses including, but not limited to, those covering preparation of consular documents, freight storage and shipping insurance coverage (including war risk). If required, the Company shall also apply for an
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export license. Without prejudice to any other condition or term of the Contract, the Company shall have no liability to the Buyer whatsoever in the event of late delivery or damage to the Goods during shipment. 4.10. Unless otherwise is stated in Purchase Order within 20 (twenty) calendar days from the moment of Goods delivery to the Buyer the latter shall return the Company the following documents by express mail: - Copy of waybill (bill of lading) with a Buyer’s or Consignee’s record of Goods receipt; - Original of bill of quantities signed by the Buyer; - Original of act of Goods acceptance signed by the Buyer.
5. NON-DELIVERY 5.1 The quantity of any consignment of Goods as recorded by the Company upon despatch from the Company’s place of business shall be conclusive evidence of the quantity received by the Buyer on delivery unless the Buyer can provide conclusive evidence proving the contrary. 5.2 The Company shall not be liable for any non-delivery of Goods (even if caused by the Company’s negligence) unless the Buyer gives written notice to the Company of the non-delivery within 15 days of the date when the Goods would in the ordinary course of events have been received. 5.3 Any liability of the Company for non-delivery of the Goods shall be limited to replacing the Goods within a reasonable time or issuing a credit note at the pro rata Contract rate against any invoice raised for such Goods.
6. RISK OF LOSS AND TITLE Terms of delivery of Goods under Incoterms 2000 shall be specified by the Company and the Buyer in Writing in each case individually. Risk for loss or damage of Goods shall pass to the Buyer pursuant to the applicable terms of delivery under Incoterms 2000. The title to Goods shall pass to the Buyer upon receipt of payment in cleared funds by the Seller of amounts due in respect of the Contract.
7. PRICE 7.1 Unless otherwise agreed by the Company in Writing, the price for the Goods shall be the Price set out in the Quotation or Appendix to the Contract agreed by the Parties in Writing. Any Quotation is valid for period of 30 days only from its date, provided that the Company has not previously withdrawn it. The Company has the right to change Price in the case of change of prices for components by third parties 7.2 The Price for the Goods shall be exclusive any travel, accommodation, subsistence or other outof-pocket expenses of the Company’s employees, servants or agents (which where applicable the Buyer shall pay to the Company at cost) and shall exclude of all costs or charges in relation to packaging, loading, unloading, carriage and insurance or forwarding fees, taxes, or duties of any kind or other similar charges applicable to the Goods (including the costs referred to in condition 4.9), all of which amounts the Buyer shall pay in addition when it is due to pay for the Goods. 7.3 The Company reserves the right to amend any typographical, clerical or other error or omission on any documentation containing pricing information issued by or on behalf of the Company, and the Company shall have no liability to the Buyer for any such errors or omissions.
8. INVOICING AND PAYMENT 8.1 Unless otherwise expressly stated in Purchase Order acknowledged by the Company in Writing the payment of the Goods Price shall be carried out by the Buyer in the following Purchase Order: 75 % (seventy five percent) of the Price shall be paid by the Buyer in advance (hereinafter referred to as “Advance") within 15 (fifteen) calendar days from the acknowledgement of Purchase Order by the Company. The residual payment of 25 % (twenty five percent) of the Price shall be carried out by the Buyer within 30 (thirty) calendar days from the moment of issuance of invoice for the delivered or deemed to be delivered Goods. 8.2 Time for payment shall be of the essence. 8.3 If the Buyer cancels the Purchase Order 30 (thirty) days prior the date of shipment or later the Company will withhold 5 % (five percent) of Price from the Advance paid by the Buyer.
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8.4 If the Buyer cancels the Purchase Order 45 (forty five) days prior the date of shipment or later (up to 30 (thirty) days prior the date of shipment) the Advance shall be returned to the Buyer at the same time all bank charges and expenses shall be borne by the Buyer. 8.5. In case the Buyer initiates any changes in Purchase Order, already agreed in Writing by the Company and the Buyer, 45 (forty five) days prior the date of shipment or later it shall pay a fine to the Company in amount of 10 % (ten percent) of price of component parts to be changed, but in any case not less than $ 100 (one hundred) United States Dollars. 8.6 All payments payable to the Company under the Purchase Order shall become due immediately on its termination despite any other provision. 8.7 The Buyer shall make all payments due under the Purchase Order in full without any deduction whether by way of set-off, counterclaim, discount, abatement or otherwise unless the Buyer has a valid court Purchase Order requiring an amount equal to such deduction to be paid by the Company to the Buyer. 8.8 If the Buyer fails to pay the Company any sum due pursuant to the Purchase Order, the Buyer shall be liable to pay interest to the Company on such sum from the due date for payment at the annual rate of 5% (five percent) accruing on a daily basis until payment is made, whether before or after any judgment.
9. QUALITY AND WARRANTY 9.1 The Company warrants that (subject to the other provisions of these conditions) upon delivery, the Goods shall be free from defects in material or workmanship. The Company’s obligation under this warranty shall be limited to replacing or repairing the parts or, at the Company’s option, the Goods which prove defective in material or workmanship within twelve (12) months from the date of first installation or eighteen (18) months from the date of shipment from the Company, whichever date occurs first, provided that the Buyer gives the Company prompt Written notice of any defect or failure and satisfactory proof thereof. 9.2 The Company shall not be liable for a breach of the warranty in condition 9.1 unless the Company is given a reasonable opportunity after receiving the notice of examining such Goods and the Buyer (if asked to do so by the Company) returns such Goods to the Company’s place of business (at the Buyers cost) for the examination to take place there. 9.3 The Company shall not be liable for a breach of the warranty in condition 9.1 if: a) the Buyer makes any further use of such Goods after giving such notice; or b) the defect arises because the Buyer failed to follow the Company’s oral or written instructions as to the storage, installation, commissioning, use or maintenance of the Goods or (if there are none) good trade practice; or c) the Buyer alters or repairs such Goods without the written consent of the Company. 9.4 Subject to the provisions of this condition 9, the Company shall deliver replaced or repaired defective goods or part of such goods at the Company’s expense, to the delivery point provided for in the original Purchase Order and shall have no further liability for a breach of the warranty in condition 9.1 in respect of such Goods. Any Goods replaced shall belong to the Company and any repaired or replacement Goods shall be guaranteed on these terms for the unexpired portion of the twelve (12) or eighteen (18) month period referred to in condition 9.1. 9.5 The warranty period shall not be extended for repaired or replaced parts or products or reperformed services. Such parts or products or services shall remain under warranty only for the unexpired portion of the warranty period. Company’s sole liability shall be at its option to repair or replace parts or products or reperform services under this condition. Company may in its sole discretion credit buyer’s account for a portion of such parts or products and/or services determined by seller to be defective.
10. LIMITATION OF LIABILITY 10.1 Subject to condition 4, condition 5 and condition 9, the following provisions set out the entire financial liability of the Company (including any liability for the acts or omissions of its employees, agents and subcontractors) to the Buyer in respect of: a) any breach of these conditions; b) any use made or resale by the Buyer of any of the Goods, or of any product incorporating any of The Goods; and c) any representation, statement or tortious act or omission including negligence arising under or in connection with the Contract. 2018 Page 13
> General information > Standart terms and conditions for sale
10.2 All warranties, conditions and other terms implied by statute or general law are, to the fullest extent permitted by law, excluded from the Contract. 10.3 Nothing in these conditions excludes or limits the liability of the Company: a) for death or personal injury caused by the Company’s negligence; or b) for any matter which it would be illegal for the Company to exclude or attempt to exclude its liability; or c) for fraud or fraudulent misrepresentation. 10.4 Subject to condition 10.2 and condition 10.3: a) the Company’s total liability in contract, tort (including negligence or breach of statutory duty), misrepresentation, restitution or otherwise, arising in connection with the performance or contemplated performance of the Contract shall be limited to the Contract price; and b) the Company shall not be liable to the Buyer for any pure economic loss, loss of profit, loss of business, depletion of goodwill or otherwise, in each case whether direct, indirect or consequential, or any claims for consequential compensation whatsoever (howsoever caused) which arise out of or in connection with the Contract.
11. ASSIGNMENT 11.1 The Company may assign the Contract or any part of it to any person, firm or company. 11.2 The Buyer shall not be entitled to assign the Contract or any part of it without the prior written consent of the Company.
12. CHANGE OF DESIGN The Company expressly reserves the right to change or modify the design and construction of any of its Goods without obligation to furnish or install such changes or modifications on Goods previously or subsequently sold.
13. PATENTS The Company warrants that the use or sale of the Goods hereunder will not infringe patents of others by reason of the use or sale of such Goods per se, and hereby agrees to hold the Buyer harmless against judgment for damages for infringement of any such patent, provided that the Buyer shall promptly notify the Company in Writing upon receipt of any claim for infringement, or upon the filing of any such suit for infringement, whichever first occurs, and shall afford the Company full opportunity, at the Company’s option and expense, to answer such claim or threat of suit, assume the control of the defence of such suit, and settle or compromise same in any way the Company sees fit. The Company does not warrant that such Goods: (a) will not infringe any such patent when not of the Company’s manufacture, or specially made, in whole or in part, to the Buyer’s design specifications; or (b) if used or sold in combination with other materials or apparatus or used in the practice of processes, will not, as a result of such combination or use, infringe any such patent, and the Company shall not be liable and does not indemnify Buyer for damages or losses of any nature whatsoever resulting from actual or alleged patent infringement arising pursuant to (a) and (b) above. This clause states the entire responsibility of the Company concerning patent infringement.
14. FORCE MAJEURE The Company reserves the right to defer the date of delivery or to cancel the Contract or reduce the volume of the Goods ordered by the Buyer (without liability to the Buyer) if it is prevented from or delayed in the carrying on of its business due to circumstances beyond the reasonable control of the Company including, without limitation, acts of God, governmental actions, war or national emergency, acts of terrorism, protests, riot, civil commotion, fire, explosion, flood, epidemic, lock-outs, strikes or other labour disputes (whether or not relating to either party’s workforce), or restraints or delays affecting carriers or inability or delay in obtaining supplies of adequate or suitable materials, provided that, if the event in question continues for a continuous period in excess of 90 days, the Buyer shall be entitled to give notice in writing to the Company to terminate the Contract. 2018 Page 14
> General information > Standart terms and conditions for sale
15. CONFIDENTIAL INFORMATION 15.1 The Buyer shall keep in strict confidence all technical or commercial know-how, specifications, inventions, processes or initiatives which have been disclosed to the Buyer by the Company, its employees, agents or sub-contractors and any other confidential information concerning the Company’s business or its products which the Buyer may obtain. The Buyer shall restrict disclosure of such confidential material to such of its employees, agents or sub-contractors as need to know the same for the purpose of discharging the Buyer’s obligations to the Company, and shall ensure that such employees, agents or sub-contractors are subject to obligations of confidentiality corresponding to those which bind the Buyer. 15.2 All materials, equipment and tools, drawings, specifications and data supplied by the Company to the Buyer shall, at all times, be and remain the exclusive property of the Company, but shall be held by the Buyer in safe custody at its own risk and maintained and kept in good condition by the Buyer until returned to the Company, and shall not be disposed of or used other than in accordance with the Company’s written instructions or authorization. 15.3 This Clause 15 shall survive termination of the Contract, however arising.
16. TERMINATION 16.1 The Company shall be entitled to terminate the Contract forthwith by notice in Writing to the Buyer if: (a) the Customer commits an irremediable breach of the Contract, persistently repeats a remediable breach or commits any remediable breach and fails to remedy it within seven (7) days of receipt of notice in Writing of the breach requiring remedy of the same; or (b) the Buyer makes any voluntary arrangement with its creditors or (being an individual or firm) becomes bankrupt or (being a company) becomes subject to an administration order or goes into liquidation (otherwise than for the purposes of solvent amalgamation or reconstruction); or (c) an encumbrancer takes possession, or a receiver is appointed, of any of the property or assets of the Buyer; or (d) the Buyer ceases or threatens to cease to carry on business; or (e) if any applicable UN or the Russian Federation sanctions are imposed on the country where the Goods are to be supplied or have been supplied. 16.2 In the event of termination by the Company pursuant to clause 16.1 above then, without prejudice to any other right or remedy available to the Company, the Company shall be entitled to cancel the Contract or suspend any further deliveries due under it without any liability to the Buyer and, if the Goods delivered but not paid for, the Price shall become immediately due and payable notwithstanding any previous agreement or arrangement to the contrary and the Company shall be entitled to charge interest at the per annum rate of 5% from the time of such cancellation or suspension until the Company receives payment. 16.3 The Buyer shall be entitled to terminate the Contract by giving thirty (30) days notice in Writing of termination to the Company. In the event of termination by the Buyer pursuant to this clause, the Company shall invoice the Buyer and the Buyer shall immediately pay to the Company the full Price together with any additional costs and/or charges payable by the Buyer.
17. GOVERNING LAW AND JURISDICTION 17.1 Any dispute, controversy or claim arising out of or in connection with this Standard Terms and Conditions for Sale of Goods, or the breach, termination or invalidity thereof, shall be finally settled by arbitration in accordance with the Arbitration Rules of the Arbitration Institute of the Stockholm Chamber of Commerce. 17.2 The arbitral tribunal shall be composed of a sole arbitrator. 17.3 The language to be used in the arbitral proceedings shall be English. 17.4 The Contract shall be governed by and construed in accordance with the laws of England.
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> General information > Standart terms and conditions for sale
18. GENERAL 18.1 Each right or remedy of the Company under the Contract is without prejudice to any other right or remedy of the Company whether under the Contract or not. 18.2 If any provision of the Contract is found by any court, tribunal or administrative body of competent jurisdiction to be wholly or partly illegal, invalid, void, voidable, unenforceable or unreasonable it shall to the extent of such illegality, invalidity, voidness, voidability, unenforceability or unreasonableness be deemed severable and the remaining provisions of the Contract and the remainder of such provision shall continue in full force and effect. 18.3 Failure or delay by the Company in enforcing or partially enforcing any provision of the Contract shall not be construed as a waiver of any of its rights under the Contract. 18.4 Any waiver by the Company of any breach of, or any default under, any provision of the Contract by the Buyer shall not be deemed a waiver of any subsequent breach or default and shall in no way affect the other terms of the Contract.
19. COMMUNICATIONS 19.1 Any notice required to be given by either party under the Contract shall be delivered or sent by pre-paid first class recorded delivery letter or facsimile addressed to the registered office of the party to be served or to such other place as may be designated by the party for the purpose of service and shall be deemed to have been served in the case of a notice delivered by hand, when delivered, in the case of a letter, forty-eight (48) hours after the time of posting, in the case of facsimile when despatched.
2018 Page 16
> General information > Company overview
COMPANY OVERVIEW Novomet manufacturing facilities are located in Perm, which is two hours flight from Moscow. The Company was established in 1991 as stages manufacturer based on new technology for the oil and gas industry: powder metallurgy, giving a significant number of benefits described further in the catalog. This new technology has shown through the years a good performance under stretching conditions and has delivered a good return in the form of increased run life for our Clients. Since then the Company has been continuously developing and our Customers have recognized the first class products and have awarded us with their business leading Novomet to one of the largest ESP manufacturers in Russia. Our strategy is based on proprietary technologies for a wide range of applications focusing on harsh well conditions including high gas to oil ratio, high temperatures, abrasive and corrosive fluids, heavy oil, wells with minimum drift (3.90"), highly deviated wells. Novomet product line includes main units such as pump, motor (asynchronous and permanent magnet), protector, VSD, sensor and as well a great number of Custom-made auxiliaries for specific wells. These are: screens, gas separators, downhole multiphase pumps, advanced gas handlers, scale preventers, sand catchers and many others. Moreover, Novomet produces water injection and treatment systems. Novomet has a established a wide network of service centers, including assembly workshops all around the world, providing under service control today for more than 8000 wells. As Novomet philosophy is to provide unparalleled solutions to the most challenging conditions, the Company has always paid major attention to R&D side. Almost a decade ago Novomet acquired control
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> General information > Company overview
package of the KONNAS Design Center (Moscow), which was responsible for all ESP pump design in the former Soviet Union and it started its history in 1950. As such there is a wealth of knowledge which is located in-house within Novomet. The R&D department has developed new gas handling pump stages, rotary gas separator designs, sand and proppant filters, downhole unit for dosing scale inhibitor and many other ESP technologies, all of which have been developed to the stage of series production and service within short time periods. The use of laser prototyping machines allows new developments to be tested for production within rapid time frames. In short, Novomet’s R&D capability is unsurpassed in the industry – and the results are in service today bringing immediate and significant performance increases to our Clients. Our R&D facilities give us fantastic opportunities to conduct various number of tests: internally and for the attention of our Clients: abrasive and corrosive tests, tests on gassy fluids, high viscos fluids, low flow rate and high flow rate stages. Novomet can simulate any environment to ensure that our products will be welcomed by our Clients as they perform beyond their expectations. Using our test wells, we can perform tests of our new R&D products being witnessed by our Customers. Currently, Novomet employs nearly 5000 people worldwide. We have a network of service bases in different parts of the world and our next major priority is to be in the top 5 list of world best service providers, as we sincerely believe that we can provide our solutions to the most severe applications bringing our Clients best performance in class. The Company’s name is associated with best engineering, production output of excellent quality and outstanding services. Our motto is: Novomet is not just another ESP provider, it is so much more....
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> General information > Novomet service devisions
NOVOMET service solutions Our Service team provides virtually every type of service related to the ESP industry delivering measurable performance improvements to our clients. Currently we have almost 8,000 wells under our direct daily supervision. To meet local needs and provide customized solutions, Novomet has several service facilities in Russia and worldwide. All these centers are fully equipped and professionally staffed. All centers follow the same quality, technical, safety standards as the main factory Positioned to meet the full range of customer needs related to ESP, Novomet draws on a superior record of market-driven innovation and technology leadership. The Company strives to deliver all services aiming to improve productivity from wells in a safe and efficient manner.
Repair base in Egypt
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> General information > Novomet service devisions
NOVOMET SUITE OF PERFORMED SERVICES Novomet suite of performed services encompasses the following range: • Engineering and 24-hours consulting (sizing and selection of most customer tailored equipment, selection of the most optimal design and operation mode-with the help of Sel-Pro, consultancy on Artificial System for any application to increase production rate, troubleshooting) • Installation, start-up and commissioning • Monitoring and troubleshooting • Complete Dismantle, Inspection, Failure Analysis (DIFA) analysis • Repairs, full range of testing including equipment of other manufacturers • Replacement and exchange programs • Reactivation of abandoned wells • Equipment testing and evaluation to ensure maximum performance from our customer’s wells • Production optimization • Incentive-based contracts • Rental contracts • Reliability analysis and run life forecast with the help of Stat-Pro • Provision of ESP systems for Production Logging Tests (PLT) jobs • Field Development Additionally, Novomet provides: Intensive, competency-based training courses that help our clients maximize the production, run life and efficiency of their Artificial Lift operations. The classes vary from ABCs of submersible pump artificial lift to the latest technologies in performance optimization.
Repair base in Noyabrsk, Russia
2018 Page 20
> General information > Powder metallurgy technology
POWDER METALLURGY TECHNOLOGY 25 years ago Novomet history began with the use of powder metallurgy techniques to fabricate oil field production equipment. Conventional powder technology comprises operations of powder mixing, molding and sintering (agglomeration). Centrifugal pump stage design feature is a presence of flow paths. Therefore it was impossible to produce such details using conventional technology. In the early of 90-s specialists of Novomet Company have developed technology to join powder details. This technology enabled to produce details with very complicated form what allowed to be pioneer in centrifugal pump stages production. Powder details connection technology has been patented. In general, metal powder stage production procedure of Novomet Company is following:
1. Raw material: iron powder, graphite powder, lube powder, copper powder…
2. Mix preparation In diagonal mixer – 15 min or in biconical mixer- 4 hours
3. Pressing of detail, as a part of stage and infiltration Equipment: mechanical and hydraulical press, pressing load 4…7 ton/cm2.
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> General information > Powder metallurgy technology
4.1. Ceramic slurry 4. Assembling Details are joined to get nonsintered blank of impeller (diffuser)
5.1. H2+N2
5. Sintering Stage blank heat treatment At temperature 1140…1160°С
5.2. infiltration (from 3rd operation)
6. Machining
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> General information > Powder metallurgy technology
In this connection, impeller or diffuser includes some details. When producing separate components there is possibility to use different materials. Thus to increase hub abrasion resistance the hub can be tungsten, solid lubrication or nickel alloyed. Joining technology enables to have metallurgical joints after heat treatment. In other words, material structure within joint does not differ from base material structure. Thus joint bounding strength is at the same level with base material strength. Compared to stage casting technology the powder technology applied by Novomet provides the following advantages: • More precise product manufacturing, and then precise balancing; compared to the similar product produced on the base of cast stages that advantages enable to decrease vibration and increase reliability of the pump; • Ensures detail surfaces hydrodynamic smoothness what results in pump performance improvement; • Gives opportunity to manufacture combined products, which include abrasion resistant and structural components; • Gives opportunity to manufacture stages with little flow paths (less than 3 mm), on the contrary cast technology does not give such opportunity.
Corrosion and mechanical stage properties At present Novomet Co is capable to manufacture two corrosion resistant types of pump stages: а) Standard performance – Materials of stage: iron, carbon, copper to improve strength and corrosion resistance. Additionally, materials of radial friction pair contain Ni and Mo for hardness and abrasion resistance, and solid lubricant for antifriction characteristics. b) Wear resistant performance – Materials of stage: base on stainless steel powder and copper for wear resistance improvement. Additionally, materials of radial friction pair contain considerable quantity of Mo carbides for abrasion resistance. Materials samplings can be extended according to specified operating conditions. E.g. for operating conditions characterized by its high TSS and relatively low aggressiveness Novomet is able to improve stage material strength for wear reduction. Mechanical properties, wear rate in abrasion fluid and corrosion rate in agitated hydrochloric electrolyte, are shown on Pictures 1-3. 400 350
Tensile strength, MPa
300 250 200 150 100 50 0
Ni- resist
Wear resistant performance
Picture 1. Mechanical properties of powder material.
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> General information > Powder metallurgy technology
16
Ni- resist 14
Wear resistant performance
Wear rate, mg/h
12 10 8 6 4 2 0
Picture 2. Wear rate of friction pair materials in abrasive ambient, used during manufacturing. 500
Corrosion rate, g*m2/h
490
70 60 50 40 30 20 10 0
Ni- resist
Powder material for abrasion ambient
Grey iron
Picture 3. Corrosion rate of materials in agitated hydrochloric electrolyte used during ESP stages manufacturing.
Typical Powder Designs At present Novomet manufactures stages of A …. P series with cylindrical vanes and inclination of diffuser and impeller upper shrouds up to 7°. Impeller design is closed type. Company is able to manufacture stages of single or double downthrust washer design with longer impeller hub for shaft protection. Stage design: floater, compression or semi-compression.
Novomet Powder Perspectives 1. Selection of stage materials and its parts according to specified operating conditions. 2. Manufacturing of ESP stages that can be casted with difficulty: • flow path dimension – less than 3 mm; • Slim Vanes and other casting limits. 3. Wear resistant bearings based on tungsten carbide and flexible wear resistant coating.
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> General information > ESP Selection Guide
ESP SELECTION GUIDE The intention of this guide is to aid ESP system design process
Novomet ESP system components Novomet ESP system comprises the following components: Downhole System Components: • Power cable • Bolt-on head • Pump: Conventional or Power Save™ • Intake devices: intake, gas separator, multiphase pump, advanced gas handler • Protector: Modular or Tandem • Motor: Induction or Permanent Magnet motor (PMM) • Motor Shroud • Motor Lead Extension (MLE) • Downhole sensor system • Auxiliaries for specific well conditions: gas, solids, high temperature, scaling, etc. • Miscellaneous equipment: valves, subs. The Novomet surface equipment consists of: • Variable Speed Drive (VSD) • Output sine-wave filter • Input power filter • Step‑down transformer • Step‑up transformer • Junction box • Surface Sensor Panel (Built‑in or remote type) • Surface cable for Top Side equipment tie-in
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> General information > ESP Selection Guide
DOWNHOLE SYSTEM COMPONENTS Power cable The power cable, which supplies electricity to the ESP motor, is available in various configurations, both flat and round, to match the cable to specific well environments. The cable is banded or clamped to the production tubing and the ESP components to support the weight of the cable and to ensure protection during RIH/POOH procedures. Cable clamp protectors are used in deviated wells or in wells with tight equipment clearances. BOLT-ON HEAD The bolt-on head is the connection between the pump and the production tubing. It is bolted to the pump and is threadably connected to the tubing. In 677 and 740 series bolt-on head is an integral part of the pump. Pump Submersible pumps used in ESP installations are multistage centrifugal pumps. Centrifugal pump converts mechanical energy from a motor to energy of a moving fluid; some of the energy goes into kinetic energy of fluid motion, and some into potential energy represented by a fluid pressure or by lifting the fluid against gravity to a higher level. The fluid enters the pump impeller along or near to the rotating axis and is accelerated by the impeller, flowing radially outward into a diffuser. Pumps are available in a wide range of sizes and configurations: from 272 up to 740 series with flow rate from 60 to 40 000 bpd. Novomet portfolio of pumps incorporates two designs: conventional and Power Save™ pump, which enables significant power consumption savings. Intake devices Intake device is designed to allow reservoir fluid to enter the pump. For extreme gassy applications Novomet has an extensive product line of gas handling devices including: gas separator, multi‑phase pump and advanced gas handler. They can be used individually or in combination, thus increasing overall system reliability in severe gas environments. Filter Novomet has an extensive range of field-proven, cost-effective solutions for sand and solids management. They operate reliably in severe abrasive-laden fluids. These systems are available in various designs: Slotted screen pump intake Downhole slotted screen filter Downhole slotted gravitation filter Downhole gravitation filter Sand catcher Protector Protector has five main functions: It protects the motor internals from the well fluid It provides pressure equalization between the motor and the wellbore It carries the thrust load of the pump It compensates thermal expansion of motor oil during ESP system operation It transfers torque moment from Motor to Intake devices and Pump Novomet protectors are available in two designs: modular and tandem for challenging extreme temperature conditions (up to 400 oF). Motor An electric motor is an electric machine that converts electrical energy into mechanical energy of rotated shaft. Novomet offers conventional Asynchronous (induction) motors and Permanent Magnet motors. Novomet motors have varnished and epoxy encapsulated winding, depending on application conditions. They are filled with synthetic oil to dissipate the heat generated to the motor housing. Motors are available in a wide range of series and configurations: from 319 up to 744 series in power from 12 up to 1600 hp.
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> General information > ESP Selection Guide
Downhole Sensor System Novomet monitoring systems enable advanced monitoring and control of the ESP performance. Novomet offers standard sensor system and enhanced version with a broad range of accurate and reliable downhole measurements of the following parameters: Pump intake pressure and temperature pump discharge pressure Axial and radial pump vibration Fluid flow at pump discharge Motor winding temperature (at motor head) Axial and radial motor vibration
SURFACE EQUIPMENT VARIABLE SPEED DRIVE (VSD) Novomet Variable Speed Drive is compatible with both Induction and Permanent Magnet motors. Application of VSD vs. FSD (fixed speed drive) can provide operators the flexibility to easily adjust production outputs of the ESP system as well conditions change. Alarms and limits are programmed in the VSD allowing it to automatically make step changes to optimize production operations. VSD Novomet with Advanced Harmonic Filter meets requirements of IEEE519 standard and provides THiD less than 5% if VSD power factor exceeds 60% In case of using PMM, apply only Novomet VSD as it is of universal design compatible with Induction and Permanent Magnet motor. OUTPUT Sine-wave FILTER It is located between the VSD and step‑up transformer. This device reduces voltage total harmonic distortion to the ESP less than 5%. This results in less stress on the winding of the ESP motor which leads to longer run times. Application of Output sine-wave filter has a positive impact on the whole electrical equipment. VSDs with capacity lower than 300 kVA have built‑in sine-wave filters. INPUT POWER FILTER The input power filter is installed between Novomet VSD input and source of 3‑phase voltage (380/480 V) supply. It effectively decreases the level of higher harmonics in power circuit and compensates reactive power. CHOKE UNIT It creates Y-connection point for Downhole sensor communication in case HV side of Step-up transformer has Delta-connection. Step‑down AND STEP‑UP TRANSFORMERS Step‑down three‑phase oil-immersed transformer is intended to convert high voltage input of the local power grid into the low voltage required for VSD. Step‑up three‑phase oil-immersed transformer with natural oil cooling. This high-voltage transformer is designed to convert low voltage input into the high voltage required by submersible electrical motor for ESP operation. JUNCTION BOX The junction box is required for all ESP installations. If gas from the wellbore migrates up the power cable to the surface, the junction box will allow this gas to escape to the atmosphere, away from confined spaces.
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> General information > ESP Selection Guide
BASIC EQUIPMENT SELECTION Selecting the correct Novomet ESP system for each application is important to delivering the most efficient and reliable operation. Novomet Sel‑Pro ESP design software provides an accurate and comprehensive evaluation of the ESP system. As with any software application, the accuracy of the results depends on the input data quality. Accurate data is the key to successful implementation of each individual system. Selection process starts from completing the Design Data Sheet available at the end of this section. It can be used to collect the design information required by a Novomet application engineer. Selection on Novomet Sel-Pro In an effort to enhance the reliability and consequently the run lives of the ESP systems, Novomet embarked on an exercise to develop an in house sizing software programme Sel‑Pro that is unique to the characteristics of Novomet products but also has the flexibility to incorporate other ESP manufacturers pump polynomials for comparison and sensitivity analysis. Novomet Sel‑Pro follows the here below algorithm when performing selection:
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> General information > ESP Selection Guide
Novomet Sel‑Pro sizing report includes the following information as a minimum: 1. Pump type and series number of stages required to achieve the optimum TDH value operating frequency flow rate power consumption 2. Gas separator Software calculates content of free gas at pump intake and recommends if Gas separator is required. 3. Motor type and series required power capacity 4. MLE & Power cable type length temperature rating Pump Selection Selection of the pump is based on the estimated pumping rate, TDH, well conditions, and casing size limitations. The most optimal choice of ESP series with regard to the system reliability and efficiency is the largest series (diameter) that the casing will permit. Pump performance curves define optimum operating limits for various motor and pump sizes. The desired capacity should be within the optimum limits of the pump performance curves and nearest best efficiency point of the pump selected. The process of pump selection requires the following additional steps: Selection of housing number When selecting a housing number or its combinations it is necessary to pick up the one which has the number of stages equal to those mentioned in the sizing report or nearest to this number within pump sections available in Novomet ESP catalog. When selecting housing number it is recommended to follow standardization method: better to choose such combinations of housing number: for the same number of stages as HSG #9 + HSG #9 + HSG #9 rather than HSG #7 + HSG #9 + HSG #11. Selection of design configuration Novomet offers floater (FLT), semi‑compression (SCMP) and compression (CMP) designs. For availability in each type of pump, please check appropriate engineering tables in Catalog. In case the well data is not accurate, it is recommended to opt for compression design as it allows to operate at a wider operating range. Selection of modification Please, select appropriate modification based on your well conditions. Novomet has 4 types of corrosion resistant and 2 types of abrasive resistant versions. For accurate selection, please refer to Glossary in Pump section. Conventional or Power Save™ In case you would like to receive reduced power consumption – absolute best selection is Power Save™ pump with combination of PMM. Detailed description is available further in the appropriate section. In order to obtain the maximum effect with regard to power savings, it is recommended to size and operate the ESP system at BEP. The case studies show that this will help to save up to 40% of energy consumption for the overall system. Pump accessories Each pump type contains information about required pump accessories such as bolt‑on heads, subs, couplings and etc. Shaft strength selection For each pump five variants of shaft yield strength are available: Low Strength S8 (785 MPa), Medium Strength S11 (1080 MPa), Standard Strength S13 (1275 MPa), High Strength S14 (1370 MPa) and Ultra High Strength S16 (1570 MPa). Also shafts from Monel alloy Low Strength M8 (785 MPa), Inconel alloys Low Strength I8 (785 MPa), Medium Strength I11 (1080 MPa), Standard Strength I13 (1275 MPa) and High Strength I14 (1370 MPa) are available. In case the power consumed by the pump exceeds the power transmitted by standard strength, please select high strength or ultra high strength shaft 2018 Page 29
> General information > ESP Selection Guide
Novomet has the following choice of shaft materials: alloyed stainless steel, Inconel or K‑Monel, M8 - Monel alloy (785 MPa), I8 - Inconel alloy (785 Mpa), I11 - Inconel alloy (1080 MPa), I13 - Inconel alloy (1275 MPa), I14 - Inconel alloy (1370 MPa), please specify your needs. The most preferable and costeffective shaft material is alloyed stainless steel. In case the well is significantly contaminated with solids and/or scale it is recommended to select ultra high strength shaft S16. This type of a shaft will help your ESP system to survive in case of frequent stop‑start operations. Intake Devices Selection In case well has high content of gas and solids, it is preferable to select multi-phase pump instead of gas separator Selection of device Novomet offers the following intake devices: • intake (bolt‑on or integral type) • gas separator • advanced gas handler • multiphase pump • slotted screen pump intake When determining the intake device, please refer to: • Sel‑Pro sizing report • Novomet recommendations depending on gas or solids content in your wells, which are presented in Intake Devices section in this catalog. Selection of series It shall be equal to pump series. Selection of shaft Intake device shaft shall be equal to pump shaft diameter. In case required shaft diameter is not available, please select shaft with closest diameter and add an extra coupling specifying pump shaft diameter as top of coupling and intake shaft diameter as a bottom coupling. Novomet has the following choice of shaft materials: stainless steel, Inconel or K‑Monel, please specify your exact requirements in Request for Quotation/Purchase Order. Selection of shaft strength. The same logic as was mentioned in Pump selection part above shall apply. Selection of modification. Please, select appropriate modification based on your well conditions. Novomet has 3 types of corrosion resistant versions for Intake devices. For accurate selection, please refer to Glossary in Intake devices section. Motor Selection When selecting the ESP system using Novomet Sel‑Pro, the sizing report will contain the following information about motor: • Motor type and series • Motor power However, the parameters can be calculated manually.
NMotor=(n × Nmax stg × ρ × k2) ×
1.1
where: NMotor – power required for Motor, hp; n – total number of pump stages, pcs; Nmax stg – maximum power per stage in operation range, hp (Please, see this parameter in Engineering Tables –> Conventional/ Power Save™ Pump Engineering Data –> column ‘Power per stage, hp’);
ρ – fluid density, g/cm3 (fresh water has density of 1 g/cm3) k=
fx
fn
–frequency factor or ratio between operation and nominal frequency.
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> General information > ESP Selection Guide
It is recommended to multiply by safety factor 1.1 (as indicated in the above equation) as an extra 10% of power reserve to avoid shaft sticking during start‑up and commissioning. To select motor series, please refer to the table in Engineering Tables section. The table defines appropriate series of the pump, motor depending on the casing OD and weight. Induction motor or Permanent Magnet motor If preference is Power Save™ equipment or you would like to rotate the system at higher speeds, than Permanent Magnet motor is your choice. Detailed information about Permanent Magnet motors is contained in the appropriate catalog section. In case well zenith angle at motor setting depth exceeds 75o, it is required to select motor design for horizontal wells. For each Power Save™ pump there is a speed limitation recommended based on tests. Please refer to table Power Save™ Pump Summary". When choosing PMM, Novomet VSD is required. Range of all motors is available in Motor section and Engineering Tables section. Selection of modification Please, select appropriate modification based on your well conditions. Novomet has 4 types of corrosion resistant and 2 types of heat resistant versions. For accurate selection, please refer to Glossary in Motor section. Please ensure that motor modification fits pump modification with regard to content of aggressive components in the well. SHROUD NECESSITY If motor cooling velocity is not enough or motor is placed below the perforation zone (e.g. CBM projects), it is required to use motor shroud. Please select the appropriate type using specifications presented in Shroud section. PROTECTOR SELECTION Selection of Protector type and series As protector serves as motor protection device, then considering such parameters as: motor series and motor power and temperature rating, it is possible to easily select an appropriate protector. For available combinations please refer to the table presented in the protector section of this catalog. For Hydraulic scheme selection please refer to Protector Specification table ‑> Maximum rotor power column. If motor power is larger than specified please select the biggest one. Modular or Tandem Novomet offers two types of protectors: modular and tandem. Applications, benefits and features of either type are shown in the corresponding sections. Selection of modification Please, select appropriate modification based on your well conditions. Novomet has 4 types of corrosion resistant and 2 types of heat resistant versions. For accurate selection, please refer to Glossary in Protector Section. Please ensure that protector modification fits modifications of already selected units. In case of horizontal or heavily deviated installations you must exclude labyrinth chamber, to choose only bags combinations. Protector Bags Elastomer protector bags are available in different materials. As the durability of the bag material depends on the temperature and the environment to which it is subjected, Novomet uses as standard bag materials: Aflas or Fluorelastomer, as they are the most robust ones. One common fluorelastomer is Viton by DuPont, it is recommended to be used in cold climates, for mild to hot climates Aflas is the solution. The following chart demonstrates all parameters of these materials: Material
Aflas
Fluorelastomer
Maximum ambient temperature
380 °F
193 °C
300 °F
150 °C
Maximum operating temperature
482 °F
250 °C
400 °F
204 °C
Chemical
Aflas
Fluorelastomer
Water/oil
Excellent
Good
Carbon Dioxide (CO2)
Good
Fair
Hydrogen Sulfide (H2S)
Excellent
Fair
Amines
Excellent
Good or Fair
Steam (geothermal applications & SAGD)
Excellent
Fair 2018 Page 31
> General information > ESP Selection Guide
Ratings: Excellent - Long term resistance (very low swell, maintains very high physical properties). Good ‑ Long term resistance (moderate swell, maintains very high physical properties). Fair ‑ Depends upon exposure time and temperature (good short term resistance). Poor - No resistance even in the short term. THRUST BEARING LOAD CALCULATIONS FOR FLOATER (FLT) AND SEMI‑COMPRESSION (SCMP) PUMPS In these pump designs downthrust comes from the pump differential pressure operating on the cross‑sectional area of the pump shaft. To calculate maximum FLT and SCMP pump downthrust use the following procedure: 1. Look in the engineering data section of the product catalog and locate the pump shaft area ‘A’ in square inches. 2. Look up the pump performance curve in the product catalog and locate the shut‑in pump head ‘H’ in ft/stage at your maximum operating frequency. 3. Calculate the maximum pump downthrust using:
F(Ibf) = H × 0.433 × Fluid sg × A × STG, where: “STG” is the number of FLT or SCMP pump stages, “Fluid sg” is the pumped fluid specific gravity. THRUST BEARING LOAD CALCULATIONS FOR COMPRESSION (CMP) PUMPS CMP pump downthrust comes from both the discharge pressure operating across the pump shaft area plus the sum of the pressure differential across each pump stage acting across the stage skirt areas minus the fluid momentum imparted on the stage by the moving fluid. The pump downthrust is a function of the fluid rate and increases as the flow rate decreases. Novomet publishes maximum downthrust per stage of CMP pump in lb/stage. This value already includes the pump shaft downthrust. To calculate maximum compression pump downthrust use the following sequence: 1. Look in the engineering data section of the product catalog. It contains the maximum compression pump downthrust in Ib/stage for both 60 and 50 Hz operation. (This is at shut‑in condition). 2.The pump downthrust at different operating frequencies ‘n’ can be estimated from:
F(n) = F(60) × (n/60)2 3.Calculate the maximum pump downthrust using:
F(Ibf) = lb/stage × STG, where: STG ‑ the number of compression pump stages. Thrust Bearing Selection Compare the calculated maximum pump downthrust to the thrust bearing limit. Note this is a function of temperature and motor oil used for high load bearings. Choose a thrust bearing that has a higher thrust limit than the downthrust generated by the pump. Please note, that Novomet applies high load bearings in most of protector series (except 272, 319, 338 series). CABLE AND MLE SELECTION For accurate cable and MLE selection (AWG, length (for MLE), temperature rating) please refer to Sel‑Pro sizing report. To determine precise length of the main power cable, the following formula shall be used: Length of the main power cable =Pump setting depth + 160 ft (reserve) – MLE length The length of MLE shown in Sel‑Pro sizing report may include additional length of high temperature cable as recommended by the software.
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> General information > ESP Selection Guide
Selection of type MLE type is always flat. Main power cable can be either flat or round. The choice depends on the following criteria: customer preference enough clearance between casing drift ID and ESP system. (Please see Engineering table: ESP System Overall Dimensions) Selection of modification There are the following options for cable and MLE armor: galvanized steel, stainless steel or Monel. The choice depends on the well conditions and customer requirements. For application cases of each armor type please refer to sections Cable and MLE. Selection of tools and spare parts. CABLE BANDS SELECTION To select cable band length, please refer to the table in Cable Production section. Selection is based on tubing diameter. For each tubing 2 cable bands are required. Selection of modification For corrosive applications, please select Corrosion resistant cable bands. Variants are presented in Glossary section in Cable Products. CCCP SELECTION Cross Coupling Cable Protector (CCCP) is intended to hold power cable and capillary tube on tubing and protects them from crushing between tubing joint and casing during RIH/POOH operations. To select an appropriate cable protection, please consider: cable bands are used in any case in quantity 2 pcs per tubing. CCCP is used only in deviated wells or upon Customer request, it’s used 1 pc per 1 tubing, also as a reserve additional CCCP’s should be taken in quantity 5-10% more (round up to 10). SELECTION OF CHECK AND DRAIN VALVE Selection of drain valve type Drain valve enables fluid drainage from the tubing during the ESP pull out. To select an accurate drain valve design it is required to address the following parameters: tubing OD and thread type. Please refer to engineering tables in Drain Valve section (Miscellaneous). Selection of check valve type Check valve is designed to keep fluid in the tubing, prevent reverse rotation in case of ESP stops, easier ESP re‑start and to protect pump flow paths from the solids settling from the tubing. To select an appropriate check valve, please consider: tubing OD, thread type and pump flow rate, this information is shown in Check Valve section (Miscellaneous). Note: Check valve has maximum operating capacity, it shall be equal or exceed pump flow rate. In case Novomet valves do not fit your tubing type, it is possible to complete the system with extra subs. Please indicate in your request your tubing type. Selection of modification Please, select appropriate modification based on your well conditions. Novomet has 3 types of corrosion resistant versions. For accurate selection, please refer to Glossary in Miscellaneous section. SELECTION OF Upper Sand Trap Upper Sand Trap is intended for trapping suspended solids from the fluid in tubing and prevention of solids deposition to the impellers and diffusers after ESP system shut-down. When ESP stopping suspended solids are deposit between upper sand trap pipe and tubing. To select an appropriate check valve, please consider: Upper Sand Trap is always used with check valve NCVBX and never used with check valve NCVB. SMART SOLUTIONS Being the industry leader in proprietary technologies for severe downhole conditions including high gas and oil ratio, high temperatures, abrasive and corrosive fluids, heavy oil, Novomet provides unique smart solutions for each of the case. Information including application ranges, benefits, features, principles of operation and specifications is available in Smart Solutions section. SELECTION OF DOWNHOLE SENSOR SYSTEM There are several types of DS Systems: standard line and enhanced version. Measured parameters, accuracy and resolution characteristics are mentioned in Downhole Monitoring section. 2018 Page 33
> General information > ESP Selection Guide
With regard to surface panels Novomet has two types: built‑in NSP-B and remote type NSP-R. All Novomet VSDs are supplied with built‑in type of surface panels. In case of application of VSDs of other manufacturers it is required to use remote type of surface panel and a choke unit. Details are shown further in the catalog in Downhole Monitoring section.
SELECTION OF SURFACE EQUIPMENT Selection of VSD and Step‑Up Transformer. It is based on motor voltage, amperage, ESP operation frequency. Please, follow the here below steps to select required VSD and Step‑Up transformer. Parameters
Steps of calculation
Motor Voltage Rating, V
Nominal Motor voltage value from catalogue
Frequency factor (3500 rpm)
Frequency factor = operation frequency/nominal frequency (60Hz)
Motor Operating Voltage, V
Motor Operating Voltage = Frequency factor x Nominal Motor voltage
Voltage Losses in Cable Line, V
Voltage Losses in Cable Line, V ‑ specified in Sel‑Pro report
S/U Tap voltage, V
S/U Tap voltage = Voltage Losses in Cable Line + Motor Operating Voltage
VSD input voltage, V
Input voltage on the field
Transformation ratio
Transformation ratio = S/U Tap secondary voltage / primary voltage
Motor Current rating, А
Nominal motor Current value from catalog
Parameters VSD Consumption Current rating, А Current safety factor Current value for VSD selection, А Transformer power rating, KVA
Steps of calculation VSD Consumption Current rating = Motor Current rating x Transformation ratio Safety factor ‑ 40 % Current value for VSD selection = VSD Consumption Current rating x Current safety factor (1.4) Transformer power rating=√3 x S/U Tap secondary voltage x Motor Current rating x 0.001 x Power safety factor (1.3)
Choose VSD with Current rating next up to required Current value for VSD selection. Selected Step‑Up Transformer shall comply with the following parameters: 1. Transformer kVA shall be equal or exceed calculated Transformer power rating. 2. Selected transformer shall have a tap equal to or next up compared to calculated Step‑Up Tap voltage and it needs to have reserve for increasing/decreasing of voltage. Selection of modification To select required pulse configuration (for VSD), enclosure type (e.g. NEMA 3R), oil‑filled or dry version (for Step‑Up transformer), please refer to the appropriate sections of this catalog. SELECTION OF Step‑down TRANSFORMER In case you need to Step‑down input voltage from the power supply line to fit input voltage on the VSD, Step‑down transformer shall be selected. For detailed information, please refer to Transformers section. SELECTION OF OUTPUT Sine-wave FILTER VSDs have built‑in sine-wave filters. Its capacity and characteristics shall repeat the same of the VSD. Specifications are presented in this catalog in Surface Equipment section. SELECTION OF INPUT FILTER Harmonic input filter is intended to reduce the total harmonic distortion of current at the input of the VSD. It has only 480V modification and is used always with this power supply. SELECTION OF SURFACE CABLE Cross section of surface cable depends on VSD parameters. Please select the required type of cable in the Cable Products section. When determining length of surface cable it is necessary to consider distance between: Junction box, Step‑Up Transformer, Output sine-wave filter (if applicable), VSD and Step‑down Transformer (if applicable). 2018 Page 34
> General information > ESP Selection Guide
SELECTION OF JUNCTION BOX Nominal voltage of junction box shall exceed nominal voltage of step‑up transformer. Please select the required junction box using the information demonstrated in the appropriate section, e.g. if Nominal voltage of step‑up transformer is 2900 V, then choose JB of 3 kV design, , if 3100 V then 6 kV design. SELECTION OF TOOLS AND SPARE PARTS Each delivery set contains required number of spares for installation (O‑rings, washers, couplings,etc.). However, if you would like to receive an extra set, please specify this requirement in your Request for Quotation/Purchase Order. If splicing tools, consumables, installation tools are required, please specify. Recommended minimum list is presented in this catalog in appropriate section. To select an appropriate pump/motor clamp, please refer to the corresponding section. When selecting installation tools, please be aware that set for compression pump differs from the set for floater and semi‑compression pumps.
2018 Page 35
> General information > ESP Selection Guide
Editable format is available on http://www.novomet.ru/eng/products/
NOVOMET ESP Design Data Sheet Dear Valued Customer, The present Data Sheet intends to ensure the success operation of each ESP well. Accurate data is the key to successful implementation of each individual system. Please kindly complete the following tables to the highest accuracy possible. *Fields in red are recommended to be filled for the most accurate design.
Contact information Table #1
Company*: Country: Contact person: Phone/Fax: E-mail: Field*: Cluster: Well name*: Reservoir*: Date of completion: Present production and equipment operation data Present lift method ______________ Table #2
#
Parameters
1
Start up date
2
Pump
3
Gas separator
4
Motor
5
Power cable
6
Motor-Lead Extention
7
Tubing OD, Category (EUE, NUE, BTC, IJ), Thread
8
Pump setting depth
9*
Producing fluid level
10
Total fluid production
11
Oil production
12
Water production
Value and unit of measurement
2018 Page 36
> General information > ESP Selection Guide
#
Parameters
Value and unit of measurement
13*
Reservoir pressure at upper perforations
14*
Static fluid level
15*
Manifold pressure
16*
Water cut
17*
Actual PI
18
Annulus pressure
19
Wellhead pressure
20
Voltage and frequency of power supply system
21
VSD
22
VSD operating frequency
23
Step down transformer
24
Step up transformer
25
Shutdown date
26
Pullout Reservoir data
Table #3
#
Value and unit of measurement
Parameters
1*
Bubble-point pressure
2*
Reservoir GOR
3
Crude physical properties
3.1
Degree of bubble curve
3.2
Correlation
3.3
FVF – Formation Volume Factor
3.4*
Reservoir temperature
3.5
Fluid gradient
3.6
Thermal gradient
3.7*
Dead oil API gravity
3.8
Reservoir oil gravity
3.9
Oil dynamic viscosity at room temperature
3.10
Oil dynamic viscosity at 104 оF
3.11
Oil viscosity at reservoir temperature
4
Physical properties of reservoir water
4.1
Specific gravity (rel. to fresh water)
4.2
Dynamic viscosity
#
Temperature of measurement
Parameters
5
Value and unit of measurement Associated gas properties
5.1
Gas density (rel. to air)
5.2
Gas dynamic viscosity
5.3
pH value of reservoir water
5.4
Nitrogen content in associated gas
2018 Page 37
> General information > ESP Selection Guide
6 6.1
Well bore fluid properties Maximum TSS – total suspended solids
6.1.1
Particles size > 750 micrometer
6.1.2
Particles size of 500-750 micrometer
6.1.3
Particles size of 350-500 micrometer
6.1.4
Particles size of 250-350 micrometer
6.1.5
Particles size of 200-250 micrometer
6.1.6
Particles size of 100-200 micrometer
6.1.7
Particles size < 100 micrometer
6.2
H2S
6.3
CO2
6.4
Asphaltenes
6.5
Paraffin Well design data and deviation survey
1*. Perforation interval, ft _______ 2. Annulus vented: Yes/No 3. Please provide well completion diagram 4. Casing size and weight, inch/ppf: _______________ or attach Deviation survey Table #4
Deviation survey* Depth interval, Zenith angle, ft degrees
Casing wall thickness/ weight, (inch/ppf)
Please note: Deviation survey is required from the wellhead to the bottom hole
2018 Page 38
> General information > ESP Selection Guide
Desired Operating Conditions Table #5
#
Parameters
1
Desired total daily fluid production
2
Oil production
3
Water production
4
Desired pump setting depth
5
Pump intake pressure
6
Wellhead pressure
Value and unit of measurement
Additional information and remarks:
Thank you very much for completing the Data Sheet. Please find the closest location to you in the list of Novomet subsidiaries at the end of the catalog
2018 Page 39
> General information > ESP Selection Guide
Editable format is available on http://www.novomet.ru/eng/products/
NOVOMET BYPASS QUESTIONNAIRE Dear Valued Customer, We highly appreciate your interest in our company. The present Questionnaire intends to ensure the success operation of each ESP well. Using the below data we would be able to size ESP system for multi-reservoir operation in one well with application of logging tools inside tubing and well monitoring in the area from upper reservoir – bottomhole. Accurate data is the key to successful implementation of each individual system. Please kindly complete the following tables to the highest accuracy possible.
Contact information Table #1
Company: Country: Contact person: Phone/Fax: E-mail: Field: Cluster: Well name: Reservoir (from top to bottom)* - 1st reservoir - 2nd reservoir - 3rd reservoir Planned delivery date: Date of completion: *please reflect data about the actual number of reservoirs Inherited ESP data Table #2
#
Parameters
Unit
1
Put into operation
Date
2
ESP
Type
3
Submersible motor
Type
4
Submersible cable
Model / cross section
5
Model / cross section
7
Motor-lead extention Tubing OD, Category (EUE, NUE, BTC, IJ), Thread Setting depth
8
Dynamic level
9
Flow rate at surface
BPD
10
Flow rate from the 1st (top) reservoir
BPD
6*
Value
Inch / Threads per inch ft ft
2018 Page 40
> General information > ESP Selection Guide
#
Parameters
Unit
11
Flow rate from the 2 reservoir
BPD
12
Flow rate from the 3rd reservoir
BPD
13
Line pressure
psi
14
Annulus pressure
psi
nd
15
Wellhead pressure
16
Shutdown
Value
psi Date
17
Pullouts
18
Gas separator
Yes/No/Reason Type
19
Voltage and frequency of power supply system
V, Hz
20
VSD Frequency
Hz
Please note: If earlier it was another way of production not by ESP, please specify. Well parameters Table #3
# 1
Production parameters Date of measurement
2
Actual productivity index of the 1st (top) reservoir
Unit Bbl / day / psi
3
Actual productivity index of the 2
reservoir
Bbl / day / psi
4
Actual productivity index of the 3rd reservoir
Bbl / day / psi
5
Static level
nd
Value
ft
6
1 (top) reservoir watercut
%
7
2nd reservoir watercut
%
8
3rd reservoir watercut
%
11
Reservoir pressure at upper perforations of 1st reservoir
psi
12
Reservoir pressure at upper perforations of 2nd reservoir
psi
13
Reservoir pressure at upper perforations of 3rd reservoir
psi
16
Anticipated flow rate from the 1 reservoir
bbl/day
17
Anticipated flow rate from the 2nd reservoir
bbl/day
18
Anticipated flow rate from the 3rd reservoir
bbl/day
21
Kill fluid density
st
st
kg/m3
2018 Page 41
> General information > ESP Selection Guide
Well design data and deviation survey 1. Perforation interval of the 1st reservoir, ft _______ 2. Perforation interval of the 2nd reservoir, ft_______ 3. Perforation interval of the 3rd reservoir, ft_______ 4. Bottom hole, ft 5. Annulus: close / connected with pressure line (please choose the required one) Table #4
Perforation interval, ft
Zenith angle, degrees
Azimuth angle, degrees
Casing OD, inch*
Casing wall thickness/weight, (inch/ppf)
Please note: Deviation survey is required from the wellhead to the bottom hole Reservoir data Table #5
#
Parameters
Unit
1
Bubble-point pressure
psig
2
Reservoir GOR
SCF/bbl
3 3.1
3.3 3.4
Geothermal gradient
3.5
Separated crude density
kg/m3
3.6
Reservoir crude density Crude dynamic viscosity at first temperature Crude dynamic viscosity at second temperature Crude viscosity at reservoir temperature
kg/m3
3.7 3.8* 3.9*
3rd res.
4.
F
о о
С/m
mPa*s mPa*s mPa*s Physical properties of reservoir water
4.1
Density
g/ml
4.2
Dynamic viscosity
mPа*s
5.1
Gas density
kg/m3
5.2
Gas dynamic viscosity pH value (of reservoir water)
mPa*s
5.
5.3
2nd res.
Crude physical properties Degree of bubbling curve Crude volume factor at bubbling pressure Reservoir temperature
3.2
1st res.
Associated gas properties
2018 Page 42
> General information > ESP Selection Guide
#
Parameters
Unit
6.
1st res.
2nd res.
3rd res.
Well bore fluid properties
6.4
Maximum TSS – total suspended solids Micro hardness of solids by Mohs H2S maximum concentration Asphaltenes content
6.5
Paraffin content
%
6.6
Tar content
%
6.1 6.2 6.3
g/l
g/l %
7.
Associated gas content
7.3
Hydrocarbon components content Non-hydrocarbon components content (without nitrogen) Nitrogen content
7.4
Methane content
7.1 7.2
% % % %
Please note: *3.8 according to availability Additional comments:
Thank you very much for completing the Data Sheet. Please find the closest location to you in the list of Novomet subsidiaries at the end of the catalog
2018 Page 43
> General information > ESP Selection Guide
Editable format is available on http://www.novomet.ru/eng/products/
NOVOMET VSD QUESTIONNAIRE
Dear Valued Customer, We highly appreciate your interest in our company. We would be glad to present to your attention our products and services. Could you please fill in the below questionnaire for us to be able to customize our presentation to meet your unique needs and expectations.
Contact information Table #1
Country: Company: Contact person (name, e-mail, tel.): Date of completion: Supply power Table #2
#
Data
1
Voltage, V (with deviations, %)
2
Frequency, Hz
3
Type of supply power neutral: deadly earthed neutral / isolated
4
Max level of harmonic distortions for current and voltage, %
Value and unit of measurement
Step-down transformer parameters (if available) / number of pulses – 6, 12, 18, 24 Additional comments 5
Operation parameters Table #3
#
Data
1
Enclosure type (NEMA / IP)
2
Ambient temperature, F
3
Humidity, %
4
Dust content, g/l
5
Dust type (aggressive, conductive, neutral)
6
Vibrations, mm/sec2
7
Other ambient parameters (sea air, sand dust etc.)
Value and unit of measurement
Additional comments
2018 Page 44
> General information > ESP Selection Guide
Technical parameters Table #4
#
Data
1
Motor type, mark
2
Nominal motor current, A
3
Nominal motor voltage, V
4
Rated motor power, hp
5
Rated motor rotating speed, rpm
6
Cos
Value and unit of measurement
φ
7 Efficiency factor, % Additional comments
Control parameters Table #5
#
Data
Value and unit of measurement
1
Local control (build-in control panel) Control by external SCADA system (Scada system 2 parameters ) Additional comments
Additional requirements Table #6
#
Data
1
Digital inputs requirements
2
Digital outputs requirements
3
Analog inputs requirements
4
Analog outputs requirements
5
Remote access requirements (GSM-modem)
6
Control system language (rus, eng)
7
Spare parts kit requirements Sensor system’s Surface panel requirements (type, data communications protocol, supply voltage etc.) Electricity meter
8 9
Yes/No Value and unit of measurement
10 Output filter requirements (no, dU/dt, sine) Additional comments
2018 Page 45
> General information > ESP Selection Guide
Additional data, requirements, comments:
Thank you very much for completing the Data Sheet. Please find the closest location to you in the list of Novomet subsidiaries at the end of the catalog
2018 Page 46
> General information > ESP Selection Guide
Editable format is available on http://www.novomet.ru/eng/products/
NOVOMET ESPCP QUESTIONAIRE
Company Address Contact Phone Telefax e-mail
WELL DATA Field Formation Well # Well Type Telefax e-mail Size
Inside Diam.
Weight
[inches]
[mm]
[lbs/ft]
Thread [API]
from [m]
Depth from surface
to [m]
Well depth Casing Liner Perforation Perforation Perforation Perforation Tubing
PRODUCTION DATA Current lift method
PCP
Curr. pump setting depth
[m]
Flowline pressure
[m3/day/ kg/cm2] [kg/cm2]
Casing pressure
[kPa]
Current production rate
[m3/day] Productivity index
Static fluid level
[m]
Dynamic fluid level
[m]
Bottom h. static pressure
[psi]
Bott. hole flowing pressure
[psi]
Treating chemicals Treatment procedures Sucker rod size
2018 Page 47
> General information > ESP Selection Guide
FLUID DATA Oil Density
Gas specific gravity Water specific gravity Bubble point pressure GOR Fluid temp. at surface Bottomhole fluid temp.
Contents
[kg/dm3]
H2S
[mg/litro]
[APIG]
CO2
[mg/litro]
Aromatics
[%]
[kg/dm3]
Iron sulfide
[%]
[kg/dm3]
Paraffin
[%]
[kg/cm2] abs
Asphalt
[%]
[m /m ]
Water
[%]
[°C]
Sand
[%]
[°C]
Chloride
[ppm]
3
3
Oil viscosity
[cP]
at
[°C]
Oil viscosity
[cP]
at
[°C]
Oil viscosity
[cP]
at
[°C]
Oil viscosity
[cP]
at
[°C]
Oil viscosity
[cP]
at
[°C]
PRODUCTION & EQUIPMENT REQUIREMENT Planned production
[m3/day]
Plan. pump landing depth
[m]
Planned fluid level
[m]
Electric power
[Volts]
Electric power
[Hz]
Wellhead flange dim. Comments
Consulta a Novomet
2018 Page 48
> General information > ESP Selection Guide
Editable format is available on http://www.novomet.ru/eng/products/
NOVOMET Scale Preventer application to the well QUESTIONAIRE
Flow rate, m3/day Minimum casing ID, mm Watercut, % Expected runlife of ESP system with Scale Preventer, days Bottomhole temperature and Pump intake temperature, °C Type and chemical composition of scales. Customer Oilfield Contact person Name Position Company Telephone Е-mail
2018 Page 49
Smart Solutions
> Smart Solutions > "Power Save™" technology
NOVOMET UNIQUE Power Save™ TECHNOLOGY Novomet has a strong focus on new and innovative technologies that provide our Customers with the best value and best in class ESP solutions. One of our most recent priority developments is Power Save™ technology which enables our Customers to save up to 25% of the total ESP system power cosumption (compared with conventional ESP systems). Background With a conventional ESP design application, typically the overall system efficiency is approximately 39% with losses totaling +/-61%. The losses can be broken down into the following segments: As detailed in the chart above, the major losses are with the pump and motor (29% and 13% respectively). These figures are relatively consistent in the industry as the conventional ESP system consists of a 3 phase, 2 pole, oil filled induction motor driving a multistage centrifugal pump (using radial or mixed flow type stages). Novomet has approached this design challenge with the following goals in mind: 1. Improve overall system power efficiency by +/-25% 2. Long term reliability is the same (when compared to conventional ESP systems) 3. The Power Save™ system must include a Variable Speed Controller (VSC) option that is compatible with asynchronous and permanent magnet motor 4. The Power Save™ system should be available in standard ESP type configurations to suit ‘typical’ well applications/requirements (e.g. 300/400/500 series equipment in 51/2” to 95/8” casing) 5. Easy installation methodology (same process as conventional ESP equipment) 6. Can be installed using existing well completion equipment, ESP power cable, MLE, penetrators, etc) 7. On a ‘like for like’ basis, the PMM motor is smaller/lighter than the conventional asynchronous motor design. Power Save™ technology incorporates two important design factors that differentiate the system from conventional equipment. These are: • Permanent Magnet Motor (PMM) • High efficiency Pump stage design using different geometry 30
29%
Overall useful capacity is 39%
25
Share, %
20
15
13% 10
10%
5
4%
3%
0 Pump
Motor
Cable
Tubing
VSD
2% S/U Transformer
2018 Page 51
> Smart Solutions > "Power Save™" technology
80
BEP, %
60
40
20
0 0
1260
2515
3775
5030
6289
bpd
– Competitors’ efficiency level
– Novomet efficiency (Power Save™ ) level
Power Save™ Features & Benefits Power Save™ is designed to bring a number of benefits to the Customer, including: • Lower power consumption- lower cost of production/ lower OPEX • Lower dimensions of Power Save™ systems – lower time of installation procedures • Lower workover/rig cost- increased production uptime • Competitive pricing with conventional ESP systems • Total “cost of ownership”(including: purchase price + OPEX + repair costs) of Power Save™ ESP systems is less than of conventional ESP systems How are these benefits achieved: Power Save™ pumps are designed to rotate at higher RPM than the conventional system resulting in higher pump efficiency Power Save™ incorporates a number of enhanced fit-for-purpose parts and components, e.g. • Advanced stage geometry and upgraded materials for shaft, stages and bearings • Integration of high efficiency (94%) Novomet Permanent Magnet Motors (standard asynchronous motor efficiency is +/-84%)
Permanent Magnet Motor
2018 Page 52
> Smart Solutions > "Power Save™" technology
Permanent Magnet Motors Design Features PMM is a synchronous motor, thus rotor slip is zero (in a traditional asynchronous induction motor, the rotor slip is approximately 6%) The rotor is equipped with permanent magnets with two ports where north and south interlace with one another. Rotor magnets are made from rare-earth alloys. To optimize efficiency and minimize stator losses, the stator laminations are made from Novomet proprietary material. The Stator is filled with a special high temperature epoxy (rating @ 395 oF) which significantly increases the insulation resistance (by a factor of 10 times).
Application of high efficiency ESP:
• Reduces materials and power consumption, reduced repair costs. • Requires design improvements to maintain design reliability.
PMM Stator Sections
37 ft 65 ft
PMM+Modular protector
157 ft
27 ft
95 ft
Stage: Q=3140 bpd @2910 rpm η=57%
Stage: Q=3140 bpd @4550 rpm η=69%
n=4550 rpm Ncon=241 hp
62 ft
AM+Modular protector
n=2910 rpm Ncon=317 hp
Go to permanent magnet motor engineering data
2018 Page 53
> Smart Solutions > "Power Save™" technology
ESPCP ESPCP system is completed with progressive cavity pump and low-speed permanent magnet motor with downhole sensor for measuring of motor oil temperature, fluid temperature and pressure at pump intake. The system has no gearbox installed in between the motor and the pump, instead we apply a thrust chamber. The rotation speed range of such motor is from 100 up to 500 RPM. Application of such combination allows to increase system runlife. The system requires less operational costs as it has no rods. The solution is an application of PCP driven by low speed permanent magnet motor, such combination can be installed in horizontal and vertical conditions. Another important aspect is application of sensor which allows to protect motor from overheating and control pump operation depending on fluid pressure at intake. Novomet VSD has vector operating mode which provides high starting torque and allows to perform re-start in case of system shutdown which is difficult to do without vector operating mode. Main operating complications of PCP with surface drive: 1. Rods: deviated casing leads to fast wear of rods, high power consumption and system; failure in general (workover services, replacement of rods, well downtime); 2. Application of a gear box leads to the wear of belts, gland seals, high cost of system components repair; 3. Continuous control and maintenance of surface drive (service personnel expenses); 4. Excessive noise level; 5. High risk of leakage; 6. Rotating elements located on the surface is a source of high hazard. Main advantages of system with submersible permanent magnet motor: 1. No rods which are the subject to fast wear. This allows to operate in highly deviated wells; 2. No gearbox and gland seals which means the system does not need continuous maintenance; 3. Submersible permanent magnet motor has high efficiency 92-94% which reduces power consumption compared to standard asynchronous motor; 4. Downhole sensor allows to perform monitoring of the system operating conditions and thus protect motor from overheating through various algorithms. Purpose of the trial was to replace PCP systems completed with surface drive (rods got worn after 3-4 months of operation) with PCP system completed with submersible low-speed permanent magnet motor. The main objective is to increase mean time between failure and show more effective well performance due to increase of production rate and decrease of operational costs.
2018 Page 54
> Smart Solutions > Slim-line ESP
SLIM-LINE ESP Novomet has once again pioneered ESP industry with slim line of ESP systems: of 272 and 319 series. Novomet leads the industry with innovative technology designed to maximize production 1 from wells: 4” and 4 /2” Slim line of ESP systems incorporates such features as: • Slim ESP: OD 2.72” and OD 3.19” • PMM: OD 3.19”. Novomet is the only company in the world Applications: having at its product portfolio such a motor. • Operation in wells with technical • Specially designed Offset module to transfer torque between limitations due to: two out-of-line shafts and to get smaller OD of ESP System • Small drift diameter and fit into 4” casing. • After workover • Displacement of casing • Protector and Motor for horizontal operation. • Exploration wells • Horizontal wells • Side tracks
• Application with Y-tool for casings less than 53/4”. • Multi-zone production Benefits:
• Increased production from wells with small ID less than 3.9” • Increased production due to multi-zone operation • Production from wells when a slim ESP is a single solution: sidetrack wells • All are of Power Save™ design having the best efficiency possible for such small diameters
Features:
• Available in two series: 272 and 319 (max OD including cable: 3.23” and 3.74”) • Asynchronous Motor cannot be used due to low Efficiency and long length, Permanent Magnet of 319 series is used instead • Special type of connection between motor and protector • For gassy applications multiphase pumps of 272 series are available • Downhole sensor system is of 319 series
2018 Page 55
> Smart Solutions > Slim-line ESP
Specifications Summary
A (272) series ESP in 4” (∅102 mm) casing
B (319) series ESP in 4 1/2” (∅114 mm) casing
Check Valve
Check Valve
MLE
MLE
ESP
ESP
Intake
Intake
Protector
Protector
Offset module Motor
Motor
Downhole Sensor System Downhole Sensor System
Series
A, 272
Series
B, 319
Pump OD, in (mm)
2.72 (69)
Pump OD, in (mm)
3.19 (81)
Motor OD, in (mm)
3.19 (81)
Motor OD, in (mm)
3.19 (81)
Max OD of ESP system, in (mm)
3.23 (82)
Max OD of ESP system, in (mm)
3.74 (95)
Recommended casing OD, in (mm)
4 (102)
Recommended casing OD, in (mm)
4 1/2 (114)
Available in the following range of flow rates: • NAV(190-380)H, NAV(440-630)H, • NAV(630-1300)H • NAV(130-250)H - in development
Available in the following range of flow rates: • NBV(250-500)H, NB(630-1000)H, • NB(1100-1800)H
Detailed specifications are mentioned in Power Save™ Pumps Section of this Catalog.
2018 Page 56
> Smart Solutions > Slim-line ESP
Slim ESPs with Y-tool for casings 5 3/4”
Pressure test sleeve Tubing nipple Y-block
Cable climp Cable
319 series pump Bypass tubing
Equalizing valve Bypass clamp
319 series intake
319 series protector
319 series motor
2 3/8” tubing nipple Saddle assembly Cap Re-entry guide
2018 Page 57
> Smart Solutions > Gas Handling system
ABRASION RESISTANT GAS SEPARATOR New construction of abrasion resistant gas separator has been specially designed for application in severe abrasive down-hole conditions. Traditional centrifugal gas separators experience housing perforations due to abrasive laden fluids. In conventional design the weakest area is between axial flow inducer where vanes are equally spaced and multiple vortex generators. This is the area where sand particles accumulate under the action of vortices, thus leading to housing cutting. Novomet new abrasion resistant design features the patented construction of helical inducer providing for superior reliability over previous designs and eliminating problem of housing cutting completely. Changed geometry of the inducer reduces vortices to the minimum and there are no areas of sand particles accumulation. The gas handling device has been extensively researched and tested at various gas and abrasive test benches to ensure that our Customers receive the best solution for gassy and sandy challenging conditions. Moreover, the new design allows more effective gas separation efficiency at higher fluid flow rates. Specifications (for detailed specifications please refer Intake devices sections: Gas separator, category AR2): N362GS1500
N406GS2600
N406GS3800
Outside diameter, in
3.62
4.06
4.06
Length, ft
2.9
2.5
2.9
Weight, lb
60
66
73
Power consumption in 1.0sg fluid @60Hz, hp
2.3
4.0
5.8
Housing material Stainless steel Shaft material Shaft size, in
0.79
0.79
0.87
Shaft rating, hp @60Hz
410
410
540
1500
2600
3800
Total liquid and gas operating range, bpd @60Hz
Stainless Steel or K-Monel shafts are available
Applications:
• Severe gassy wells • Extremely abrasive wells with gas • High flow wells Benefits:
• Extends ESP run life by eliminating problem of housing cutting by abrasive flow • Has high separation efficiency at high production rates • Enables effective operation of the pump by eliminating gas interference problem • Is a unique patented technology designed to ensure successful operation of the pump from wells with high free gas and solids content. Features:
• New patented design of helical inducer • No areas of solids accumulation • Effective gas separation efficiency at higher fluid flow rates
Go to gas separator engineering data
2018 Page 58
> Smart Solutions > Gas Handling system
MULTIPHASE PUMP Novomet multiphase pump is the most efficient gas handling device allowing continuous operation of ESP systems in extreme applications with GVF up to 50%. Axial flow, multiphase stage design primes the main pump and pushes the gas-liquid flow stream into the stages. Gas volume is compressed. This product is an important solution for extremely gassy wells as it reduces the possibility for underload shut downs due to gas interference in the pump. To select Multiphase pump, please refer to the table in Multiphase pump section. Applications:
• Oil-producing wells with high gas volume • Oil producing wells with nonvented packers • Extremely gassy wells where conventional gas-handling devices are difficult to apply • Offshore installations Benefits:
• Extended pump run life • Due to gas-lift effect greater lift per stage and efficiency are ensured • Improved installation run life with stabilized motor current • Multiphase pump has abrasionresistant construction enhancing system reliability • Laboratory tests and actual field applications proved MPP to be an excellent solution for highly gassy wells. Features:
• Highly efficient gas handling stage of axial flow, multiphase design • Pushes gas-liquid flow into the stages of ESP • Enables successful operation of the main pump in extreme gas conditions with GVF (gas volume fractions) up to 50%
Go to multiphase pump engineering data
2018 Page 59
> Smart Solutions > Gas Handling system
Gas Preventing Intake Gas preventing intake design consists of easily revolving unbalanced cylinder with an inlet port for fluid entering. Weights are mounted on the cylinder to ensure rotation of the cylinder by the gravity force. During operation of gas preventing intake cylinder automatically sets its weights down, that ensures fluid flow from the casing bottom, at the same time gas mostly flows above the inlet port of gas preventing intake. To select Gas Preventing Intake, please refer to the table in Intake section. Applications:
Casing
• Horizontal oil-producing wells with high GOR Benefits:
Cylinder Center of mass
• Extended pump run life • Increased motor run life due to stabilized current diagram Features:
Load
• Gas Preventing Intake enables successful operation of the pump in extreme gas conditions
Go to Gas Preventing Intake engineering data
2018 Page 60
> Smart Solutions > Gas Handling system
Applications:
• wells with high GVF; • wells with high content of solids; • wells with scale deposition.
Design features:
• Stages with open impeller are less vulnerable to clogging by solids. • Open impeller stage without upper disc has smaller surface area and is less prone to scaling due to peculiarities of hydrodynamic processes. • When gas-liquid mixture comes through a stage with open impeller there are no dead zones for gas plugs to form. • Stages with open impeller weigh less than ones of conventional ESP (impellers with vortex crown) resulting in less vibration. • All parts and components of an ESP with open impeller stages (except the stages) are interchangeable with standard centrifugal-vortex ESP.
OPEN PUMP stage NFO150 Novomet company has developed ESP 362 series of open impeller stage. The ESP is designed for use in gassy wells, with scaling probability and sand production (F - 362 series, O - open stage, 150 bpd@60Hz) Testing: All field tests of ESP systems with open impeller stages in oil producing companies ”Gazpromneft”, ”Rosneft”, ”Noyabrskneftegaz”, ”TNK BP”, ”Uganskneftegaz” and ”Orenburgneft” were declared successful.
Stage NFO150 characteristics in water with density 8.35 ppg (1000 kg/m3) at 2910 rpm
2018 Page 61
> Smart Solutions > Solids Management Solutions Applications:
SOLIDS MANAGEMENT SOLUTIONS Novomet has an extensive portfolio of field-proven, cost-effective solutions for sand and solids management. They operate reliably in severe abrasive-laden fluids. Each of the product is designed to ensure extended run time of ESP system and its protection against solids, sand and scale particles. These systems are available in various designs to address specific needs of each application: • Downhole slotted gravitation filter (SGFD) • Downhole gravitation filter (GFD) • Downhole slotted filter (SFD) • Slotted screen pump intake (SFI)
• Wells with high content of solids and sand up to 1750 ptb (5000 mg/l) Benefits:
• Extend ESP longevity in severe sandy applications • Field-proven and cost-effective solutions • These filters reliably control a wide range of particle sizes • Easy and fast installation • Features: • Each filter is a part of ESP string • Available in various designs customized for each application • Filtering capacities designed to fit medium to fine-grained reservoirs: 70-500 mcm • Robust design and construction
Go to Filters engineering data
Slotted screen pump intake (SFi) Slotted screen pump intake primes the pump and protects ESP from proppant and solids. It has the same wire-wrapped screen as downhole slotted filter, the only difference is location in the ESP string. SFi has proven to be a reliable and successful solution for application as intake in wells with severe solids content. Detailed specifications can be seen Miscellaneous Equipment/Filter.
Downhole slotted filter (SFD) SFD is designed to ensure ESP protection in abrasive environments with medium-grained solids. The system includes the following components: • Wire-wrapped screen • Sealing unit • Protective valve • Centralizer SFD can be mounted at motor base or shroud with application of the sealing unit or on packer in perforation zone. Solids are retained between wire winds of prismatic profile. As slots can open following fluid flow direction, thereby back flush allows low contamination by solids and long durability of the filter. The intention of the protective valve is to enable continuous flow Support bar of the fluid once the filter is plugged, not leading to motor overheating. Filtering capacity depends on the slot size which is selected based on solids size analysis. Filter length is chosen to fit pump operating capacity.
Slot
Wire wrapped screen 2018 Page 62
> Smart Solutions > Solids Management Solutions
Downhole gravitation filter (GFD)
Motor
GFD is designed to ensure ESP protection from a wide range of particle sizes, including proppant. Filter is placed at motor base and is comprised of the following units: • gravitation separator • storage container for solids • slotted (wire-wrapped) screen • bypass valve Sand handling process involves 3 main stages: 1. centrifugal separation 2. separation under the actions of gravitation and inertia forces 3. finally, solids are retained by the slotted screen. GFD can be differentiated from the downhole slotted gravitation filter by shortened length of screen and smaller size as the majority of solids are successfully handled during first two stages and the third stage is of minor influence on the whole process. The idea of protective valve is to prevent motor overheating once slotted screen is clogged. Downhole gravitation filter is tailored to well specific conditions. Motor
Sealing unit
Downhole slotted gravitation filter (SGFD)
SGFD is designed for abrasive fluid treatment from solids to ensure smooth operation of ESP system. It is placed at motor base. The system is a combination between two highly reliable sand-treatGravitation separator ment solutions: slotted screen and gravitation filter, thus filtration comprisStorage es of the here below 2 stages: container for solids 1. At initial stage slotted (wire-wrapped) filter operates. As soon as it is Tail pipe plugged with solids, the other part- gravitation separator comes to force 2. Solids treatment in gravitation separator is done under the action of gravitation forces. Solids are stored in the container below the system, once it is full they are discharged through the tail pipe into the bottom-hole zone. Such device is a highly reliable solids management tool, its operability does not depend on the number of solids or saturated scales in the fluid. SGFD is accurately sized to fit pump operating capacity.The system is a combination between two highly reliable sand-treatment solutions: slotted screen and gravitation filter, thus filtration comprises of the here below 2 stages: Slotted filter
Series (OD)
Solids content ptb mg/l m3/day Slotted screen pump intake (SFi) 75-440 up to up to 100, 200 1050 3000 80-460
Operating capacity
in
mm
bpd
362 (3.62”) 406 (4.06”)
92 103
470-2780 500-2890
319 (3.19”) 433 (4.33”) 677 (6.77”)
81 110 172
362 (3.62”) 449 (4.49”)
92 114
Filtration rating, mcm
Length ft
m
9.8-39.4
3.0-12.0
up to 3000
up to 21
up to 6.4
up to 3000
30
9
52.5
16
Downhole Slotted Filter (SFD) 250-25000 40-4000
100, 150, 200, 300
up to 1050
Downhole gravitation filter (GFD)
449 (4.49”)
114
500-4400
80-700
70-100
up to 1050
Downhole slotted gravitation filter (SGFD) up to up to up to up to 100-500 1750 5000 315-3140 50-500
*Not including length of the container 2018 Page 63
> Smart Solutions > Solids Management Solutions
Sand catcher Sand catcher N460SC1000 is designed for separation of solids from produced reservoir fluid. It is connected to the motor base with double-sided shaft through protector Resolved challenges Protection of ESP from solids plugging during long operation period including peak solids release; Accumulation of solids in container or discharge of solids to the zone lower than perforations. Range of products Design 0 - Sand Catcher of standard design Design 1 - Sand Catcher with container Design 2 - Sand Catcher with tail pipe Design 3 - Sand Catcher with container and tail pipe Main technical characteristics:
Fine reservoir fluid
Fine reservoir fluid
Hydraulic seal
Hydraulic seal
Reservoir fluid with solids
Reservoir fluid with solids
length is 3.8 ft (1.15m) – 44 ft (13.5 m) depending on configuration; housing diameter is 4.60 inches (117 mm); rated frequency of shaft rotation is 2910 rpm; maximal frequency of shaft rotation is 3600 rpm; operating temperature is 340 oF (170 oC); acceptable concentration of solids at pump intake is up to 3 g/l; operating range is 60-1000 bpd (10–160 m3/day).
Solids
Testing results: Sand after sand catcher
Amount of particles, %
Amount of particles, %
Sand before sand catcher
Average size of particles, mm
100 120 140 160 Average size of particles, mсm
180
200
Sand catcher N460SC1000 is highly reliable and hydro-abrasive resistant because it does not have dead zones for solids accumulation in flow channel.
2018 Page 64
> Smart Solutions > Scale Management Solutions
SCALE MANAGEMENT SOLUTIONS Scale deposition is a frequent cause of ESP failures. Novomet has approached this problem with its own solutions:
NOVOMET SCALE PREVENTER IS AN INTEGRAL SOLUTION INVOLVING SEVERAL ASPECTS
2. Design
3. Manufacturing & Installation
1. Analysis
4. Monitoring & Control
Step 1 – Analysis • Analysis of well conditions: flow rate, fluid properties, water cut, temperature, average run time and target run time. Step 2 – Design • Novomet applies special software to select downhole unit based on Step 1 – Analysis. Step 3 – Manufacturing and Installation • Novomet ensures 100% incoming and outcoming quality control of all system components. • Installation of the unit is an easy process, nevertheless installation instruction shall be followed. Step 4 – Monitoring and Control • Regular fluid sampling and testing. • Analysis of samples to verity that inhibitor concentration is not less then minimum as written in product certificates. Specifications Parameter
Solid type
Encapsulated type
Series
350 (OD 3.5”)
450 (OD 4.5”)
Fluid temperature, oF
160 - 250
up to 338
Flow rate, bpd Water cut, %
1250 up to 90
up to 99
2018 Page 65
> Smart Solutions > Scale Management Solutions
SCALE PREVENTER
Benefits:
Novomet has developed a downhole unit for dosing scale inhibitor compositions as a solution for treating formation fluids to prevent non-organic scale depositions on ESP impellers and diffusers. Novomet offers two types of units are available for solid and liquid scale inhibitors. For solid inhibitor, tubes are filled with solid scale inhibitor and a metering port is installed at the bottom of the tube. During ESP operation formation fluid flows into the downhole unit through perforations, the solid scale inhibitor is dissolved and gets mixed with the formation fluid. The dissolved inhibitor molecules are absorbed on crystal-forming nuclei thus preventing their growth and deposition on ESP impellers, diffusers and equipment surface. For liquid inhibitor, the unit includes a tube filled up with encapsulated liquid scale inhibitor and metering port in the upper part of the tube. The number of sections is sized according to the well flow rate. Encapsulated liquid scale inhibitor is a complex of capsules made of polymeric semipermeable membrane, size 50 - 100 mcm, where inhibitor is inside the capsules. The formation fluid flows through the metering port into the unit, enters the capsules, dissolves the inhibitor and flows out. Then the dissolved inhibitor leaves the unit through the metering port and goes to the pump intake. In the tubing inhibitor molecules are absorbed on crystal-forming nuclei thus preventing their growth and deposition on ESP impellers, diffusers and equipment surface. • One of the most efficient ways of keeping producing wells healthy from scale deposition. • Is a cost-effective solution in comparison with other scale prevention techniques. • Easy to install, does not require additional tools or manpower. • Is a complex solution including sizing software designed to ensure complete match of equipment to application conditions.
Reservoir fluid saturated by inhibitor Secondary dosing unit
Primary dosing unit (in,out)
Inhibitor
Container
Reservoir fluid
Go to scale preventer engineering data
2018 Page 66
> Smart Solutions > Downhole monitoring system
Applications:
• ESP wells operation real-time monitoring • Wells with harsh start-up conditions • Unsteady production performance • High temperature and difficult operating environments • Pressure gradient and reservoir pressure tests • Water wells data measurement • ESP operation and well performance optimization Benefits:
• Digital connection between downhole and surface sensors ensures high data accuracy and high interference protection • Saving operability with power cable length 13000 ft and more • Enhanced diagnostic features for production increase and down time decrease, reduces early ESP failure • User-friendly software Features:
• ESP key parameters accurate, continuous monitoring • Data transfer via RS232 and RS485 ports • Connectivity to remote data collection and SCADA systems using Modbus protocol • Standard and corrosion-resistant design for high H2S applications • Factory calibrated • Communications and power supply via the ESP cable • Continues to operate when ESP is shut down and power off
DOWNHOLE MONITORING SYSTEMS Reservoir Managementand ESP Performance Control Novomet Downhole Sensor System (DSS) and ESP Surveillance Services ensure you get the absolute best well performance and ESP reliability using the intelligent monitoring and well analysis technologies. DSS fit-for-purpose design for ESP environments acquires detailed and accurate critical data about the operation of your well, reservoir, Fluid and pump-motor system, transmitting it in real time to the surface with a digital signal via the motor power cable for display, control and logging purposes. Production optimization Novomet DSS is of utmost importance for assessing well and artificial lift system performance. Accurate measurements surrounding an ESP enables you to be sure that system operates with optimum performance within specified operating range, enabling maximum production. Maximized ESP Run life and production optimization are proven by field applications and reliable ESP operation in a number of locations including high temperature and severe operating environments. Configuration Advanced transducer technology provides reliable and accurate information for pressure draw-down monitoring and analysis. Measured parameters can be hand-picked to collect the data that is valuable for Customer ESP operation analysis – from a simple 6-parameters system (intake pressure, intake temperature, motor winding temperature, axial/radial motor vibration, insulation resistance) to a full 15-parameters system. Sensor accuracy can be selected to suit your well performance. • Trip and alarm settings for all monitored parameters are field-programmable to match individual reservoir, well operating conditions and fit for operator requirements - it decreases false trips. • Integrated system • Novomet measuring systems are fully compatible with all major ESP suppliers. • Novomet DSS continues to operate when ESP is shut down. It has long service life allowing repeated deployment. • Simple data collection by transferring via SD card or USB slot. • Novomet Monitoring Systems are SCADA ready and enable connectivity to remote data collection systems. • Modbus remote terminal-protocol port, RS232 and RS485 ports allow continuous data output. • Novomet DSS systems can be combined with other components to achieve an integrated monitoring and control of EPS wells.
Go to DMS engineering data
2018 Page 67
> Smart Solutions > Downhole monitoring system
ESP monitoring Novomet Downhole monitoring system provides the following options: • Intake pressure • Discharge pressure • Intake temperature • Discharge temperature • Motor winding temperature • Axial Motor vibration • Radial Motor vibration • Insulation resistance • Axial Pump vibration • Radial Pump vibration • Discharge fluid flow • Current leakage • Annulus pressure • Wellhead pressure • Watercut at pump discharge.
2018 Page 68
> Smart Solutions > Downhole monitoring system
MEASURED PARAMETERS
Version
Parameters
Values ± % (accuracy FS)
Standard
Enhanced
Intake pressure, psi
+
+
0 ÷ 5800 ± 0.5%
Intake temperature, °F
+
+
0 ÷ 300 ±1%
Motor winding temperature, °F
+
+
0 ÷ 430 ±1.5%
+
+
0 ÷ 30 ±5%
+
+
0 ÷ 9999 ±10%
Discharge pressure, psi
+
0 ÷ 5800 ± 0.5%
Discharge temperature, °F
+
0 ÷ 300 ±1%
Pump vibration, mm/sec2
+
0 ÷ 30 ±5%
Fluid flow, bpd
+
130 ÷ 500 ± 1% 250 ÷ 1000 ±1% 380 ÷ 1900 ±1%
Annulus pressure, psi
+
0 ÷ 870 ±2%
Wellhead pressure, psi
+
0 ÷ 870 ±2%
Watercut at pump discharge, %
+
0 ÷ 100 ±5%
Motor vibration, mm/sec
2
Insulation resistance, kOhm
Annulus and wellhead pressure
Discharge pressure and temperature Pump vibration Fluid flow at pump discharge
Intake pressure and temperature Winding temperature and motor vibration
2018 Page 69
> Smart Solutions > Downhole monitoring system
DOWNHOLE SENSOR SYSTEMS DESIGNS System NDSS1 Novomet Downhole Sensor System NDSS1 consists of 2 components: downhole sensor NDS1 and surface panel NSP-B or NSP-R. Downhole sensor NDS1 is mounted below the motor base. Downhole sensor head includes one connector for communication cable and two connectors for Motor winding temperature sensor. Downhole sensor head includes intake fluid flow sensor hole. Surface panel can be of 2 types: NSP-B which is integrated into Variable Speed Drive or separate module NSP-R.
Downhole sensor OD 3.78 in
Downhole sensor OD 3.78 in
Built-in Surface Panel
Measured parameters Parameter
Value
Resolution
Accuracy FS
Intake pressure, psi
0…5800
0.1
0.5%
Intake temperature, °F
32…300
0.1
1%
32…430
0.1
1.5%
0…30
0.1
5%
0…30
0.1
5%
0…1000 1001…9999
1
5% 10%
Motor oil temperature, °F Axial Motor vibration, mm/sec
2
Radial Motor vibration, mm/sec Insulation resistance, kOhm
2
2018 Page 70
> Smart Solutions > Downhole monitoring system
System NDSS2 Novomet Downhole Sensor System NDSS2 consists of 3 components: downhole sensor NDS2, discharge pressure sub and surface panel. Discharge pressure sub is installed at pump discharge. Pressure sub transfers pressure via leak proof tube to the downhole sensor NDS2 below motor. Downhole sensor NDS2 has an extra nipple for this tube.
Discharge pressure sub
Leak proof tube
Measured parameters Parameter Intake pressure, psi
Value
Resolution
Accuracy FS
0…5800
0.1
1%
Discharge pressure, psi
0…5800
0.1
1%
Intake temperature, °F
32…300
0.1
1%
Motor oil temperature, °F
32…430
0.1
1.5%
0…30
0.1
5%
0…30 0…1000 1001…9999
0.1
5% 5% 10%
Axial Motor vibration, mm/sec2 Radial Motor vibration, mm/sec Insulation resistance, kOhm
2
1
2018 Page 71
> Smart Solutions > Downhole monitoring system
System NDSS3 Novomet Downhole Sensor System NDSS3 consists of 3 components: downhole sensor NDS3, Novomet Pump Discharge Sensor with Flow meter (NPDSF) and surface panel. NPDSF is mounted above pump discharge. It is connected to downhole sensor NDS3 below motor and power supplied (voltage rate 12 V) via special communication cable (along ESP system) inside metal tube. Flow meter principle of operation: fluid flows helically after passing through a swirler. This swirler includes specially designed ball which rotates in fluid flow and frequency of ball rotation is directly proportional to flow passed through the swirler. Flow meter includes electronic controller, which acquires, converts, processes and transmits signals from the ball to Downhole Sensor NDS3 via communication cable. Afterwards surface panel receives data from Downhole sensor.
Discharge head sensor with flow meter
Measured parameters Parameter Intake pressure, psi
Value
Resolution
Accuracy FS
0…5800
0.1
1%
Discharge pressure, psi
0…5800
0.1
1%
Intake temperature, °F
32…300
0.1
1%
Motor winding temperature, °F
32…430
0.1
1.5%
Discharge temperature, psi
32…300
0.1
1%
0…30
0.1
5%
Radial Motor vibration, mm/sec2
0…30
0.1
5%
Axial Pump vibration, mm/sec
0…30
0.1
5%
Radial Pump vibration, mm/sec2
0…30
0.1
5%
125…1260 0…1000 1001…9999 0...100
0.1
10% 5% 10% 5%
Axial Motor vibration, mm/sec
2
2
Fluid flow rate at pump discharge, bpd Insulation resistance, kOhm Watercut at pump discharge, %
1 1
OPERATION PRINCIPLE OF WATERCUT METER This device is measuring the water content in reservoir fluid, where the volume of water in the total volume of reservoir fluid most heavily influences the dielectric permittivity of the fluid because the dielectric permittivity of water (80-81) is much greater than that of crude oil (2-3) at room temperature. When the amount of water changes in the fluid, a probe will measure a change in capacitance due to the change in dielectric permittivity that can be directly correlated with a change in water content.
2018 Page 72
> Smart Solutions > Downhole monitoring system
SURFACE PANELS Novomet Sensor panel is available in 2 variants: 1) NSP-B – VSD built-in type 2) NSP-R – remote type. Surface panel is used for data acquisition from downhole sensor, measuring insulation resistance between ground and system "‘Zero’ SU transformer - Power cable – ‘Zero’ Motor" and data transfer to external device via digital port ModBus RTU or by analog output. NSP-B features: • Surface panel processes and transfers data from surface and downhole sensors to VSD controller. • In case any deviation of parameters outside preset limits is determined the system provides programmed ESP starts and stops to ensure its reliable operation and protection. • Surface panel NSP-B has 2 ports: RS-485 and RS-232 for connection with external device. • Two current analog inputs (4÷20 mА) and four voltage analog outputs (0÷10V) are available. • NSP-B side panel has light-emitting diodes for power-up and operation indication. Surface panel is compatible with switchboards of any manufacturers and downhole sensor system – with any motor type: asynchronous and permanent magnet. Surface panel NSP-B is 220V voltage supplied. Surface panel NSP-B consists of filter and controller board RK-09.
Surface panel NSP-B
External view NSP-B
Internal view NSP-B
2018 Page 73
> Smart Solutions > Downhole monitoring system
NSP-R features: • Surface panel NSP-R is used for remote installation. • NSP-R operates as a standalone Controller to perform control or alarm shutdown functions based on set points against downhole data. • Degree of environmental activity protection is NEMA 3R. • Surface panel NSP-R consists of controller, Filter, external connection terminal block, heater. • Controller has LCD for online data displaying and keyboard for menu navigation and settings. Surface panel NSP-R is 220 V power supplied.
Surface panel NSP-R
External view NSP-R
Internal view NSP-R
2018 Page 74
> Smart Solutions > Y-tool
BYPASS (Y-TOOL) SYSTEM Novomet Bypass (Y-tool) system is a tool to enable access and logging below an ESP without pulling and workover. It is as well an excellent solution in case it is required to configure more than one ESP in a well to increase production. Bypass (Y-tool) enables to solve the here below problems: • It saves CAPEX as only one logging tool is needed to make measurements • Y-tool allows to make replacement of any measurement device placed below the ESP in case of its failure
Applications:
• Coiled tubing production logging • Wireline production logging • Multiple ESP deployment • Zone isolation (bridge plug setting) • Perforating • Production logging tests (PLT) • Well stimulation through bypass or coiled tubing • Dual ESP systems for multi-zone production • Dual ESP systems for offshore applications (one ESP as back-up) • Production well logging of horizontal well sections (geophysical tools RIH on coiled tubing), opening and closing of sliding sleeves between the packers of various zones
Benefits:
• Accurate production logging in ESP wells • Reduced downtime • Access below an ESP system without workover • Enables bottom-hole sampling
To select Y-tool system, please refer to the Novomet Bypass (Y-tool) System section.
Features:
• Available for casings: 5 3/4”, 6 5/8”, 7”, 9 5/8” • For dual ESP configurations bypass systems are available for 5 casings: 53 /4”, 6 /8”. • Manual and automatic switching • Logging and blanking plugs • Isolation sleeves • Various designs for multi-reservoir production
2018 Page 75
> Smart Solutions > Multi-reservoir production
DUAL ESP SYSTEMS FOR MULTI-ZONE PRODUCTION Benefits:
• Increased oil production • Increased equipment durability and run time • Concentric or parallel double tubing for separate flow control without ESP system shutdown
Features:
• Selective control of each ESP system operation • Measurements of flow rate of produced fluid from each zone • Available for casings sizes from 5 3 /4” up to 9 5/8”
Dual ESP system configuration for multi-zone production with casing 5 3/4”
Bypass line
ESP for fluid production from upper formation
Dual ESP system configuration including leakproof pod system for multi-zone production with casing 5 3/4”
Bypass line
ESP for fluid production from upper formation
Packer assembly
ESP for fluid production from lower formation
ESP inside pod-system for fluid production from lower formation
Packer assembly
- fluid from lower formation - fluid from upper formation
2018 Page 76
> Smart Solutions > CBM Applications
COAL BED METHANE (CBM) PRODUCTION SYSTEMS Applications:
• Coal bed Methane production • Mine Dewatering Benefits:
• Extended system run time in challenging CBM conditions, such as: produced fluid contains coal fines/solids • Novomet CBM system is a costeffective solution ensuring acceptable return on investment Features:
• Special designs for low/high flow rate scenarios as per Customer request • High-Temperature applications • Abrasion-resistant design: Compression/Semi-compression pump configuration • Enhanced motor cooling due to shroud application
Novomet coal bed methane (CBM) recovery ESP systems ensure efficient operation advantages for production of industrial water in CBM wells. Novomet ESP systems for CBM projects are designed as per Customer demand. To reduce drilling and overall completion costs slim ESP systems are available for Casings OD: 4, 4½ and 5” A wide range of flow rates for various casing sizes enable operators to select an ESP size to maximize water draw down and gas production. Novomet CBM systems can operate in extremely high temperatures up to 400°F (204°C). Novomet ESP systems provide both natural gas production as well as reduction of risks for environment for CBM fields. Technology of production Methane from coal seams is recovered through drainage systems constructed by drilling a series of vertical or horizontal wells directly into the seam. Water must first be drawn by ESP from the coal seam in order to reduce pressure and release the methane from its adsorbed state on the surface of the coal and the surrounding rock strata. Once dewatering by ESP has taken place and the pressure has been reduced, the released methane can escape more easily to the surface via the wells. AVAILABLE CONFIGURATION: Shrouded ESP system below perforation zone Features: 1) ESP setting below perforation zone 2) Application of motor shroud for motor cooling 3) Simple system with minimum extra devices 4) Motor size depends on casing OD 5) Application of downhole slotted screen filters to eliminate high solids influence on ESP operation For detailed specifications on equipment for CBM applications, please contact Novomet representative to get your copy of a separate Product Catalog devoted to CBM solutions.
2018 Page 77
> Smart Solutions > CBM Applications
AVAILABLE CONFIGURATION: Shrouded ESP system below perforation zone Features: 1) ESP setting below perforation zone 2) Application of motor shroud for motor cooling 3) Simple system with minimum extra devices 4) Motor size depends on casing OD 5) Application of downhole slotted screen filters to eliminate high solids influence on ESP operation For detailed specifications on equipment for CBM applications, please contact Novomet representative to get your copy of a separate Product Catalog devoted to CBM solutions.
Cable
Pump Perforation zone
Intake Protector
Shroud
Motor
Sensor
Gas production Water production for gas release
2018 Page 78
Optimization services
> Optimization services
ESP SIZING AND SELECTION TOOL “SEL-PRO” In an effort to enhance the reliability and the consequently the run lives of the ESP systems, Novomet embarked on an exercise to develop an in house sizing software program Sel-Pro that is unique to the characteristics of Novomet products but also has the flexibility to incorporate other ESP manufacturers pump polynomials for comparison and sensitivity analysis.
Features of Novomet Sel-Pro Software for ESP sizing It is deemed worthwhile to stress on some of the salient features that make Sel-Pro such a unique selection program that would genuinely enhance the reliability in conjunction with it’s sister program Stat Pro. The latest generation ESP sizing program Sel-Pro was developed in 2002 by the Russian ESP design bureau “OKB BN KONNAS" at the request of and in collaboration with “Novomet-Perm". The software is an entirely new approach to ESP sizing, allowing optimal pump system design for any well. The program automatically selects a suggested pump from a series of pumps from any given manufacturer with the same outer diameter but different productivity rates.
2018 Page 80
> Optimization services
Sizing can be performed by mainly three criteria: • Sizing by specifying the flow rate. • By specifying the pump intake conditions. • By specifying pump setting depth.
2018 Page 81
> Optimization services
The additional features that Sel-Pro performs are 1. The program has the ability to analyze the bending moment of the entire string including the tubing. If the stress developed exceeds the design parameters then this is flagged out. The advantage of having an in house package is that all the relevant detailed design data of the units and the materials used is available. Current programmes in the market take into account only the string itself while it has been determined by STAT PRO that the tubing does have an effect on the overall stress.
2. Due to the inaccuracy of the data normally available, particularly the PI which has a significant effect on the sizing, Sel-Pro has a facility where test data or historical data of 2018 Page 82
> Optimization services
2. Due to the inaccuracy of the data normally available, particularly the PI which has a significant effect on the sizing, Sel-Pro has a facility where test data or historical data of of the well can be input and the PI can be deduced with reasonable accuracy.
This calculation is obtained by using a new formula that has been empirically derived by using a large number of statistical data. It was discovered that the traditional Vogel does not really truly represent the change in flow rate with reduction in downhole pressure. It was found that the change was much more dramatic when the pressure levels drop lower than the saturation pressure. 3.In addition to calculating PI / IPR, this software has the ability to chart the correlation between minimum setting depth and flowrate, pressure at the pump intake and dynamic fluid level.
2018 Page 83
> Optimization services
The correlation between required head pressure and motor load for different types of equipment, i.e. high-performance pumps allowing high gas concentration at the intake, with and without gas separator, standard and high performance ESP’s, and systems with and without gas separators installed.
The criteria used to determine the minimum setting depth for the specified flow rate are the pressure at the pump intake, gas concentration and the flow structure under the motor. The latter is important to understand, in order to prevent gas locking. A little understood phenomenon is the case where gas locking occurs under the motor, additional low-frequency vibrations are generated which may lead to equipment strings parting and dropping down the well bore. 4. Another important feature of Sel-Pro is a numerical and graphical representation of the combined oil / water / gas phases in the production string, as well as showing the calculated temperature of the power cable conductors. Thus, unlike other software, Sel‑Pro gives the capability to "look into" the well and analyze the results of the calculations made for any given ESP design. This makes the software a highly effective ESP well modeling or even research and design tool. For example, drawing below represents the diagrams of pressure and mixture density for two identical calculations with and without a gas separator installed. From reviewing the graph it is obvious that in first case, the pump discharge pressure is significantly lower (blue line), but also the mixture density in the tubing is lower (green line) and there is gas locking at the tubing outlet. When using a gas separator, foam appears in the annulus.
2018 Page 84
> Optimization services
5. When calculating heat rise within the ESP system, the Sel‑Pro program calculates not only heat rise within the ESP elements, but also recommends the required length of temperature-resistant motor lead extension.
2018 Page 85
> Optimization services
6. Real 3D profile of the well can be shown, including intervals of severe dogleg and combination of different casing/liner sizes.
3D view of deviated well
7. The program features user-friendly guide intending to guide the user throughout the whole sizing process and ease his work. Moreover, it incorporates selection of languages and units of measurement.
2018 Page 86
> Optimization services
ESP Calculator All oilfield specialists require ESP product catalog to be constantly up-to-date. However, very often printed version becomes out of date by the moment of printed version release. Novomet has developed an interactive ESP catalog: “ESP calculator”. It allows to monitor changes of characteristics both of an ESP system and a pump stage. Also you need to put in the minimum number of parameters. It allows to monitor changes of characteristics both of an ESP system and a pump stage. Also you need to put in the minimum number of parameters. Features: • Russian and English user interface; • Units can be of SI or USC measurement system; • Data base with all pump stages (2.72”- 7.40”) characteristics by Novomet is available. • Internet update is available. • Change of number of stages or pump head; • Change of frequency (Hz) or RPM of shaft rotation; • Change of density of pumped fluid; • Selection of type and yield strength of a shaft; • Selection of frequency range with a requested frequency or rpm interval; • Scaling of pump characteristics; • A hint arising by a mouse click reflects main parameters of pump characteristics in the point indicated by an user; • Printing, saving pdf or any other wide spread graphics format of requested characteristic • of selected pump is available; • Detailed user’s manual.
Pump Characteristics
ESP Calculator window contains two main tabs: 1 - Pump Characteristics
2018 Page 87
> Optimization services
Multi Hz Curves
ESP Calculator window contains two main tabs: 2 - Multi Hz Curves
Qualification of specialists for working with software is minimal; it does not require special training. If complications occur during the work you can use the detailed user’s manual. Also any question or suggestion on development of this product could be addressed to company’s specialist both via phone and e-mail. Having this tool for working with ESP characteristics oil field specialists are able to simplify their job significantly and understand operation of pumping equipment not involving other specialists. Therefore number of mistakes related with selection of old equipment is being reduced. Here visualization of any stage characteristics by Novomet from 2.72” to 7.40” OD is available. Being supported by Internet update of data bases the software contains only the latest information about Novomet equipment.
2018 Page 88
> Optimization services
Applications:
• Remote fields • Fields with numerous scattered wells Benefits:
• Reduced number of wellsite visits • Reduced well interventions • Extended system run time • Optimized operation Features:
• Wellsite access through the internet • Remote pump start/stop, rpm control • Remote control and investigation of pump problems • Versions: GSM/GPRS/satellite • Coded data transmission to ensure secure access, prevention of intrusive elements such as viruses and hacking • Incorporation of additional remote terminals • Callouts and alarms in case of emergencies • Remote update of controller software
Smart oil well In Artificial Lift run time and reliability of equipment are of paramount importance. The primary reason for monitoring and optimizing equipment operation is to achieve longer run life, continuous production, reduce workover rig time. Surveillance and control systems provide an opportunity for such activities as: remote starts/stops of ESP operation remote speed control remote investigation of pump problems. In addition, the system enables coded data transmission, notifications on emergencies and some extra important features. The system is a cost-effective solution as it avoids the necessity for a constant engineer presence on the wellsite. Oilfield vendors always seek to differentiate for competitive advantage and to add value to their equipment and services to the end-users. Remote monitoring system is a tool embodying careful operation of the equipment thus ensuring its longevity and reliability. On the other side, oil operators look for safety, reliability and turnkey solutions to complex problem sets and efficient field service support. Remote monitoring system bridges the needs of both oilfield contractors and production operators.
2018 Page 89
downhole equipment
Conventional Pumps Summary
> Conventional pumps > Glossary
GLOSSARY CONVENTIONAL PUMP N
X
X
XXXX
XXX
XXX
XXX
FJX
XXX
XXXSTG Manufacturer (Novomet) Series, (see Table 1) Pump design: empty - centrifugal, non-vortex V - centrifugal, vortex I - inverted Capacity, bpd @60Hz Pump assembly design: FLT - floater SCMP - semi-compression CMP - compression Abrasion resistance, (see Table 2) Corrosion resistance, (see Table 3) Flange connection design: empty - standard flange-to-housing FJI - Flush Joint Inserted FJT - Flush Joint Threaded Shaft material and yield strength: S8 - Stainless steel (785 MPa) S11 - Stainless steel (1080 MPa) S13 - Stainless steel (1275 MPa) S14 - Stainless steel (1370 MPa) S16 - Stainless steel (1570 MPa) M8 - Monel alloy (785 MPa) I8 - Inconel alloy (785 MPa) I11 - Inconel alloy (1080 MPa) I13 - Inconel alloy (1275 MPa) I14 - Inconel alloy (1370 MPa) Number of stages in a pump
e.g., NHV3800 CMP AR2 CR1 S13 27STG
Table 1 - Series
Novomet series
Series
HSG OD, in
HSG OD, mm
Head & base length, ft (m)
D
338
3.38
86
1.2 (0.365)
F
362
3.62
92
1.2 (0.365)
H
406
4.06
103
1.2 (0.365)
J
449
4.49
114
1.2 (0.365)
L
484
4.84
123
1.2 (0.365)
R
677
6.77
172
1.3 (0.405) Intake built-in
T
740
7.40
188
1.3 (0.405) Intake built-in
Table 2 - Abrasion resistance
Abbr.
Full name
Description
AR1
Abrasion Resistant 1
For fluid containing solids up to 175 ptb (500 mg/l). Note: Applicable for all Floater pumps and all pumps of NR and NT series
AR2
Abrasion Resistant 2
For fluid containing solids up to 350 ptb (1000 mg/l). Note: Applicable only for Compression and Semi-compression pumps, except for pumps of NR and NT series
2018 Page 91
Conventional Pumps Summary
> Conventional pumps > Glossary
Table 3 - Corrosion resistance
Abbr. Full name
Max chemical content, g/l
Fluid
H2S
CO2
pH
Description
Cl
Stainless Steel for powder metallurgy stages. Ni-resist 0.01 1.45 200 4.0..8.5 or Stainless Steel for cast stages (please refer to Table 1 Corrosion Moderately CR1 Resistant Pump Summary in Pump Glossary section). 1 aggressive fluid 1.25 0.01 Housing, head and base are from Carbon Steel Corrosion Stainless Steel for powder metallurgy stages. Ni-resist or Highly CR2C Resistant aggressive 1.25 1.45 200 3.0..9.0 Stainless Steel for cast stages. Housing, head and base fluid 2C are coated with thermal spray coatings Corrosion Stainless Steel for powder metallurgy stages. Ni-resist or Highly CR2S Resistant aggressive 1.25 1.45 200 3.0..9.0 Stainless Steel for cast stages. Stainless Steel head and fluid 2S base. Housing is coated with thermal spray coatings Stainless Steel for powder metallurgy stages. Ni-resist or Corrosion Highly CRM Resistant Steel for cast stages. Housing, head and base M aggressive fluid 1.25 1.45 200 3.0..9.0 Stainless are coated with Monel alloy thermal spray coating Stainless Steel for powder metallurgy stages. Ni-resist or Corrosion Highly Stainless Steel for cast stages. Stainless Steel head and CRMS Resistant aggressive 1.25 1.45 200 3.0..9.0 fluid base. Housing is coated with Monel alloy thermal spray MS coating Stainless Steel for powder metallurgy stages. Ni-resist Corrosion Highly CR3 Resistant 1.25 1.45 200 3.0..9.0 or Stainless Steel for cast stages. Stainless Steel 3 aggressive fluid housing, head and base Ultra Extremely to Sulfide Stress Cracking are used Corrosion aggressive >1.25 1.45 200 3.0..9.0 Materials resistant fluid for housing, head and base. Resistant
UCR
Table 4 - Housing data
HSG#
Length ft
m
1
3.3
1.0
2
4.9
1.5
3
6.6
2.0
4
8.2
2.5
5
9.8
3.0
6
11.5
3.5
7
13.1
4.0
8
14.8
4.5
9
16.4
5.0
10
18.0
5.5
11
19.7
6.0
12
21.3
6.5
13
23.0
7.0
14
24.6
7.5
15
26.2
8.0
To get CT pump installation length add head and base length from Table 1.
2018 Page 92
Conventional Pumps Summary
> Conventional pumps > Glossary
CONVENTIONAL PUMP SUMMARY (338 - 740 SERIES)
D(338)
F(362)
H(406)
J(449)
L(484)
R(677)
T(740)
NDV150
NFV110M1
NHV200
NJV6000
NLV1000
NRV3800
NT38000
NDO190
NFV150
NHV250
NJV7600
NLV1900
NRV7600
NDV230
NFO150
NHV380
NJ9400
ND530
NFV190M2
NHV450
NRV15000
ND600
NFV230
NHV600
NRV19000
NDV1500
NFV260
NHV760
NRV22500
NFV340
NHV940
NR30000
NFV380
NHV1200
NFV450
NH1900M1
NFV600M1
NH3000
NFV760
NHV3800
NFV940
NHV5300
NR12000
NFV3800
Powder metallurgy stages
Cast stages
Pancake stages
Mixed flow stages
2018 Page 93
Conventional Pumps Summary
> Conventional pumps > Glossary
Floater design (abrasion-resistant AR1 with optimal number of intermediate bearings – please see Fig.1) Abrasion-resistant design includes optimal number of intermediate radial bearings. Such construction allows to significantly improve abrasion-resistance of the pump due to increase of shaft hardness and radial load is redistributed from stages onto radial bearings. Number of bearings is calculated based on mathematic modeling and determined by length of section, weight of impeller, shaft hardness, balance of impellers and clearance in stages. Semi-compression design (please see Fig. 2). In case of semi-compression pump design all stages are assembled as a few separate packs with radial bearings between packs.
Floater design with optimal number of intermediate radial bearings
Semi-compression design
Abrasion-resistant design (AR2)
500 mg/l (175 ptb)
1000 mg/l (350 ptb)
(Figure 1)
Intake Protector
Protector
Intake
PUMP
PUMP
Stage packs
Radial bearings
Radial bearings
Abrasion-resistant design (AR1)
(Figure 2)
2018 Page 94
Conventional Pumps Summary
> Conventional pumps > Glossary
During the initial phase of semi-compression pump running cycle, its impellers are functioning in the same way as conventional floating impellers. Each impeller is being supported by appropriate diffuser. During the ''wear-in'' phase thrust washers get worn, and a pack of the impellers located between one pair of intermediate bearings rest upon each other with their hubs (please see Fig.3). The axial force generated by the pack of impellers is being transmitted to axial bearing. Semi-compression pump designs are selected for application in the wells: 1) To operate with extended various flow rate; 2) With solids ratio of less than or equal to 1000 mg/l (350 ptb) 3) With high GOR. 4) After Hydraulic fracturing.
Semi-compression design After assembly
During the operation
hw ∆h
(Figure 3)
2018 Page 95
Conventional Pumps Summary
> Conventional pumps > Glossary
Compression design (please see Fig.4): In case of compression pump design all impellers originally act as a single pack in one pump tandem and stay in one position. Impellers are firmly fixed on the shaft by sleeves and do not bear on diffusers, while the axial force is being transmitted onto pump shaft and further onto axial thrust bearing in the protector section (please see Fig. 5). This pump has no axial thrust bearings at all, washers act only as seals. Wear-resistance of this type of construction is improved because of elimination of axial wear with extension of operating range of flow rates. Compression pump designs are selected for application in the wells: 1) To operate with extended various flow rate; 2) With solids ratio of less than or equal to 350 ptb (1000 mg/l); 3) With high GOR; 4) After Hydraulic fracturing with proppant production.
Compression design
Abrasion-resistant design (AR2)
Axial thrust bearing
Protector
Intake
PUMP
Radial bearings
1000 mg/l (350 ptb)
(Figure 4)
Axial thrust to be transmitted to axial thrust bearing in protector
(Figure 5)
2018 Page 96
Conventional Pumps Summary
> Conventional pumps > Glossary
Pancake stage (centrifugal design of impeller) – standard design when liquid lift is generated under the action of centrifugal forces (please see Fig.6). Maximum gas content at Pump intake is up to 25%. Pancake stage is powder-based stage. Mixed Flow stage (centrifugal design of impeller) Mixed Flow stages borrow characteristics from both radial flow and axial flow stages. As liquid flows through the impeller of a mixed flow pump, the impeller blades push the liquid out from the pump shaft and to the pump suction at an angle greater than 90o. The impeller of a typical mixed flow pump and the flow through a mixed flow pump are
(Figure 6)
shown in Figure 7. Such design enables to increase lift per stage. These are castbased stages. Vortex stage (centrifugal vortex design) enhanced design of stage impeller due to Vortex crown application (please see Fig.8 and Fig.9). The following benefits have been gained because of: 1) Higher dynamic head and BEP due to increased centrifugal force alue
(Figure 7)
2) Increased maximum gas content at Pump intake due to gas handling by Vortex crown (up to 35%) Both Pancake and Mixed Flow stages can be either centrifugal or centrifugal-vortex.
(Figure 8)
(Figure 9)
2018 Page 97
Conventional Pumps Summary
> Conventional pumps > ND > ND150
NDV150 Pump Performance Curve NDV150 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
20
338 series / OD 86 mm
60
40
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NDV150, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.13 in
105 mm
Housing Diameter
3.38 in
86 mm
Recommended Operating Range
113-227 bpd
18-36 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 98
Conventional Pumps Summary
> Conventional pumps > ND > ND150
NDV150 Pump Performance Curve NDV150 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
338 series / OD 86 mm
Head
Eff.
Power
10
20
30
100
40
200
50 300
60
70 400
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NDV150, 50 Hz Maximal ESP System OD incl. MLE AWG#5, 4kV)
4.13 in
105 mm
Housing Diameter
3.38 in
86 mm
Recommended Operating Range
94-189 bpd
15-30 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 99
Conventional Pumps Summary
> Conventional pumps > ND > ND150
NDV150 Multi Hz Curve (Tornado) Multi Hz Curve NDV150
Curve is calculated for one stage on water of 1.00 sg
338 series / OD 86 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 100
Conventional Pumps Summary
> Conventional pumps > ND > ND150
NDV150 Pump Design Data @ 60 Hz 338 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
205
93
6
11.5
3.5
232
105
STG
Head ft
m
97
2200
670
115
2608
795
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
35
7.6
5.7
8.9
6.6
S14 shaft** 3002010194
35
9.0
6.7
10.5
7.8
3002010195 3002010196
7
13.1
4.0
262
119
132
2994
912
35
10.3
7.7
12.1
9.0
8
14.8
4.5
291
132
150
3402
1037
35
11.7
8.8
13.7
10.2
3002010197
9
16.4
5.0
320
145
165
3742
1140
35
12.9
9.6
15.1
11.3
3002010198
10
18.0
5.5
335
152
182
4127
1258
35
14.2
10.6
16.6
12.4
3002010199
11
19.7
6.0
377
171
200
4536
1382
35
15.7
11.7
18.3
13.7
3002010200
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-338SERIES CR0
0.7
0.21
9.7
4.4
2013070037
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010242
999.340.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030015
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
24.3
11.0
3020010007
CR2, CR3 and UCR configurations are available for pump components
Stage design - Pancake stage with Vortex crown
2018 Page 101
Conventional Pumps Summary
> Conventional pumps > ND > NDO190
NDo190 Pump Performance Curve NDO190 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
338 series / OD 86 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NDO190, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.13 in
105 mm
Housing Diameter
3.38 in
86 mm
Recommended Operating Range
113-264 bpd
18-42 m3/day
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
129 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
87 hp
65 kW
High Strength (S14)
100 hp
74 kW
Ultra High Strength (S16)
113 hp
84 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 102
Conventional Pumps Summary
> Conventional pumps > ND > NDO190
NDO190 Pump Performance Curve NDO190 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
338 series / OD 86 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NDO190, 50 Hz Maximal ESP System OD incl. MLE AWG#5, 4kV)
4.13 in
105 mm
Housing Diameter
3.38 in
86 mm
Recommended Operating Range
94-220 bpd
15-35 m3/day
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
129 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
72 hp
54 kW
High Strength (S14)
83 hp
62 kW
Ultra High Strength (S16)
94 hp
70 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 103
Conventional Pumps Summary
> Conventional pumps > ND > NDO190
NDO190 Multi Hz Curve (Tornado) Multi Hz Curve NDO190
Curve is calculated for one stage on water of 1.00 sg
338 series / OD 86 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 104
Conventional Pumps Summary
> Conventional pumps > ND > NDO190
NDO190 Pump Design Data @ 60 Hz 338 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG #
Length***
Weight
STG
ft
m
lb
kg
2
4.9
1.5
75
34
75
Head ft
m
1166
355
Eff., %
BHP, nominal
41
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
4.0
3.0
4.3
3.2
3202450029 3202450030
3
11.5
2.0
95
43
103
1601
488
41
5.5
4.1
6.0
4.4
4
8.2
2.5
117
53
131
2036
621
41
7.0
5.2
7.6
5.7
3202450031
5
9.8
3.0
150
68
159
2472
753
41
8.5
6.3
9.2
6.9
3202450032
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-338SERIES CR0
0.7
0.21
9.7
4.4
2013070037
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010242
999.340.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030015
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
24.3
11.0
3020010007
CR2, CR3 and UCR configurations are available for pump components
Stage design - Pancake stage Open stage 2018 Page 105
Conventional Pumps Summary
> Conventional pumps > ND > NDV230
NDV230 Pump Performance Curve NDV230 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
338 series / OD 86 mm
50
25
0
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NDV230, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.13 in
105 mm
Housing Diameter
3.38 in
86 mm
Recommended Operating Range
151-302 bpd
24-48 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 106
Conventional Pumps Summary
> Conventional pumps > ND > NDV230
NDV230 Pump Performance Curve NDV230 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
338 series / OD 86 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NDV230, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.13 in
105 mm
Housing Diameter
3.38 in
86 mm
Recommended Operating Range
126-252 bpd
20-40 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 107
Conventional Pumps Summary
> Conventional pumps > ND > NDV230
NDV230 Multi Hz Curve (Tornado) Multi Hz Curve NDV230
Curve is calculated for one stage on water of 1.00 sg
338 series / OD 86 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 108
Conventional Pumps Summary
> Conventional pumps > ND > NDV230
NDV230 Pump Design Data @ 60 Hz 338 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
205
93
STG 97
Head ft
m
2094
638
Eff., %
BHP, nominal
39
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
8.9
6.7
10.3
7.7
3002410234
6
11.5
3.5
232
105
115
2483
757
39
10.6
7.9
12.2
9.1
3002410235
7
13.1
4.0
262
119
132
2850
869
39
12.1
9.1
14.0
10.5
3002410236
8
14.8
4.5
291
132
150
3239
987
39
13.8
10.3
15.9
11.9
3002410237
9
16.4
5.0
320
145
165
3562
1086
39
15.2
11.3
17.5
13.1
3002410238
10
18.0
5.5
335
152
182
3929
1198
39
16.7
12.5
19.3
14.4
3002410239
11
19.7
6.0
377
171
200
4318
1316
39
18.4
13.7
21.3
15.9
3002410240
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-338SERIES CR0
0.7
0.21
9.7
4.4
2013070037
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010242
999.340.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030015
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
24.3
11.0
3020010007
CR2, CR3 and UCR configurations are available for pump components
Stage design - Pancake stage with Vortex crown
2018 Page 109
Conventional Pumps Summary
> Conventional pumps > ND > ND530
ND530 Pump Performance Curve ND530 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
338 series / OD 86 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA ND530, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.13 in
105 mm
Housing Diameter
3.38 in
86 mm
Recommended Operating Range
428-754 bpd
68-120 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 110
Conventional Pumps Summary
> Conventional pumps > ND > ND530
ND530 Pump Performance Curve ND530 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
338 series / OD 86 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA nd530, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.13 in
105 mm
Housing Diameter
3.38 in
86 mm
Recommended Operating Range
346-630 bpd
55-100 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 111
Conventional Pumps Summary
> Conventional pumps > ND > ND530
ND530 Multi Hz Curve (Tornado) Multi Hz Curve ND530
Curve is calculated for one stage on water of 1.00 sg
338 series / OD 86 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 112
Conventional Pumps Summary
> Conventional pumps > ND > ND530
ND530Pump Design Data @ 60 Hz 338 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
205
93
6
11.5
3.5
232
105
STG
Head ft
m
97
1732
528
115
2054
626
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
54
12.4
9.2
15.1
11.2
S14 shaft** TBA
54
14.7
10.9
17.9
13.3
TBA
7
13.1
4.0
262
119
132
2357
719
54
16.8
12.6
20.5
15.3
TBA
8
14.8
4.5
291
132
150
2679
816
54
19.1
14.3
23.3
17.4
TBA
9
16.4
5.0
320
145
165
2947
898
54
21.1
15.7
25.6
19.1
TBA
10
18.0
5.5
335
152
182
3250
991
54
23.2
17.3
28.3
21.1
TBA
11
19.7
6.0
377
171
200
3572
1089
54
25.5
19.0
31.1
23.2
TBA
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-338SERIES CR0
0.7
0.21
9.7
4.4
2013070037
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010242
999.340.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030015
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
24.3
11.0
3020010007
CR2, CR3 and UCR configurations are available for pump components
Stage design - Pancake stage
2018 Page 113
Conventional Pumps Summary
> Conventional pumps > ND > ND600
ND600 Pump Performance Curve Curve is calculated for one stage on water of 1.00 sg
ND600 60 Hz / 3490 rpm
338 series / OD 86 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA ND600, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.13 in
105 mm
Housing Diameter
3.38 in
86 mm
Recommended Operating Range
415-755 bpd
66-120 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 114
Conventional Pumps Summary
> Conventional pumps > ND > ND600
ND600 Pump Performance Curve ND600 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
338 series / OD 86 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA ND600, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.13 in
105 mm
Housing Diameter
3.38 in
86 mm
Recommended Operating Range
346-629 bpd
55-100 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 115
Conventional Pumps Summary
> Conventional pumps > ND > ND600
ND600 Multi Hz Curve (Tornado) Multi Hz Curve ND600
Curve is calculated for one stage on water of 1.00 sg
338 series / OD 86 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 116
Conventional Pumps Summary
> Conventional pumps > ND > ND600
ND600 Pump Design Data @ 60 Hz 338 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG #
Length***
Weight
STG
Head 1660
506
BHP, max
Part Number
lb
kg
9.8
3.0
205
93
6
11.5
3.5
234
106
114
1971
601
62
14.0
10.4
14.3
10.6
TBA
7
13.1
4.0
262
119
131
2265
690
62
16.1
12.0
16.4
12.2
3002030235
96
m
BHP, nominal
m
5
ft
Eff., %
ft
62
hp
kW
hp
kW
S14 shaft**
11.8
8.8
12.0
9.0
3002030234
8
14.8
4.5
291
132
148
2559
780
62
18.2
13.6
18.5
13.8
3002030236
9
16.4
5.0
320
145
163
2818
859
62
20.0
14.9
20.4
15.2
3002030237
10
18.0
5.5
335
152
181
3130
954
62
22.2
16.6
22.6
16.9
TBA
11
19.7
6.0
377
171
198
3424
1044
62
24.3
18.1
24.8
18.5
3002030238
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Semi-compression: AR2 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3
194
88
7
13.1
4
251
STG
Head ft
m
82
1417.78
432
114
111
1919.19
585
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
62
13.1
9.8
13.9
10.4
S14 shaft** TBA
62
17.8
13.3
18.9
14.1
TBA
8
14.8
4.5
280
127
128
2213.12
675
62
20.5
15.3
21.8
16.2
TBA
9
16.4
5
309
140
141
2437.89
743
62
22.6
16.8
24.0
17.9
TBA
11
19.7
6
366
166
170
2939.3
896
62
27.2
20.3
28.9
21.6
TBA
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-338SERIES CR0
0.7
0.21
9.7
4.4
2013070037
SPLINE COUPLING 0.67"-0.67" PRT (for FLT, SCMP pumps)
0.31
0.09
0.5
0.2
2024010242
999.340.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030015
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
24.3
11.0
3020010007
CR2, CR3 and UCR configurations are available for pump components
Stage design - Pancake stage
2018 Page 117
Conventional Pumps Summary
> Conventional pumps > ND > NDV1500
NDV1500 Pump Performance Curve NDV1500 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
338 series / OD 86 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NDV1500, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 5kV)
4.13 in
105 mm
Housing Diameter
3.38 in
86 mm
Recommended Operating Range
1132-1887 bpd
180-300 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 118
Conventional Pumps Summary
> Conventional pumps > ND > NDV1500
NDV1500 Pump Performance Curve NDV1500 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
338 series / OD 86 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NDV1500, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.13 in
105 mm
Housing Diameter
3.38 in
86 mm
Recommended Operating Range
943-1572 bpd
150-250 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 119
Conventional Pumps Summary
> Conventional pumps > ND > NDV1500
NDV1500 Multi Hz Curve (Tornado) Multi Hz Curve NDV1500
Curve is calculated for one stage on water of 1.00 sg
338 series / OD 86 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 120
Conventional Pumps Summary
> Conventional pumps > ND > NDV1500
NDV1500 Pump Design Data @ 60 Hz 338 series | Cast Metallurgy Stage Floater: AR1 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
205
93
STG 58
Head ft
m
986
301
Eff., % 58
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
22.6
16.9
22.5
16.8
3002430132
6
11.5
3.5
234
106
69
1174
358
58
26.9
20.1
26.8
20.0
TBA
7
13.1
4.0
262
119
79
1344
410
58
30.8
23.0
30.7
22.9
3002430133
8
14.8
4.5
291
132
89
1514
461
58
34.7
25.9
34.6
25.8
3002430131
9
16.4
5.0
320
145
100
1701
518
58
38.9
29.1
38.9
29.0
3002430044
10
18.0
5.5
335
152
110
1871
570
58
42.8
32.0
42.7
31.9
TBA
11
19.7
6.0
377
171
121
2058
627
58
47.1
35.2
47.0
35.1
3002430134
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length hp
Weight kW
hp
kW
Part Number
BOH 2-7/8"-8RD EUE-338SERIES CR0
0.7
0.21
9.7
4.4
2013070037
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010242
999.340.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030015
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
24.3
11.0
3020010007
CR2, CR3 and UCR configurations are available for pump components
Stage design - Pancake stage with Vortex crown
2018 Page 121
Conventional Pumps Summary
> Conventional pumps > NF > NFV110M1
NFV110M1 Pump Performance Curve NFV110M1 60 Hz /3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
Head
m
10.67
ft
Qmin
35
Qmax
Q nom
Recommended operating range
9.14
30
7.62
25
6.10
20
4.57
15
Head
Eff, % 50
Power 25
3.05
10
hp
kW
0.10
0.07
0.05
0.04
Eff Power
0
1.52
5
0.00
0
0
25
0
50 5
75 10
100
125
15
20
150
175 25
200 30
225 35
250
275
0.00 0.00 bpd
40
m3 /day
Capacity This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV110M1, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
76-151 bpd
12-24 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
105 hp
78 kW
High Strength (S14)
121 hp
90 kW
Ultra High Strength (S16)
137 hp
102 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 122
Conventional Pumps Summary
> Conventional pumps > NF > NFV110M1
NFV110M1 Pump Performance Curve NFV110M1 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
Head
ft 23
m 7
Eff, 50
6
16
5
13
4
9.8
3
6.6
2
Qmax
Recommended operating range
Head 20
Q nom
Qmin
%
25
Power kW
Eff 3.3
0
0.08
0.03
0.04
1
Power
0
hp
0.06
0
0
5
0
30
Capacity
10
15
60
90
20 120
25 150
30
35
180
210
0.00 0.00 m3/day bpd
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV110M1, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
63-126 bpd
10-20 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
87 hp
65 kW
High Strength (S14)
101 hp
75 kW
Ultra High Strength (S16)
114 hp
85 kW
6000 psi
414 bar
Housing Burst Pressure Limit
2018 Page 123
Conventional Pumps Summary
> Conventional pumps > NF > NFV110M1
NFV110M1 Multi Hz Curve (Tornado) Multi Hz Curve NFV110M1
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 124
Conventional Pumps Summary
> Conventional pumps > NF > NFV110M1
NFV110M1 Pump Design Data @ 60 Hz 362 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG # 5
Length***
Weight
Head
STG
ft
m
lb
kg
9.8
3.0
262
119
105
ft
m
2709
826
Eff., % 31
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
7.4
5.5
8.5
6.4
3002041025
6
11.5
3.5
295
134
122
3147
959
31
8.6
6.4
9.9
7.4
TBA
7
13.1
4.0
335
152
141
3637
1109
31
9.9
7.4
11.4
8.5
3002041024
8
14.8
4.5
373
169
160
4127
1258
31
11.3
8.4
13.0
9.7
3002041026
9
16.4
5.0
408
185
180
4643
1415
31
12.7
9.5
14.6
10.9
3002041023
10
18.0
5.5
445
202
196
5056
1541
31
13.8
10.3
15.9
11.9
TBA
11
19.7
6.0
481
218
215
5546
1690
31
15.1
11.3
17.4
13.0
3002041022
Semi-compression: AR2 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
262
119
Head
STG
ft
m
100
2580
786
Eff., % 31
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
7.0
5.3
7.6
5.7
3002041068
6
11.5
3.5
295
134
115
2966
904
31
8.1
6.0
8.8
6.6
TBA
7
13.1
4.0
335
152
134
3457
1054
31
9.4
7.0
10.2
7.6
3002041069
8
14.8
4.5
373
169
150
3869
1179
31
10.6
7.9
11.5
8.6
3002041067
9
16.4
5.0
408
185
169
4359
1329
31
11.9
8.9
12.9
9.6
3002041070
10
18.0
5.5
445
202
185
4772
1455
31
13.0
9.7
14.1
10.5
TBA
11
19.7
6.0
481
218
204
5262
1604
31
14.4
10.7
15.6
11.6
3002041071
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-362SERIES CR0
0.69
0.21
10.14
4.6
SPLINE COUPLING 0.55"-0.55" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2013070049 2024010319
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 125
Conventional Pumps Summary
> Conventional pumps > NF > NFV150
NFV150 Pump Performance Curve NFV150 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV150, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
113-188 bpd
18-30 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
105 hp
78 kW
High Strength (S14)
121 hp
90 kW
Ultra High Strength (S16)
137 hp
102 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 126
Conventional Pumps Summary
> Conventional pumps > NF > NFV150
NFV150 Pump Performance Curve NFV150 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV150, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
94-157 bpd
15-25 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
87 hp
65 kW
High Strength (S14)
101 hp
75 kW
Ultra High Strength (S16)
114 hp
85 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 127
Conventional Pumps Summary
> Conventional pumps > NF > NFV150
NFV150 Multi Hz Curve (Tornado) Multi Hz Curve NFV150
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 128
Conventional Pumps Summary
> Conventional pumps > NF > NFV150
NFV150 Pump Design Data @ 60 Hz 362 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
262
119
6
11.5
3.5
295
7
13.1
4.0
335
Head
STG
ft
m
105
2322
708
134
122
2697
152
141
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
33
7.8
5.8
8.5
6.4
3002481021
822
33
9.0
6.7
9.9
7.4
TBA
3118
950
33
10.4
7.8
11.4
8.5
3002481020
8
14.8
4.5
373
169
160
3538
1078
33
11.9
8.8
13.0
9.7
3002481022
9
16.4
5.0
408
185
180
3980
1213
33
13.3
10.0
14.6
10.9
3002481019
10
18.0
5.5
445
202
196
4334
1321
33
14.5
10.8
15.9
11.9
TBA
11
19.7
6.0
481
218
215
4754
1449
33
15.9
11.9
17.4
13.0
3002481018
Semi-compression: AR2 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
262
119
Head
STG 100
ft
m
2211
674
Eff., % 33
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
7.4
5.5
8.1
6.0
3002481064
6
11.5
3.5
295
134
115
2543
775
33
8.5
6.4
9.3
7.0
TBA
7
13.1
4.0
335
152
134
2963
903
33
9.9
7.4
10.9
8.1
3002481065
8
14.8
4.5
373
169
150
3317
1011
33
11.1
8.3
12.2
9.1
3002481063
9
16.4
5.0
408
185
169
3737
1139
33
12.5
9.3
13.7
10.2
3002481066
10
18.0
5.5
445
202
185
4090
1247
33
13.7
10.2
15.0
11.2
TBA
11
19.7
6.0
481
218
204
4510
1375
33
15.1
11.3
16.5
12.3
3002481067
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-362SERIES CR0
0.69
0.21
10.14
4.6
SPLINE COUPLING 0.55"-0.55" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2013070049 2024010319
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 129
Conventional Pumps Summary
> Conventional pumps > NF > NFO150
NFO150 Pump Performance Curve NFO150 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFO150, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
75-189 bpd
12-30 m3/day
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
129 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
87 hp
65 kW
High Strength (S14)
100 hp
74 kW
Ultra High Strength (S16)
113 hp
84 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 130
Conventional Pumps Summary
> Conventional pumps > NF > NFO150
NFO150 Pump Performance Curve NFO150 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFO150, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
63-157 bpd
10-25 m3/day
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
129 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
72 hp
54 kW
High Strength (S14)
83 hp
62 kW
Ultra High Strength (S16)
94 hp
70 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 131
Conventional Pumps Summary
> Conventional pumps > NF > NFO150
NFO150 Multi Hz Curve (Tornado) Multi Hz Curve NFO150
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 132
Conventional Pumps Summary
> Conventional pumps > NF > NFO150
NFO150 Pump Design Data @ 60 Hz 362 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
262
119
7
13.1
4.0
335
152
Head
STG
ft
m
141
2351
717
192
3202
976
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
35
7.5
5.6
7.7
5.8
S14 shaft** TBA
35
10.2
7.6
10.5
7.9
TBA
8
14.8
4.5
373
169
215
3586
1093
35
11.4
8.5
11.8
8.8
TBA
9
16.4
5.0
408
185
239
3986
1215
35
12.7
9.5
13.1
9.8
TBA
11
19.7
6.0
481
218
290
4836
1474
35
15.4
11.5
15.9
11.9
TBA
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length
Weight
Part Number
ft
m
lb
kg
0.68901
0.21
10.143
4.6
2013070049
-
-
-
-
2024010577
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
BOH 2-7/8"-8RD EUE-362SERIES CR0 SPLINE COUPLING 0.50"-0.50" PRT (for FLT. SCMP pumps)
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage Open stage 2018 Page 133
Conventional Pumps Summary
> Conventional pumps > NF > NFV190M2
NFV190M2 Pump Performance Curve Curve is calculated for one stage on water of 1.00 sg
NFV190M2 60 Hz / 3490 rpm
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV190M2, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
136-264 bpd
22-42 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 134
Conventional Pumps Summary
> Conventional pumps > NF > NFV190M2
NFV190M2 Pump Performance Curve NFV190M2 50 Hz / 2910 rpm
17
5
11
4
6
2
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV190M2, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
113-220 bpd
18-35 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 135
Conventional Pumps Summary
> Conventional pumps > NF > NFV190M2
NFV190M2 Multi Hz Curve (Tornado) Multi Hz Curve NFV190M2
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 136
Conventional Pumps Summary
> Conventional pumps > NF > NFV190M2
NFV190M2 Pump Design Data @ 60 Hz 362 series | Powder Metallurgy Stage Semi-compression: AR2 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
262
119
STG
Head ft
m
79
1851
564
BHP, nominal
Eff., % 38
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
6.8
5.1
7.6
5.7
3002052614
6
11.5
3.5
295
134
95
2226
679
38
8.2
6.1
9.2
6.8
3002052636
7
13.1
4.0
335
152
111
2601
793
38
9.6
7.2
10.7
8.0
3002052615
8
14.8
4.5
373
169
124
2906
886
38
10.7
8.0
11.9
8.9
3002052613
9
16.4
5.0
408
185
140
3281
1000
38
12.1
9.0
13.5
10.1
3002052616
10
18.0
5.5
445
202
152
3562
1086
38
13.2
9.8
14.6
10.9
3002052646
11
19.7
6.0
481
218
168
3937
1200
38
14.5
10.9
16.2
12.1
3002052617
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-362SERIES CR0
0.69
0.21
10.14
4.6
2013070049
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010242
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 137
Conventional Pumps Summary
> Conventional pumps > NF > NFV230
NFV230 Pump Performance Curve NFV230 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA Nfv230, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
151-340 bpd
24-54 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 138
Conventional Pumps Summary
> Conventional pumps > NF > NFV230
NFV230 Pump Performance Curve NFV230 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA Nfv230, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
126-283 bpd
20-45 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 139
Conventional Pumps Summary
> Conventional pumps > NF > NFV230
NFV230 Multi Hz Curve (Tornado) Multi Hz Curve NFV230
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 140
Conventional Pumps Summary
> Conventional pumps > NF > NFV230
NFV230 Pump Design Data @ 60 Hz 362 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
262
119
STG 91
Head ft
m
2055
626
Eff., %
BHP, nominal
44
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
7.8
5.8
9.1
6.8
3002061383
6
11.5
3.5
306
139
107
2416
737
44
9.2
6.8
10.7
8.0
3002061384
7
13.1
4.0
335
152
124
2800
854
44
10.6
7.9
12.3
9.2
3002061385 3002061386
8
14.8
4.5
373
169
140
3162
964
44
12.0
9.0
13.9
10.4
9
16.4
5.0
408
185
157
3545
1081
44
13.5
10.0
15.6
11.7
3002061387
10
18.0
5.5
450
204
173
3907
1191
44
14.8
11.1
17.2
12.9
3002061388
11
19.7
6.0
481
218
190
4291
1308
44
16.3
12.1
18.9
14.1
3002061389
Semi-compression: AR2 CR1* HSG # 9.8
Length***
Weight
ft
m
lb
kg
3.0
287
130
79
STG 1784
Head ft
m
544
44
Eff., %
BHP, nominal
6.8
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
5.1
7.9
5.9
3002061390
3002061390
11.5
3.5
331
150
95
2145
654
44
8.1
6.1
9.5
7.1
3002061391
3002061391
13.1
4.0
375
170
111
2507
764
44
9.5
7.1
11.1
8.2
3002061392
3002061392
14.8
4.5
397
180
124
2800
854
44
10.6
7.9
12.3
9.2
3002061393
3002061393
16.4
5.0
419
190
140
3162
964
44
12.0
9.0
13.9
10.4
3002061394
3002061394
18.0
5.5
485
220
152
3433
1046
44
13.0
9.7
15.1
11.3
3002061395
3002061395
19.7
6.0
551
250
168
3794
1156
44
14.4
10.7
16.7
12.5
3002061396
3002061396
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-362SERIES CR0
0.69
0.21
10.14
4.6
2013070049
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010242
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 141
Conventional Pumps Summary
> Conventional pumps > NF > NFV260
NFV260 Pump Performance Curve NFV260 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV260, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
166-377 bpd
26-60 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 142
Conventional Pumps Summary
> Conventional pumps > NF > NFV260
NFV260 Pump Performance Curve NFV260 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV260, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
138-314 bpd
22-50 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 143
Conventional Pumps Summary
> Conventional pumps > NF > NFV260
NFV260 Multi Hz Curve (Tornado) Multi Hz Curve NFV260
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 144
Conventional Pumps Summary
> Conventional pumps > NF > NFV260
NFV260 Pump Design Data @ 60 Hz 362 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
262
119
STG
Head ft
m
91
1986
605
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
45
8.7
6.5
9.9
7.4
3002680999
6
11.5
3.5
295
134
107
2335
712
45
10.2
7.6
11.7
8.7
3002680978
7
13.1
4.0
335
152
124
2707
825
45
11.8
8.8
13.5
10.1
3002680998
8
14.8
4.5
373
169
140
3056
931
45
13.3
9.9
15.3
11.4
3002681000
9
16.4
5.0
408
185
157
3427
1044
45
14.9
11.2
17.1
12.8
3002680997
10
18.0
5.5
445
202
173
3776
1151
45
16.5
12.3
18.9
14.1
3002680969
11
19.7
6.0
481
218
190
4147
1264
45
18.1
13.5
20.7
15.5
3002680996
Semi-compression: AR2 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
262
119
STG 79
Head ft
m
1724
526
Eff., %
BHP, nominal
45
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
7.5
5.6
8.6
6.4
3002680315 3002680316
6
11.5
3.5
295
134
95
2074
632
45
9.0
6.7
10.4
7.7
7
13.1
4.0
335
152
111
2423
738
45
10.6
7.9
12.1
9.0
3002680317
8
14.8
4.5
373
169
124
2707
825
45
11.8
8.8
13.5
10.1
3002680318
9
16.4
5.0
408
185
140
3056
931
45
13.3
9.9
15.3
11.4
3002680319
10
18.0
5.5
445
202
152
3318
1011
45
14.5
10.8
16.6
12.4
3002680320
11
19.7
6.0
481
218
168
3667
1118
45
16.0
11.9
18.3
13.7
3002680321
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-362SERIES CR0
0.69
0.21
10.14
4.6
2013070049
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010242
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 145
Conventional Pumps Summary
> Conventional pumps > NF > NFV340
NFV340 Pump Performance Curve NFV340 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV340, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
241-453 bpd
38-72 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 146
Conventional Pumps Summary
> Conventional pumps > NF > NFV340
NFV340 Pump Performance Curve NFV340 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV340, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
201-377 bpd
32-60 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 147
Conventional Pumps Summary
> Conventional pumps > NF > NFV340
NFV340 Multi Hz Curve (Tornado) Multi Hz Curve NFV340
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 148
Conventional Pumps Summary
> Conventional pumps > NF > NFV340
NFV340 Pump Design Data @ 60 Hz 362 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
262
119
STG
Head ft
m
96
2322
708
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
47
12.4
9.3
13.8
10.3
3202260597
6
11.5
3.5
295
134
113
2733
833
47
14.7
10.9
16.2
12.1
3202260619
7
13.1
4.0
335
152
131
3169
966
47
17.0
12.7
18.8
14.1
3202260598
8
14.8
4.5
373
169
148
3580
1091
47
19.2
14.3
21.3
15.9
3202260596
9
16.4
5.0
408
185
163
3943
1202
47
21.1
15.8
23.4
17.5
3202260599
10
18.0
5.5
445
202
180
4354
1327
47
23.3
17.4
25.9
19.3
3202260629
11
19.7
6.0
481
218
198
4789
1460
47
25.7
19.2
28.5
21.2
3202260600
Semi-compression: AR2 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
262
119
STG
Head ft
m
83
2212
674
Eff., % 47
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
11.0
8.2
12.1
9.0
3202260253
6
11.5
3.5
295
134
100
2665
812
47
13.2
9.8
14.6
10.9
3202260275
7
13.1
4.0
335
152
113
3011
918
47
14.9
11.1
16.5
12.3
3202260254
8
14.8
4.5
373
169
130
3464
1056
47
17.2
12.8
19.0
14.2
3202260252
9
16.4
5.0
408
185
144
3837
1170
47
19.0
14.2
21.0
15.7
3202260255
10
18.0
5.5
445
202
160
4263
1299
47
21.1
15.8
23.3
17.4
3202260285
11
19.7
6.0
481
218
174
4636
1413
47
23.0
17.1
25.4
18.9
3202260256
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight
m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-362SERIES CR0
0.69
0.21
10.14
4.6
2013070049
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010242
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 149
Conventional Pumps Summary
> Conventional pumps > NF > NFV380
NFV380 Pump Performance Curve NFV380 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV380, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
264-491 bpd
42-78 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 150
Conventional Pumps Summary
> Conventional pumps > NF > NFV380
NFV380 Pump Performance Curve Curve is calculated for one stage on water of 1.00 sg
NFV380 50 Hz / 2910 rpm
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV380, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
220-409 bpd
35-65 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 151
Conventional Pumps Summary
> Conventional pumps > NF > NFV380
NFV380 Multi Hz Curve (Tornado) Multi Hz Curve NFV380
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 152
Conventional Pumps Summary
> Conventional pumps > NF > NFV380
NFV380 Pump Design Data @ 60 Hz 362 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
262
119
STG
Head ft
m
96
2327
709
Eff., % 48
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
13.4
10.0
14.6
10.9
3202260253
6
11.5
3.5
295
134
113
2739
835
48
15.7
11.7
17.2
12.9
3002600849
7
13.1
4.0
335
152
131
3175
968
48
18.2
13.6
20.0
14.9
3002600850
8
14.8
4.5
373
169
148
3587
1093
48
20.6
15.4
22.6
16.9
3002600851
9
16.4
5.0
408
185
163
3951
1204
48
22.7
16.9
24.9
18.6
3002600229
10
18.0
5.5
445
202
180
4363
1330
48
25.0
18.7
27.5
20.5
3002600852
11
19.7
6.0
481
218
198
4799
1463
48
27.6
20.6
30.2
22.5
3002600853
Semi-compression: AR2 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
262
119
6
11.5
3.5
295
7
13.1
4.0
335
STG
Head ft
m
96
2327
709
134
113
2739
152
131
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
48
13.4
10.0
14.6
10.9
3002601491
835
48
15.7
11.7
17.2
12.9
3002601513
3175
968
48
18.2
13.6
20.0
14.9
3002601492
8
14.8
4.5
373
169
148
3587
1093
48
20.6
15.4
22.6
16.9
3002601490
9
16.4
5.0
408
185
163
3951
1204
48
22.7
16.9
24.9
18.6
3002601493
10
18.0
5.5
445
202
180
4363
1330
48
25.0
18.7
27.5
20.5
3002601523
11
19.7
6.0
481
218
198
4799
1463
48
27.6
20.6
30.2
22.5
3002601494
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-362SERIES CR0
0.69
0.21
10.14
4.6
2013070049
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010242
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 153
Conventional Pumps Summary
> Conventional pumps > NF > NFV450
NFV450 Pump Performance Curve NFV450 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV450, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
302-566 bpd
48-90 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 154
Conventional Pumps Summary
> Conventional pumps > NF > NFV450
NFV450 Pump Performance Curve NFV450 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV450, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
252-472 bpd
40-72 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 155
Conventional Pumps Summary
> Conventional pumps > NF > NFV450
NFV450 Multi Hz Curve (Tornado) Multi Hz Curve NFV450
0
100
Curve is calculated for one stage on water of 1.00 sg
200
300
400
500
362 series / OD 92 mm
600
700
800
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 156
Conventional Pumps Summary
> Conventional pumps > NF > NFV450
NFV450 Pump Design Data @ 60 Hz 362 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9,8
3,0
262
119
STG
Head ft
m
88
2154
656
Eff., % 58
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
12,3
9,2
13,3
9,9
3002081680
6
11,5
3,5
295
134
104
2545
776
58
14,5
10,8
15,7
11,7
3002081681
7
13,1
4,0
335
152
120
2937
895
58
16,7
12,5
18,1
13,5
3002081682
8
14,8
4,5
373
169
136
3328
1014
58
19,0
14,1
20,5
15,3
3002081683
9
16,4
5,0
408
185
152
3720
1134
58
21,2
15,8
22,9
17,1
3002081684
10
18,0
5,5
445
202
168
4111
1253
58
23,4
17,5
25,3
18,9
3002081685
11
19,7
6,0
481
218
182
4454
1358
58
25,4
18,9
27,4
20,5
3002081686
Semi-compression: AR2 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9,8
3,0
262
119
6
11,5
3,5
295
134
STG
Head ft
m
80
1958
597
92
2251
686
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
58
11,2
8,3
12,1
9,0
S14 shaft** 3002081687
58
12,8
9,6
13,9
10,3
3002081688
7
13,1
4,0
335
152
108
2643
806
58
15,1
11,2
16,3
12,1
3002081689
8
14,8
4,5
373
169
120
2937
895
58
16,7
12,5
18,1
13,5
3002081690
9
16,4
5,0
408
185
136
3328
1014
58
19,0
14,1
20,5
15,3
3002081691
10
18,0
5,5
445
202
148
3622
1104
58
20,6
15,4
22,3
16,6
3002081692
11
19,7
6,0
481
218
164
4013
1223
58
22,9
17,1
24,7
18,4
3002081693
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-362SERIES CR0
0.69
0.21
10.14
4.6
2013070049
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010242
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 157
Conventional Pumps Summary
> Conventional pumps > NF > NFV600M1
NFV600M1 Pump Performance Curve NFV600M1 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV600M1, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
453-792 bpd
72-126 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 158
Conventional Pumps Summary
> Conventional pumps > NF > NFV600M1
NFV600M1 Pump Performance Curve NFV600M1 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV600M1, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
377-660 bpd
60-105 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 159
Conventional Pumps Summary
> Conventional pumps > NF > NFV600M1
NFV600M1 Multi Hz Curve (Tornado) Multi Hz Curve NFV600M1
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 160
Conventional Pumps Summary
> Conventional pumps > NF > NFV600M1
NFV600M1 Pump Design Data @ 60 Hz 362 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
262
119
STG 93
Head ft
m
2518
767
Eff., % 57
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
19.6
14.6
21.6
16.2
3002762269
6
11.5
3.5
295
134
110
2978
908
57
23.2
17.3
25.6
19.1
3002762291
7
13.1
4.0
335
152
127
3438
1048
57
26.8
20.0
29.6
22.1
3002762270 3002762268
8
14.8
4.5
373
169
144
3898
1188
57
30.4
22.7
33.5
25.0
9
16.4
5.0
408
185
159
4304
1312
57
33.5
25.0
37.0
27.6
3002762271
10
18.0
5.5
445
202
176
4764
1452
57
37.1
27.7
41.0
30.6
3002762301
11
19.7
6.0
481
218
193
5225
1592
57
40.7
30.4
44.9
33.5
3002762272
Semi-compression: AR2 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
262
119
STG 79
Head ft
m
2139
652
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
57
16.7
12.4
18.4
13.7
3002762843
6
11.5
3.5
295
134
95
2572
784
57
20.0
15.0
22.1
16.5
3002762865
7
13.1
4.0
335
152
108
2924
891
57
22.8
17.0
25.1
18.8
3002762844
8
14.8
4.5
373
169
124
3357
1023
57
26.2
19.5
28.9
21.5
3002762842
9
16.4
5.0
408
185
140
3790
1155
57
29.5
22.0
32.6
24.3
3002762845
10
18.0
5.5
445
202
152
4115
1254
57
32.1
23.9
35.4
26.4
3002762875
11
19.7
6.0
481
218
168
4548
1386
57
35.4
26.4
39.1
29.2
3002762846
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-362SERIES CR0
0.69
0.21
10.14
4.6
2013070049
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010242
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 161
Conventional Pumps Summary
> Conventional pumps > NF > NFV760
NFV760 Pump Performance Curve NFV760 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV760, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
604-906 bpd
96-144 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 162
Conventional Pumps Summary
> Conventional pumps > NF > NFV760
NFV760 Pump Performance Curve NFV760 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV760, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
503-755 bpd
80-120 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 163
Conventional Pumps Summary
> Conventional pumps > NF > NFV760
NFV760 Multi Hz Curve (Tornado) Multi Hz Curve NFV760
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 164
Conventional Pumps Summary
> Conventional pumps > NF > NFV760
NFV760 Pump Design Data @ 60 Hz 362 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
262
119
STG 91
Head ft
m
2472
753
Eff., % 58
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
23.6
17.6
24.9
18.6
3002880067
6
11.5
3.5
295
134
107
2907
886
58
27.7
20.7
29.3
21.9
3002880086
7
13.1
4.0
335
152
124
3369
1027
58
32.2
24.0
33.9
25.3
3002880068
8
14.8
4.5
373
169
140
3803
1159
58
36.3
27.1
38.3
28.6
3002880066
9
16.4
5.0
408
185
154
4183
1275
58
39.9
29.8
42.1
31.5
3002880036
10
18.0
5.5
445
202
170
4618
1408
58
44.1
32.9
46.5
34.7
3002880095
11
19.7
6.0
481
218
187
5080
1548
58
48.5
36.2
51.2
38.2
3002880069
Semi-compression: AR2 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
262
119
STG 79
Head ft
m
2146
654
Eff., % 58
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
20.5
15.3
21.6
16.1
3002880201
6
11.5
3.5
295
134
95
2581
787
58
24.6
18.4
26.0
19.4
3002880202
7
13.1
4.0
335
152
108
2934
894
58
28.0
20.9
29.6
22.1
3002880203
8
14.8
4.5
373
169
124
3369
1027
58
32.2
24.0
33.9
25.3
3002880204
9
16.4
5.0
408
185
140
3803
1159
58
36.3
27.1
38.3
28.6
3002880205
10
18.0
5.5
445
202
152
4129
1259
58
39.4
29.4
41.6
31.0
3002880206
11
19.7
6.0
481
218
168
4564
1391
58
43.6
32.5
46.0
34.3
3002880207
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-362SERIES CR0
0.69
0.21
10.14
4.6
2013070049
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010242
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 165
Conventional Pumps Summary
> Conventional pumps > NF > NFV940
NFV940 Pump Performance Curve NFV940 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV940, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
604-1207 bpd
92-192 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 166
Conventional Pumps Summary
> Conventional pumps > NF > NFV940
NFV940 Pump Performance Curve NFV940 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV940, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
503-1006 bpd
80-160 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 167
Conventional Pumps Summary
> Conventional pumps > NF > NFV940
NFV940 Multi Hz Curve (Tornado) Multi Hz Curve NFV940
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 168
Conventional Pumps Summary
> Conventional pumps > NF > NFV940
NFV940 Pump Design Data @ 60 Hz 362 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
262
119
6
11.5
3.5
295
7
13.1
4.0
335
STG
Head ft
m
81
2200
671
134
96
2608
152
110
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
55
27.8
20.8
30.2
22.6
3002101906
795
55
33.0
24.6
35.8
26.7
3002101907
2988
911
55
37.8
28.2
41.1
30.6
3002101908
8
14.8
4.5
373
169
125
3396
1035
55
43.0
32.1
46.7
34.8
3002101909
9
16.4
5.0
408
185
140
3803
1159
55
48.1
35.9
52.3
39.0
3002101910
10
18.0
5.5
445
202
155
4211
1283
55
53.3
39.7
57.9
43.2
3002101911
11
19.7
6.0
481
218
167
4537
1383
55
57.4
42.8
62.3
46.5
3002101912
Semi-compression: AR2 CR1* HSG # 5
Length***
Weight
STG
ft
m
lb
kg
9.8
3.0
262
119
71
Head ft
m
1929
588
Eff., % 55
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
24.4
18.2
26.5
19.8
3002100992
6
11.5
3.5
295
134
85
2309
704
55
29.2
21.8
31.7
23.7
3002101011
7
13.1
4.0
335
152
97
2635
803
55
33.3
24.9
36.2
27.0
3002100993
8
14.8
4.5
373
169
111
3015
919
55
38.1
28.5
41.4
30.9
3002100991
9
16.4
5.0
408
185
125
3396
1035
55
43.0
32.1
46.7
34.8
3002100879
10
18.0
5.5
445
202
137
3722
1134
55
47.1
35.1
51.1
38.2
3002101020
11
19.7
6.0
481
218
151
4102
1250
55
51.9
38.7
56.4
42.1
3002100994
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-362SERIES CR0
0.69
0.21
10.14
4.6
2013070049
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010242
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 169
Conventional Pumps Summary
> Conventional pumps > NF > NFV3800
NFV3800 Pump Performance Curve NFV3800 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV3800, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
2641-4528 bpd
420-720 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
322 hp
240 kW
High Strength (S14)
346 hp
258 kW
Ultra High Strength (S16)
402 hp
300 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 170
Conventional Pumps Summary
> Conventional pumps > NF > NFV3800
NFV3800 Pump Performance Curve Curve is calculated for one stage on water of 1.00 sg
NFV3800 50 Hz / 2910 rpm
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV3800, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
2201-3773 bpd
350-600 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
268 hp
200 kW
High Strength (S14)
288 hp
215 kW
Ultra High Strength (S16)
335 hp
250 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 171
Conventional Pumps Summary
> Conventional pumps > NF > NFV3800
NFV3800 Multi Hz Curve (Tornado) Multi Hz Curve NFV3800
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 172
Conventional Pumps Summary
> Conventional pumps > NF > NFV3800
NFV3800 Pump Design Data @ 60 Hz 362 series | Cast Metallurgy Stage Floater: AR1 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
262
119
6
11.5
3.5
295
STG
Head ft
m
37
610
186
134
44
725
221
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
66
25.9
19.3
26.2
19.5
S14 shaft** 3002360117
66
30.8
23.0
31.1
23.2
3002360118
7
13.1
4.0
335
152
50
824
251
66
35.0
26.1
35.4
26.4
3002360119
8
14.8
4.5
373
169
57
940
286
66
39.9
29.8
40.3
30.1
3002360120
9
16.4
5.0
408
185
64
1055
322
66
44.8
33.4
45.3
33.8
3002360121
10
18.0
5.5
445
202
70
1154
352
66
49.0
36.6
49.5
37.0
3002360122
11
19.7
6.0
481
218
77
1270
387
66
53.9
40.2
54.5
40.6
3002360123
Semi-compression: AR2 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
262
119
STG 37
Head ft
m
610
186
Eff., % 66
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
25.9
19.3
26.2
19.5
3002360260 3002360282
6
11.5
3.5
295
134
44
725
221
66
30.8
23.0
31.1
23.2
7
13.1
4.0
335
152
50
824
251
66
35.0
26.1
35.4
26.4
3002360261
8
14.8
4.5
373
169
57
940
286
66
39.9
29.8
40.3
30.1
3002360259
9
16.4
5.0
408
185
64
1055
322
66
44.8
33.4
45.3
33.8
3002360262
10
18.0
5.5
445
202
70
1154
352
66
49.0
36.6
49.5
37.0
3002360292
11
19.7
6.0
481
218
77
1270
387
66
53.9
40.2
54.5
40.6
3002360263
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-362SERIES CR0 FJI
0.66
0.2
6.99
3.17
2013070103
BOH 2-7/8"-8RD EUE-362SERIES CR0
0.69
0.21
10.14
4.6
2013070049
SPLINE COUPLING 0.79"-0.79" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010119
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed Flow stage with Vortex crown
2018 Page 173
Conventional Pumps Summary
> Conventional pumps > NH > NHV200
NHV200 Pump Performance Curve NHV200 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV200, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
136-264 bpd
22-42 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 174
Conventional Pumps Summary
> Conventional pumps > NH > NHV200
NHV200 Pump Performance Curve NHV200 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV200, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
113-220 bpd
18-35 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 175
Conventional Pumps Summary
> Conventional pumps > NH > NHV200
NHV200 Multi Hz Curve (Tornado) Multi Hz Curve NHV200
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 176
Conventional Pumps Summary
> Conventional pumps > NH > NHV200
NHV200 Pump Design Data @ 60 Hz 406 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
298
135
STG
Head ft
m
99
3508
1069
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
33
14.7
10.9
15.6
11.6
3002570238
6
11.5
3.5
344
156
114
4039
1231
33
16.9
12.6
17.9
13.4
3002570260
7
13.1
4.0
386
175
132
4677
1426
33
19.6
14.6
20.8
15.5
3002570239
8
14.8
4.5
430
195
150
5315
1620
33
22.2
16.6
23.6
17.6
3002570237
9
16.4
5.0
470
213
168
5953
1814
33
24.9
18.6
26.5
19.7
3002570240
10
18.0
5.5
518
235
183
6484
1976
33
27.1
20.2
28.8
21.5
3002570270
11
19.7
6.0
562
255
201
7122
2171
33
29.8
22.2
31.6
23.6
3002570241
Semi-compression: AR2 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
298
135
STG
Head ft
m
86
3047
929
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
33
12.7
9.5
13.5
10.1
3002570272 3002570273
6
11.5
3.5
344
156
103
3650
1112
33
15.3
11.4
16.2
12.1
7
13.1
4.0
386
175
119
4217
1285
33
17.6
13.2
18.7
14.0
3002570274
8
14.8
4.5
430
195
134
4748
1447
33
19.9
14.8
21.1
15.7
3002570275
9
16.4
5.0
470
213
148
5244
1598
33
21.9
16.4
23.3
17.4
3002570276
10
18.0
5.5
518
235
162
5740
1750
33
24.0
17.9
25.5
19.0
3002570277
11
19.7
6.0
562
255
179
6343
1933
33
26.5
19.8
28.2
21.0
3002570278
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.69
0.21
10.80
4.9
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72
0.22
11.69
5.3
2013070059
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
2024010242
0.31
0.09
0.5
0.2
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 177
Conventional Pumps Summary
> Conventional pumps > NH > NHV250
NHV250 Pump Performance Curve NHV250 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV250, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
151-340 bpd
24-54 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 178
Conventional Pumps Summary
> Conventional pumps > NH > NHV250
NHV250 Pump Performance Curve NHV250 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV250, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
126-283 bpd
20-45 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 179
Conventional Pumps Summary
> Conventional pumps > NH > NHV250
NHV250 Multi Hz Curve (Tornado) Multi Hz Curve NHV250
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 180
Conventional Pumps Summary
> Conventional pumps > NH > NHV250
NHV250 Pump Design Data @ 60 Hz 406 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
298
135
STG 99
Head ft
m
3064
934
Eff., % 38
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
15.1
11.2
16.7
12.5
3002770183 3002770205
6
11.5
3.5
331
150
114
3528
1075
38
17.3
12.9
19.2
14.4
7
13.1
4.0
386
175
132
4085
1245
38
20.1
15.0
22.3
16.6
3002770184
8
14.8
4.5
430
195
150
4642
1415
38
22.8
17.0
25.3
18.9
3002770182 3002770185
9
16.4
5.0
470
213
168
5199
1585
38
25.6
19.1
28.4
21.2
10
18.0
5.5
518
235
183
5663
1726
38
27.8
20.8
30.9
23.1
3002770215
11
19.7
6.0
562
255
201
6220
1896
38
30.6
22.8
33.9
25.3
3002770186
Semi-compression: AR2 CR1* HSG # 5
Length***
Weight
STG
ft
m
lb
kg
9.8
3.0
298
135
86
Head ft
m
2661
811
Eff., % 38
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
13.1
9.8
14.5
10.8
3002770797
6
11.5
3.5
331
150
103
3187
971
38
15.7
11.7
17.4
13.0
3002770819
7
13.1
4.0
386
175
119
3682
1122
38
18.1
13.5
20.1
15.0
3002770798
8
14.8
4.5
430
195
134
4147
1264
38
20.4
15.2
22.6
16.9
3002770796
9
16.4
5.0
470
213
148
4580
1396
38
22.5
16.8
25.0
18.6
3002770799
10
18.0
5.5
518
235
162
5013
1528
38
24.6
18.4
27.3
20.4
3002770829
11
19.7
6.0
562
255
179
5539
1688
38
27.2
20.3
30.2
22.5
3002770800
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.69
0.21
10.8
4.9
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72
0.22
11.69
5.3
2013070059
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
2024010242
0.31
0.09
0.5
0.2
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 181
Conventional Pumps Summary
> Conventional pumps > NH > NHV380
NHV380 Pump Performance Curve NHV380 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV380, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
226-528 bpd
36-84 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 182
Conventional Pumps Summary
> Conventional pumps > NH > NHV380
NHV380 Pump Performance Curve Curve is calculated for one stage on water of 1.00 sg
NHV380 50 Hz / 2910 rpm
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV380, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
189-440 bpd
30-70 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 183
Conventional Pumps Summary
> Conventional pumps > NH > NHV380
NHV380 Multi Hz Curve (Tornado) Multi Hz Curve NHV380
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 184
Conventional Pumps Summary
> Conventional pumps > NH > NHV380
NHV380 Pump Design Data @ 60 Hz 406 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
298
135
6
11.5
3.5
344
156
STG
Head ft
m
104
2948
899
122
3458
1054
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
46
17.9
13.4
20.3
15.1
S14 shaft** 3002120713
46
21.0
15.7
23.8
17.7
3002120714
7
13.1
4.0
386
175
141
3997
1218
46
24.3
18.1
27.5
20.5
3002120715
8
14.8
4.5
430
195
157
4450
1356
46
27.0
20.2
30.6
22.8
3002120716
9
16.4
5.0
470
213
176
4989
1521
46
30.3
22.6
34.3
25.6
3002120717
10
18.0
5.5
518
235
194
5499
1676
46
33.4
24.9
37.8
28.2
3002120718
11
19.7
6.0
562
255
213
6038
1840
46
36.6
27.3
41.5
31.0
3002120719
Semi-compression: AR2 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
298
135
6
11.5
3.5
344
STG
Head ft
m
89
2523
769
156
104
2948
899
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
46
15.3
11.4
17.3
12.9
S14 shaft** 3002120681
46
17.9
13.4
20.3
15.1
3002120702
7
13.1
4.0
386
175
122
3458
1054
46
21.0
15.7
23.8
17.7
3002120682
8
14.8
4.5
430
195
140
3969
1210
46
24.1
18.0
27.3
20.3
3002120680 3002120683
9
16.4
5.0
470
213
153
4337
1322
46
26.3
19.6
29.8
22.2
10
18.0
5.5
518
235
169
4791
1460
46
29.1
21.7
32.9
24.6
3002120711
11
19.7
6.0
562
255
187
5301
1616
46
32.2
24.0
36.4
27.2
3002120684
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.69
0.21
10.8
4.9
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72
0.22
11.69
5.3
2013070059
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
2024010242
0.31
0.09
0.5
0.2
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 185
Conventional Pumps Summary
> Conventional pumps > NH > NHV450
NHV450 Pump Performance Curve NHV450 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV450, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
302-604 bpd
48-96 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 186
Conventional Pumps Summary
> Conventional pumps > NH > NHV450
NHV450 Pump Performance Curve Curve is calculated for one stage on water of 1.00 sg
NHV450 50 Hz / 2910 rpm
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV450, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
251-503 bpd
40-80 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 187
Conventional Pumps Summary
> Conventional pumps > NH > NHV450
NHV450 Multi Hz Curve (Tornado) Multi Hz Curve NHV450
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 188
Conventional Pumps Summary
> Conventional pumps > NH > NHV450
NHV450 Pump Design Data @ 60 Hz 406 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
298
135
6
11.5
3.5
344
156
STG
Head ft
m
101
2706
825
117
3134
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
53
16.9
12.6
17.5
13.1
S14 shaft** TBA
955
53
19.6
14.6
20.3
15.2
TBA TBA
7
13.1
4.0
386
175
135
3616
1102
53
22.6
16.9
23.4
17.5
8
14.8
4.5
430
195
153
4098
1249
53
25.6
19.1
26.6
19.8
TBA
9
16.4
5.0
470
213
172
4607
1404
53
28.8
21.5
29.9
22.3
TBA
10
18.0
5.5
518
235
190
5090
1551
53
31.9
23.8
33.0
24.6
TBA
11
19.7
6.0
562
255
208
5572
1698
53
34.9
26.0
36.1
27.0
TBA
Semi-compression: AR2 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
298
135
6
11.5
3.5
344
156
STG
Head ft
m
87
2331
710
101
2706
825
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
53
14.6
10.9
15.1
11.3
S14 shaft** TBA
53
16.9
12.6
17.5
13.1
TBA
7
13.1
4.0
386
175
119
3188
972
53
19.9
14.9
20.7
15.4
TBA
8
14.8
4.5
430
195
137
3670
1119
53
23.0
17.1
23.8
17.8
TBA
9
16.4
5.0
470
213
151
4045
1233
53
25.3
18.9
26.2
19.6
TBA
10
18.0
5.5
518
235
169
4527
1380
53
28.3
21.1
29.3
21.9
TBA
11
19.7
6.0
562
255
186
4982
1519
53
31.2
23.3
32.3
24.1
TBA
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.69
0.21
10.80
4.9
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72
0.22
11.68
5.3
2013070059
SPLINE COUPLING 0.67"-0.67" PRT (for FLT. SCMP pumps)
2024010242
0.31
0.09
0.5
0.2
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 189
Conventional Pumps Summary
> Conventional pumps > NH > NHV600
NHV600 Pump Performance Curve NHV600 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
Head
m
12.20
ft
Qmin
40
%
75
9.15
30
50
6.10
20
Q max
Recommended operating range
Head
Eff,
Qnom
Power
hp 25
3.05
10
kW
0.30
0.22
0.15
0.11
Eff Power
0
0.00
0
0
200
0
30
400
600
60
90
800 120
1000 150
1200 180
0.00 0.00 bpd m3/day
Capacity This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV600, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
453-755 bpd
72-120 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
105 hp
78 kW
High Strength (S14)
121 hp
90 kW
Ultra High Strength (S16)
137 hp
102 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 190
Conventional Pumps Summary
> Conventional pumps > NH > NHV600
NHV600 Pump Performance Curve Curve is calculated for one stage on water of 1.00 sg
NHV600 50 Hz / 2910 rpm
406 series / OD 103 mm
Head
ft 26.2
m 8
Qmin
Head
Qnom
Qmax
Recommended operating range
Eff, % 75
19.7
6
50
13.1
4
25
6.56
2
Power
Eff
kW
Power 0
0
0
0
25
50
0
75
300
Capacity
100
hp
0.18
0.24
0.09
0.12
0.00 0.00 150 m3/day
125
600
900
bpd
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV600, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
377-629 bpd
60-100 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
87 hp
65 kW
High Strength (S14)
101 hp
75 kW
Ultra High Strength (S16)
114 hp
85 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 191
Conventional Pumps Summary
> Conventional pumps > NH > NHV600
NHV600 Multi Hz Curve (Tornado) Multi Hz Curve NHV600
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 192
Conventional Pumps Summary
> Conventional pumps > NH > NHV600
NHV600 Pump Design Data @ 60 Hz 406 series | Powder Metallurgy Stage Semi-compression: AR2 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
298
135
6
11.5
3.5
344
156
7
13.1
4.0
386
8
14.8
4.5
430
STG
Head ft
m
86
2661
811
99
3064
934
175
116
3590
195
129
3992
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
56
21.2
15.8
22.7
17.0
S14 shaft** TBA
56
24.4
18.2
26.2
19.5
TBA
1094
56
28.6
21.3
30.7
22.9
TBA
1217
56
31.8
23.7
34.1
25.5
TBA
9
16.4
5.0
470
213
146
4518
1377
56
35.9
26.8
38.6
28.8
TBA
10
18.0
5.5
518
235
159
4920
1500
56
39.1
29.2
42.0
31.4
TBA
11
19.7
6.0
562
255
176
5446
1660
56
43.3
32.3
46.5
34.7
TBA
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Compression: AR2 CR1* HSG #
Length**
Weight
ft
m
lb
kg
5
9.8
3.0
298
135
6
11.5
3.5
344
156
STG
Head ft
m
97
3002
915
114
3528
1075
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
56
23.9
17.8
25.6
19.1
S14 shaft** TBA
56
28.1
20.9
30.1
22.5
TBA
7
13.1
4.0
386
175
132
4085
1245
56
32.5
24.2
34.9
26.0
TBA
8
14.8
4.5
430
195
150
4642
1415
56
36.9
27.6
39.7
29.6
TBA
9
16.4
5.0
470
213
167
5168
1575
56
41.1
30.7
44.2
33.0
TBA
10
18.0
5.5
518
235
185
5725
1745
56
45.5
34.0
48.9
36.5
TBA
11
19.7
6.0
562
255
202
6251
1905
56
49.7
37.1
53.4
39.9
TBA
*CR2, CR3 and UCR configurations are available. **Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
2018 Page 193
Conventional Pumps Summary
> Conventional pumps > NH > NHV600
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.68901
0.21
10.8045
4.9
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72182
0.22
11.6865
5.3
2013070059
0.31
0.09
0.9
0.4
2024010016
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
SPLINE COUPLING 0.79"STR-0.79"STR (for FLT. SCMP pumps)
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 194
Conventional Pumps Summary
> Conventional pumps > NH > NHV760
NHV760 Pump Performance Curve Curve is calculated for one stage on water of 1.00 sg
NHV760 60 Hz / 3490 rpm
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV760, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
528-1057 bpd
84-168 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
322 hp
240 kW
High Strength (S14)
346 hp
258 kW
Ultra High Strength (S16)
402 hp
300 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 195
Conventional Pumps Summary
> Conventional pumps > NH > NHV760
NHV760 Pump Performance Curve NHV760 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV760, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
440-881 bpd
70-140 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
268 hp
200 kW
High Strength (S14)
288 hp
215 kW
Ultra High Strength (S16)
335 hp
250 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 196
Conventional Pumps Summary
> Conventional pumps > NH > NHV760
NHV760 Multi Hz Curve (Tornado) Multi Hz Curve NHV760
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 197
Conventional Pumps Summary
> Conventional pumps > NH > NHV760
NHV760 Pump Design Data @ 60 Hz 406 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
298
135
6
11.5
3.5
344
156
STG
Head ft
m
97
3396
1035
114
3991
1216
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
58
32.6
24.3
37.1
27.7
S14 shaft** 3002141055
58
38.3
28.6
43.6
32.5
3002141056
7
13.1
4.0
386
175
132
4621
1408
58
44.3
33.1
50.4
37.6
3002141057
8
14.8
4.5
430
195
150
5251
1601
58
50.4
37.6
57.3
42.8
3002141058
9
16.4
5.0
470
213
167
5846
1782
58
56.1
41.8
63.8
47.6
3002141059
10
18.0
5.5
518
235
185
6476
1974
58
62.1
46.4
70.7
52.7
3002141060
11
19.7
6.0
562
255
202
7072
2155
58
67.8
50.6
77.2
57.6
3002141061
Semi-compression: AR2 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
298
135
6
11.5
3.5
344
156
STG
Head ft
m
84
2941
896
100
3501
1067
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
58
28.2
21.0
32.1
24.0
S14 shaft** 3002141062
58
33.6
25.1
38.2
28.5
3002141063
7
13.1
4.0
386
175
114
3991
1216
58
38.3
28.6
43.6
32.5
3002141064
8
14.8
4.5
430
195
130
4551
1387
58
43.6
32.6
49.7
37.1
3002141065
9
16.4
5.0
470
213
144
5041
1537
58
48.3
36.1
55.0
41.1
3002140576
10
18.0
5.5
518
235
161
5636
1718
58
54.1
40.3
61.5
45.9
3002141066
11
19.7
6.0
562
255
175
6126
1867
58
58.8
43.8
66.9
49.9
3002141067
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.68901
0.21
10.8
4.9
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72182
0.22
11.6865
5.3
2013070059
0.31
0.09
0.9
0.4
2024010016
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
SPLINE COUPLING 0.79"STR-0.79"STR (for FLT. SCMP pumps)
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 198
Conventional Pumps Summary
> Conventional pumps > NH > NHV940
NHV940 Pump Performance Curve NHV940 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV940, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
717-1208 bpd
114-192 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
322 hp
240 kW
High Strength (S14)
346 hp
258 kW
Ultra High Strength (S16)
402 hp
300 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 199
Conventional Pumps Summary
> Conventional pumps > NH > NHV940
NHV940 Pump Performance Curve NHV940 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV940, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
597-1006 bpd
95-160 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
268 hp
200 kW
High Strength (S14)
288 hp
215 kW
Ultra High Strength (S16)
335 hp
250 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 200
Conventional Pumps Summary
> Conventional pumps > NH > NHV940
NHV940 Multi Hz Curve (Tornado) Multi Hz Curve NHV940
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 201
Conventional Pumps Summary
> Conventional pumps > NH > NHV940
NHV940 Pump Design Data @ 60 Hz 406 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
298
135
6
11.5
3.5
344
STG
Head ft
m
90
3231
985
156
106
3806
1160
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
61
37.3
27.8
41.5
30.9
S14 shaft** 3002151325
61
43.9
32.8
48.8
36.5
3002151326
7
13.1
4.0
386
175
122
4380
1335
61
50.6
37.7
56.2
42.0
3002151327
8
14.8
4.5
430
195
137
4919
1499
61
56.8
42.4
63.1
47.1
3002151328
9
16.4
5.0
470
213
153
5494
1674
61
63.4
47.3
70.5
52.6
3002151329
10
18.0
5.5
518
235
169
6068
1850
61
70.0
52.3
77.9
58.1
3002151330
11
19.7
6.0
562
255
185
6643
2025
61
76.7
57.2
85.2
63.6
3002151331
Semi-compression: AR2 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
298
135
STG 79
Head ft
m
2837
865
Eff., % 61
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
32.7
24.4
36.4
27.2
3002150809 3002150830
6
11.5
3.5
344
156
91
3267
996
61
37.7
28.1
41.9
31.3
7
13.1
4.0
386
175
106
3806
1160
61
43.9
32.8
48.8
36.5
3002150810
8
14.8
4.5
430
195
119
4273
1302
61
49.3
36.8
54.8
40.9
3002150808
9
16.4
5.0
470
213
134
4811
1466
61
55.5
41.4
61.7
46.1
3002150811
10
18.0
5.5
518
235
149
5350
1631
61
61.8
46.1
68.7
51.2
3002150839
11
19.7
6.0
562
255
161
5781
1762
61
66.7
49.8
74.2
55.4
3002150812
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.69
0.21
10.8
4.9
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72
0.22
11.7
5.3
2013070059
SPLINE COUPLING 0.79"-0.79" PRT (for FLT. SCMP pumps)
0.31
0.09
0.9
0.4
2024010119
SPLINE COUPLING 0.79"-0.79" CMP (for CMP pumps)
0.31
0.09
0.9
0.4
2024010333 2138030003
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
999.355.0050_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030146
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 202
Conventional Pumps Summary
> Conventional pumps > NH > NHV1200
NHV1200 Pump Performance Curve NHV1200 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV1200, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
981-1547 bpd
156-246 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
322 hp
240 kW
High Strength (S14)
346 hp
258 kW
Ultra High Strength (S16)
402 hp
300 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 203
Conventional Pumps Summary
> Conventional pumps > NH > NHV1200
NHV1200 Pump Performance Curve NHV1200 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV1200, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
818-1289 bpd
130-205 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
268 hp
200 kW
High Strength (S14)
288 hp
215 kW
Ultra High Strength (S16)
335 hp
250 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 204
Conventional Pumps Summary
> Conventional pumps > NH > NHV1200
NHV1200 Multi Hz Curve (Tornado) Multi Hz Curve NHV1200
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 205
Conventional Pumps Summary
> Conventional pumps > NH > NHV1200
NHV1200 Pump Design Data @ 60 Hz 406 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
298
135
6
11.5
3.5
344
156
STG
Head ft
m
98
3380
1030
115
3966
1209
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
56
53.1
39.6
59.5
44.4
S14 shaft** 3002161577
56
62.3
46.5
69.8
52.1
3002161599
7
13.1
4.0
386
175
132
4552
1388
56
71.5
53.4
80.1
59.8
3002161578
8
14.8
4.5
430
195
149
5139
1566
56
80.7
60.2
90.4
67.5
3002161576
9
16.4
5.0
470
213
166
5725
1745
56
89.9
67.1
100.7
75.2
3002161579
10
18.0
5.5
518
235
183
6311
1924
56
99.2
74.0
111.0
82.9
3002161609
11
19.7
6.0
562
255
201
6932
2113
56
108.9
81.3
121.9
91.0
3002161580
Semi-compression: AR2 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
298
135
STG 82
Head ft
m
2828
862
Eff., % 56
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
44.4
33.2
49.7
37.1
3002160977
6
11.5
3.5
344
156
98
3380
1030
56
53.1
39.6
59.5
44.4
3002160540
7
13.1
4.0
386
175
112
3863
1177
56
60.7
45.3
67.9
50.7
3002160978
8
14.8
4.5
430
195
128
4414
1346
56
69.4
51.8
77.7
58.0
3002160874
9
16.4
5.0
470
213
141
4863
1482
56
76.4
57.0
85.5
63.8
3002160979
10
18.0
5.5
518
235
158
5449
1661
56
85.6
63.9
95.9
71.5
3002161005
11
19.7
6.0
562
255
171
5897
1798
56
92.7
69.1
103.7
77.4
3002160875
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.69
0.21
10.8
4.9
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72
0.22
11.7
5.3
2013070059
SPLINE COUPLING 0.79"-0.79" PRT (for FLT. SCMP pumps)
0.31
0.09
0.9
0.4
2024010119
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 206
Conventional Pumps Summary
> Conventional pumps > NH > NH1900M1
NH1900M1 Pump Performance Curve Curve is calculated for one stage on water of 1.00 sg
NH1900M1 60 Hz / 3490 rpm
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NH1900M1, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
1434-2264 bpd
228-360 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
434 hp
324 kW
High Strength (S14)
466 hp
348 kW
Ultra High Strength (S16)
531 hp
396 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 207
Conventional Pumps Summary
> Conventional pumps > NH > NH1900M1
NH1900M1 Pump Performance Curve NH1900M1 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
Recommended operating range
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NH1900M1, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
1195-1887 bpd
190-300 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
362 hp
270 kW
High Strength (S14)
389 hp
290 kW
Ultra High Strength (S16)
442 hp
330 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 208
Conventional Pumps Summary
> Conventional pumps > NH > NH1900M1
NH1900M1 Multi Hz Curve (Tornado) Multi Hz Curve NH1900M1
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 209
Conventional Pumps Summary
> Conventional pumps > NH > NH1900M1
NH1900M1 Pump Design Data @ 60 Hz 406 series | Cast Metallurgy Stage Floater: AR1 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
298
135
6
11.5
3.5
344
156
STG
Head ft
m
51
1202
366
60
1414
431
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
60
27.7
20.7
27.9
20.8
S14 shaft** TBA
60
32.6
24.3
32.8
24.5
TBA
7
13.1
4.0
386
175
69
1627
496
60
37.5
27.9
37.8
28.2
TBA
8
14.8
4.5
430
195
78
1839
560
60
42.3
31.6
42.7
31.8
TBA
9
16.4
5.0
470
213
87
2051
625
60
47.2
35.2
47.6
35.5
TBA
10
18.0
5.5
518
235
96
2263
690
60
52.1
38.9
52.5
39.2
TBA
11
19.7
6.0
562
255
105
2475
754
60
57.0
42.5
57.5
42.9
TBA
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.69
0.21
10.80
4.9
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72
0.22
11.69
5.3
2013070059
SPLINE COUPLING 0.87"STR-0.87"STR PRT (for FLT. SCMP pumps)
0.31
0.09
0.9
0.4
2024010010
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage
2018 Page 210
Conventional Pumps Summary
> Conventional pumps > NH > NH3000
NH3000 Pump Performance Curve NH3000 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
Head
m
11.00
ft
Qmin
36
Head
9.16
30
7.33
24
75
5.50
18
50
3.67
12
Eff,
Qnom
Qmax
Recommended operating range
%
Power
Eff 25
0
1.83
0.00
6
0
Power
0
1000
0
150
2000 300
3000 450
4000 600
5000 750
hp
kW
1.44
1.07
0.72
0.54
0.00 0.00 bpd m3 /day
Capacity This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NH3000, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
2415-3622 bpd
384-576 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
434 hp
324 kW
High Strength (S14)
466 hp
348 kW
Ultra High Strength (S16)
531 hp
396 kW
6000 psi
414 bar
Housing Burst Pressure Limit
2018 Page 211
Conventional Pumps Summary
> Conventional pumps > NH > NH3000
NH3000 Pump Performance Curve Curve is calculated for one stage on water of 1.00 sg
NH3000 50 Hz / 2910 rpm
406 series / OD 103 mm
Head
ft 26
m 8
Qmin
Qnom
Q max
Recommended operating range
Head
Eff, % 75
20
6
50
13
4
25
6.6
2
Eff
Power kW hp 0.50
0.67
0.25
0.34
Power
0
0
0
0
250
0
500
1500
Capacity
750
3000
4500
0.00 0.00 m3 /day bpd
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NH3000, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
2012-3019 bpd
320-480 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
362 hp
270 kW
High Strength (S14)
389 hp
290 kW
Ultra High Strength (S16)
442 hp
330 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 212
Conventional Pumps Summary
> Conventional pumps > NH > NH3000
NH3000 Multi Hz Curve (Tornado) Multi Hz Curve NH3000
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 213
Conventional Pumps Summary
> Conventional pumps > NH > NH3000
NH3000 Pump Design Data @ 60 Hz 406 series | Cast Metallurgy Stage Floater: AR1 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
298
135
6
11.5
3.5
344
156
STG
Head ft
m
51
1270
387
60
1494
455
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
60
47.2
35.2
48.7
36.4
S14 shaft** 3002200911
60
55.6
41.5
57.3
42.8
3002200912
7
13.1
4.0
386
175
69
1718
524
60
63.9
47.7
65.9
49.2
3002200913
8
14.8
4.5
430
195
78
1942
592
60
72.2
53.9
74.5
55.6
3002200914 3002200347
9
16.4
5.0
470
213
87
2166
660
60
80.6
60.1
83.1
62.0
10
18.0
5.5
518
235
96
2390
729
60
88.9
66.4
91.7
68.4
3002200915
11
19.7
6.0
562
255
105
2614
797
60
97.2
72.6
100.3
74.9
3002200338
Semi-compression: AR2 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
298
135
STG
Head ft
m
51
1270
387
Eff., % 60
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
47.2
35.2
48.7
36.4
3002200800 3002200822
6
11.5
3.5
344
156
60
1494
455
60
55.6
41.5
57.3
42.8
7
13.1
4.0
386
175
69
1718
524
60
63.9
47.7
65.9
49.2
3002200801
8
14.8
4.5
430
195
78
1942
592
60
72.2
53.9
74.5
55.6
3002200799
9
16.4
5.0
470
213
87
2166
660
60
80.6
60.1
83.1
62.0
3002200802
10
18.0
5.5
518
235
96
2390
729
60
88.9
66.4
91.7
68.4
3002200832
11
19.7
6.0
562
255
105
2614
797
60
97.2
72.6
100.3
74.9
3002200803
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.69
0.21
10.8
4.9
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72
0.22
11.7
5.3
2013070059
SPLINE COUPLING 0.87"STR-0.87"STR PRT (for FLT. SCMP pumps)
0.31
0.09
0.9
0.4
2024010010
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed Flow stage
2018 Page 214
Conventional Pumps Summary
> Conventional pumps > NH > NHV3800
NHV3800 Pump Performance Curve NHV3800 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
Head m
ft
12.2
35
Qmin
Qmax
Qnom
Recommended operating range
Head 10.4
30
8.7
25
7.0
20
5.2
15
Eff, % 75
50
Power
3.5
10
1.7
5
0.0
0
Eff
25
hp
kW
1.50
1.12
0.75
0.56
Power
0
0 0
1000 100
2000 200
3000
300
400
500
4000 600
5000 700
800
6000
0.00 0.00 bpd
900
m3 /day
Capacity This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV3800, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
2641-4528 bpd
420-720 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
434 hp
324 kW
High Strength (S14)
466 hp
348 kW
Ultra High Strength (S16)
531 hp
396 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 215
Conventional Pumps Summary
> Conventional pumps > NH > NHV3800
NHV3800 Pump Performance Curve NHV3800 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
Head
ft 26.2
m 8
Qmin
Qnom
Qmax
Recommended operating range
Head Eff, % 75
19.7
6
50
13.1
4
25
6.56
2
Power
Eff
kW
hp
0.60
0.80
0.30
0.40
Power
0
0
0
0 0
Capacity
200
400
1000
2000
600 3000
800 4000
5000
0.00 0.00 bpd m3/day
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHv3800, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
2201-3773 bpd
350-600 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
362 hp
270 kW
High Strength (S14)
389 hp
290 kW
Ultra High Strength (S16)
442 hp
330 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 216
Conventional Pumps Summary
> Conventional pumps > NH > NHV3800
NHV3800 Multi Hz Curve (Tornado) Multi Hz Curve NHV3800
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 217
Conventional Pumps Summary
> Conventional pumps > NH > NHV3800
NHV3800 Pump Design Data @ 60 Hz 406 series | Cast Metallurgy Stage Floater: AR1 CR1* HSG # 5
Length***
Weight
STG
ft
m
lb
kg
9.8
3.0
298
135
42
Head ft
m
978
298
Eff., % 60
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
47.3
35.3
48.7
36.4
3002210850
6
11.5
3.5
344
156
50
1165
355
60
56.4
42.1
58.0
43.3
3002210851
7
13.1
4.0
386
175
57
1328
405
60
64.3
47.9
66.2
49.4
3002210852
8
14.8
4.5
430
195
65
1514
461
60
73.3
54.7
75.4
56.3
3002210345
9
16.4
5.0
470
213
72
1677
511
60
81.2
60.6
83.6
62.4
3002210306
10
18.0
5.5
518
235
80
1863
568
60
90.2
67.3
92.8
69.3
3002210853
11
19.7
6.0
562
255
88
2050
625
60
99.2
74.0
102.1
76.2
3002210307
Semi-compression: AR2 CR1* HSG # 5
Length***
Weight
STG
ft
m
lb
kg
9.8
3.0
298
135
42
Head ft
m
978
298
Eff., % 60
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
47.3
35.3
48.7
36.4
3002210854
6
11.5
3.5
344
156
50
1165
355
60
56.4
42.1
58.0
43.3
3002210859
7
13.1
4.0
386
175
57
1328
405
60
64.3
47.9
66.2
49.4
3002210855 3002210856
8
14.8
4.5
430
195
65
1514
461
60
73.3
54.7
75.4
56.3
9
16.4
5.0
470
213
72
1677
511
60
81.2
60.6
83.6
62.4
3002210857
10
18.0
5.5
518
235
80
1863
568
60
90.2
67.3
92.8
69.3
3002210860
11
19.7
6.0
562
255
88
2050
625
60
99.2
74.0
102.1
76.2
3002210858
Compression: AR2 CR1* HSG #
Length***
Weight
ft
m
lb
kg
3
6.6
2.0
298
135
4
8.2
2.5
386
STG
Head ft
m
27
629
192
175
34
792
241
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
57
30.4
22.7
31.3
23.4
S14 shaft** 3002212074
57
38.3
28.6
39.5
29.4
3002212073 3002212072
5
9.8
3.0
430
195
42
978
298
57
47.3
35.3
48.7
36.4
7
13.1
4.0
470
213
57
1328
405
57
64.3
47.9
66.2
49.4
3002212071
8
14.8
4.5
562
255
64
1491
454
57
72.1
53.8
74.3
55.4
3002212070
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
2018 Page 218
Conventional Pumps Summary
> Conventional pumps > NH > NHV3800
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.69
0.21
10.80
4.9
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72
0.22
11.69
5.3
2013070059
SPLINE COUPLING 0.87"-0.87" PRT (for FLT. SCMP pumps)
0.31
0.09
0.9
0.4
2024010186
SPLINE COUPLING 0.87"-0.87" CMP (for CMP pumps)
0.31
0.09
0.9
0.4
2024010340 2138030003
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
999.355.0050_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030146
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed Flow stage with Vortex crown
2018 Page 219
Conventional Pumps Summary
> Conventional pumps > NH > NHV5300
NHV5300 Pump Performance Curve NHV5300 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV5300, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
4151-6341 bpd
660-1008 m3/day
Shaft Diameter
0.98 in
25 mm
Shaft Cross Sectional Area
0.75 in2
491 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
635 hp
474 kW
High Strength (S14)
683 hp
510 kW
Ultra High Strength (S16)
788 hp
588 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 220
Conventional Pumps Summary
> Conventional pumps > NH > NHV5300
NHV5300 Pump Performance Curve Curve is calculated for one stage on water of 1.00 sg
NHV5300 50 Hz / 2910 rpm
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NHV5300, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
3459-5283 bpd
550-840 m3/day
Shaft Diameter
0.98 in
25 mm
Shaft Cross Sectional Area
0.75 in2
491 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
529 hp
395 kW
High Strength (S14)
570 hp
425 kW
Ultra High Strength (S16)
657 hp
490 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 221
Conventional Pumps Summary
> Conventional pumps > NH > NHV5300
NHV5300 Multi Hz Curve (Tornado) Multi Hz Curve NHV5300
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 222
Conventional Pumps Summary
> Conventional pumps > NH > NHV5300
NHV5300 Pump Design Data @ 60 Hz 406 series | Cast Metallurgy Stage Floater: AR1 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
298
135
STG 34
Head ft
m
691
211
Eff., % 62
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
43.4
32.4
43.5
32.5
3002221582
6
11.5
3.5
344
156
40
813
248
62
51.0
38.1
51.2
38.2
3002221604
7
13.1
4.0
386
175
46
934
285
62
58.7
43.8
58.9
44.0
3002221583
8
14.8
4.5
430
195
52
1056
322
62
66.3
49.5
66.6
49.7
3002221581
9
16.4
5.0
470
213
58
1178
359
62
74.0
55.2
74.3
55.4
3002221584
10
18.0
5.5
518
235
64
1300
396
62
81.7
60.9
82.0
61.2
3002221614
11
19.7
6.0
562
255
70
1422
433
62
89.3
66.6
89.6
66.9
3002221585
Semi-compression: AR2 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
298
135
6
11.5
3.5
344
156
STG
Head ft
m
34
691
211
40
813
248
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
62
43.4
32.4
43.5
32.5
S14 shaft** 3002221515
62
51.0
38.1
51.2
38.2
3002221537
7
13.1
4.0
386
175
46
934
285
62
58.7
43.8
58.9
44.0
3002221516
8
14.8
4.5
430
195
52
1056
322
62
66.3
49.5
66.6
49.7
3002221514
9
16.4
5.0
470
213
58
1178
359
62
74.0
55.2
74.3
55.4
3002221517
10
18.0
5.5
518
235
64
1300
396
62
81.7
60.9
82.0
61.2
3002221547
11
19.7
6.0
562
255
70
1422
433
62
89.3
66.6
89.6
66.9
3002221518
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.69
0.21
10.8
4.9
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72
0.22
11.7
5.3
2013070059
SPLINE COUPLING 0.98"-0.98" PRT (for FLT. SCMP pumps)
2024010243
0.31
0.09
0.9
0.4
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed Flow stage with Vortex crown
2018 Page 223
Conventional Pumps Summary
> Conventional pumps > NJ > NJV6000
NJV6000 Pump Performance Curve NJV6000 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
449 series / OD 114 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NjV6000, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
5.31 in
135 mm
Housing Diameter
4.49 in
114 mm
Recommended Operating Range
4151-7548 bpd
660-1200 m3/day
Shaft Diameter
0.98 in
25 mm
Shaft Cross Sectional Area
0.75 in2
491 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
635 hp
474 kW
High Strength (S14)
683 hp
510 kW
Ultra High Strength (S16)
788 hp
588 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 224
Conventional Pumps Summary
> Conventional pumps > NJ > NJV6000
NJV6000 Pump Performance Curve NJV6000 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
449 series / OD 114 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NjV6000, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
5.31 in
135 mm
Housing Diameter
4.49 in
114 mm
Recommended Operating Range
3460-6290 bpd
550-1000 m3/day
Shaft Diameter
0.98 in
25 mm
Shaft Cross Sectional Area
0.75 in2
491 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
529 hp
395 kW
High Strength (S14)
570 hp
425 kW
Ultra High Strength (S16)
657 hp
490 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 225
Conventional Pumps Summary
> Conventional pumps > NJ > NJV6000
NJV6000 Multi Hz Curve (Tornado) Multi Hz Curve NJV6000
Curve is calculated for one stage on water of 1.00 sg
449 series / OD 114 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 226
Conventional Pumps Summary
> Conventional pumps > NJ > NJV6000
NJV6000 Pump Design Data @ 60 Hz 449 series | Cast Metallurgy Stage Floater: AR1 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
419
190
STG
Head ft
m
38
1059
323
Eff., % 62
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
75.0
55.9
76.1
56.8
3002490031
6
11.5
3.5
478
217
44
1226
374
62
86.8
64.8
88.1
65.8
3002490032
7
13.1
4.0
540
245
51
1422
433
62
100.6
75.1
102.1
76.2
3002490033
9
16.4
5.0
662
300
65
1812
552
62
128.2
95.7
130.2
97.2
3002490034
10
18.0
5.5
721
327
71
1979
603
62
140.1
104.5
142.2
106.1
3002490035
11
19.7
6.0
783
355
78
2174
663
62
153.9
114.8
156.2
116.6
3002490036
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length
Weight
Part Number
ft
m
lb
kg
BOH 3-1/2"-8RD EUE-449SERIES CR0
0.62
0.19
7.7
3.5
2013070038
BOH 4-1/2"-8RD EUE-449SERIES CR0
0.62
0.19
7.7
3.5
2013070039
SPLINE COUPLING 0.98"-0.98" PRT (for FLT. SCMP pumps)
0.31
0.09
1.3
0.6
2024010101
999.360.0030_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030080
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed Flow stage with Vortex crown
2018 Page 227
Conventional Pumps Summary
> Conventional pumps > NJ > NJV7600
NJV7600 Pump Performance Curve NJV7600 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
449 series / OD 114 mm
Head
m
ft
11
35
Qmin
Qnom
Qmax
Recommended operating range
Head
9
30
8
25
6
20
5
15
Eff, % 75
Power 50
3
10
hp 2.50
kW 1.86
1.25
0.93
Power 25
2
5
0
0
0
Eff
0
2000
0
300
4000
6000
600
900
8000 1200
10000 1500
0.00 0.00 14000 bpd
12000 1800
2100
m3/day
Capacity This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NJV7600, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
5.31 in
135 mm
Housing Diameter
4.49 in
114 mm
Recommended Operating Range
5283-9811 bpd
840-1560 m3/day
Shaft Diameter
0.98 in
25 mm
Shaft Cross Sectional Area
0.75 in2
491 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
635 hp
474 kW
High Strength (S14)
683 hp
510 kW
Ultra High Strength (S16)
788 hp
588 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 228
Conventional Pumps Summary
> Conventional pumps > NJ > NJV7600
NJV7600 Pump Performance Curve NJV7600 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
449 series / OD 114 mm
Head
ft 23
m 7
Q min
Head 19.7
6
16.4
5
13.1
4
9.84
3
6.56
2
Qnom
Qmax
Recommended operating range
Eff, % 75
50
Power kW
Eff 25 3.28
0
0
1
0
Power
0
250
0
1500
Capacity
500
750
3000
4500
1000 6000
1250 7500
1500 9000
1750 10500
hp
1.20
1.60
0.60
0.80
0.00 0.00 bpd m3 /day
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NjV7600, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
5.31 in
135 mm
Housing Diameter
4.49 in
114 mm
Recommended Operating Range
4402-8176 bpd
700-1300 m3/day
Shaft Diameter
0.98 in
25 mm
Shaft Cross Sectional Area
0.75 in2
491 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
529 hp
395 kW
High Strength (S14)
570 hp
425 kW
Ultra High Strength (S16)
657 hp
490 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 229
Conventional Pumps Summary
> Conventional pumps > NJ > NJV7600
NJV7600 Multi Hz Curve (Tornado) Multi Hz Curve NJV7600
Curve is calculated for one stage on water of 1.00 sg
449 series / OD 114 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 230
Conventional Pumps Summary
> Conventional pumps > NJ > NJV7600
NJV7600 Pump Design Data @ 60 Hz 449 series | Cast Metallurgy Stage Floater: AR1 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
309
140
STG 29
Head ft
m
818
249
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
65
70.3
52.5
70.4
52.5
3002230232
6
11.5
3.5
386
175
34
959
292
65
82.5
61.5
82.5
61.6
3002230252
7
13.1
4.0
474
215
40
1128
344
65
97.0
72.4
97.1
72.5
3002230233
9
16.4
5.0
529
240
50
1410
430
65
121.3
90.5
121.4
90.6
3002230234
10
18.0
5.5
595
270
55
1551
473
65
133.4
99.5
133.5
99.6
3002230262
11
19.7
6.0
662
300
61
1720
524
65
147.9
110.4
148.1
110.5
3002230235
Semi-compression: AR2 CR1* HSG #
Length***
Weight
ft
m
lb
kg
5
9.8
3.0
309
140
7
13.1
4.0
474
9
16.4
5.0
11
19.7
6.0
STG
Head ft
m
29
819
250
215
40
1130
529
240
50
662
300
61
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
65
70.3
52.5
70.4
52.5
3002230112
344
65
97.0
72.4
97.1
72.5
3002230113
1413
431
65
121.3
90.5
121.4
90.6
3002230084
1723
525
65
147.9
110.4
148.1
110.5
3002230085
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length
Weight
Part Number
ft
m
lb
kg
BOH 3-1/2"-8RD EUE-449SERIES CR0
0.62
0.19
7.7
3.5
2013070038
BOH 4-1/2"-8RD EUE-449SERIES CR0
0.62
0.19
7.7
3.5
2013070039
SPLINE COUPLING 0.98"-0.98" PRT (for FLT, SCMP pumps)
0.31
0.09
1.3
0.6
2024010101
999.360.0030_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030080
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed Flow stage with Vortex crown
2018 Page 231
Conventional Pumps Summary
> Conventional pumps > NJ > NJV9400
NJ9400 Pump Performance Curve NJ9400 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
449 series / OD 114 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA Nj9400, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
5.31 in
135 mm
Housing Diameter
4.49 in
114 mm
Recommended Operating Range
7547-11320 bpd
1200-1800 m3/day
Shaft Diameter
1.18 in
30 mm
Shaft Cross Sectional Area
1.09 in2
706.5 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
1110 hp
828 kW
High Strength (S14)
1198 hp
894 kW
Ultra High Strength (S16)
1375 hp
1026 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 232
Conventional Pumps Summary
> Conventional pumps > NJ > NJV9400
NJ9400 Pump Performance Curve NJ9400 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
449 series / OD 114 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA Nj9400, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
5.31 in
135 mm
Housing Diameter
4.49 in
114 mm
Recommended Operating Range
6289-9434 bpd
1000-1500 m3/day
Shaft Diameter
1.18 in
30 mm
Shaft Cross Sectional Area
1.09 in2
707 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
925 hp
690 kW
High Strength (S14)
998 hp
745 kW
Ultra High Strength (S16)
1146 hp
855 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 233
Conventional Pumps Summary
> Conventional pumps > NJ > NJV9400
NJ9400 Multi Hz Curve (Tornado) Multi Hz Curve NJ9400
Curve is calculated for one stage on water of 1.00 sg
449 series / OD 114 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 234
Conventional Pumps Summary
> Conventional pumps > NJ > NJV9400
NJ9400 Pump Design Data @ 60 Hz 449 series | Cast Metallurgy Stage Floater: AR1 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
309
140
STG 29
Head ft
m
671
205
Eff., % 64
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
73.1
54.5
73.2
54.6
3002240371 3002240355
6
11.5
3.5
386
175
34
787
240
64
85.7
63.9
85.8
64.0
7
13.1
4.0
474
215
39
903
275
64
98.3
73.3
98.4
73.5
3002240370
9
16.4
5.0
529
240
50
1157
353
64
126.0
94.0
126.2
94.2
3002240340
10
18.0
5.5
606
275
55
1273
388
64
138.6
103.4
138.8
103.6
3002240363
11
19.7
6.0
684
310
60
1389
423
64
151.2
112.8
151.4
113.0
3002240341
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length
Weight
Part Number
ft
m
lb
kg
BOH 3-1/2"-8RD EUE-449SERIES CR0
0.62
0.19
7.7
3.5
2013070038
BOH 4-1/2"-8RD EUE-449SERIES CR0
0.62
0.19
7.7
3.5
2013070039
SPLINE COUPLING 1.18"-1.18" PRT (for FLT, SCMP pumps)
0.31
0.09
1.3
0.6
2024010417
999.360.0030_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030080
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed Flow stage
2018 Page 235
Conventional Pumps Summary
> Conventional pumps > NL > NLV1000
NLV1000 Pump Performance Curve Curve is calculated for one stage on water of 1.00 sg
NLV1000 60 Hz / 3490 rpm
484 series / OD 123 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NlV1000, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
5.71 in
145 mm
Housing Diameter
4.84 in
123 mm
Recommended Operating Range
755-1365 bpd
120-217 m3/day
Shaft Diameter
0.98 in
25 mm
Shaft Cross Sectional Area
0.75 in2
491 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
635 hp
474 kW
High Strength (S14)
683 hp
510 kW
Ultra High Strength (S16)
788 hp
588 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 236
Conventional Pumps Summary
> Conventional pumps > NL > NLV1000
NLV1000 Pump Performance Curve NLV1000 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
484 series / OD 123 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NlV1000, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
5.71 in
145 mm
Housing Diameter
4.84 in
123 mm
Recommended Operating Range
629-1132 bpd
100-180 m3/day
Shaft Diameter
0.98 in
25 mm
Shaft Cross Sectional Area
0.75 in2
491 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
529 hp
395 kW
High Strength (S14)
570 hp
425 kW
Ultra High Strength (S16)
657 hp
490 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 237
Conventional Pumps Summary
> Conventional pumps > NL > NLV1000
NLV1000 Multi Hz Curve (Tornado) Multi Hz Curve NLV1000
Curve is calculated for one stage on water of 1.00 sg
484 series / OD 123 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 238
Conventional Pumps Summary
> Conventional pumps > NL > NLV1000
NLV1000 Pump Design Data @ 60 Hz 484 series | Powder Metallurgy Stage Semi-compression: AR2 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
320
145
STG 91
Head ft
m
4389
1338
Eff.. %
BHP. nominal
BHP. max
Part Number
hp
kW
hp
kW
S14 shaft**
53
60.5
45.1
68.1
50.8
3002250146 3002250168
6
11.5
3.5
386
175
109
5257
1602
53
72.4
54.1
81.5
60.8
7
13.1
4.0
496
225
123
5932
1808
53
81.7
61.0
92.0
68.7
3002250147
8
14.8
4.5
551
250
141
6800
2073
53
93.7
69.9
105.5
78.7
3002250145 3002250148
9
16.4
5.0
650
295
155
7475
2279
53
103.0
76.9
115.9
86.5
10
18.0
5.5
772
350
173
8344
2543
53
115.0
85.8
129.4
96.6
3002250178
11
19.7
6.0
882
400
190
9163
2793
53
126.3
94.2
142.1
106.0
3002250149
*CR2. CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only. for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 3-1/2"-8RD EUE-484SERIES CR0
0.65
0.2
18.7
8.5
SPLINE COUPLING 0.98"-0.98" PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2013070135 TBA
Installation parts kit for 484 series Pump - FLT. SCMP. CR0
-
-
-
-
TBA
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 239
Conventional Pumps Summary
> Conventional pumps > NL > NLV1900
NLV1900 Pump Performance Curve NLV1900 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
484 series / OD 123 mm
Head
m
ft
18.3
60
Qmin
Head
15.3
50
12.2
40
75
9.1
30
50
6.1
20
Eff,
25
0
Qnom
Q max
Recommended operating range
%
3.0
0.0
Power
Eff
hp
kW
2.00
1.50
Power
1.00
0.75
10
0
0 0
700 100
1400 200
2100 300
2800 400
3500 500
0.00 0.00 bpd m3 /day
Capacity This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NlV1900, 60 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
5.71 in
145 mm
Housing Diameter
4.84 in
123 mm
Recommended Operating Range
1359-2340 bpd
216-372 m3/day
Shaft Diameter
0.98 in
25 mm
Shaft Cross Sectional Area
0.75 in2
491 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
635 hp
474 kW
High Strength (S14)
683 hp
510 kW
Ultra High Strength (S16)
788 hp
588 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 240
Conventional Pumps Summary
> Conventional pumps > NL > NLV1900
NLV1900 Pump Performance Curve NLV1900 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
484 series / OD 123 mm
Head
ft 49.2
m 15
Qmin
Qnom
Qmax
Recommended operating range
Head
32.8
10
16.4
5
Eff, % 75
50
Power kW
Eff
25
Power
0
0
0
0 0
Capacity
100 500
200 1000
300 1500
400 2000
500
2500
3000
hp
0.80
1.07
0.40
0.54
0.00 0.00 m3/day bpd
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NlV1900, 50 Hz Maximal ESP System OD (incl. MLE AWG#5, 4kV)
5.71 in
145 mm
Housing Diameter
4.84 in
123 mm
Recommended Operating Range
1132-1950 bpd
180-310 m3/day
Shaft Diameter
0.98 in
25 mm
Shaft Cross Sectional Area
0.75 in2
491 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
529 hp
395 kW
High Strength (S14)
570 hp
425 kW
Ultra High Strength (S16)
657 hp
490 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 241
Conventional Pumps Summary
> Conventional pumps > NL > NLV1900
NLV1900 Multi Hz Curve (Tornado) Multi Hz Curve NLV1900
Curve is calculated for one stage on water of 1.00 sg
484 series / OD 123 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 242
Conventional Pumps Summary
> Conventional pumps > NL > NLV1900
NLV1900 Pump Design Data @ 60 Hz 484 series | Powder Metallurgy Stage Semi-compression: AR2 CR1* HSG # 5
Length***
Weight
ft
m
lb
kg
9.8
3.0
320
145
Head
STG 79
ft
m
3743
1141
Eff., % 61
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
85.7
64.0
90.0
67.2
3002260310 3002260332
6
11.5
3.5
419
190
91
4312
1314
61
98.7
73.7
103.6
77.4
7
13.1
4.0
496
225
107
5070
1545
61
116.1
86.6
121.9
91.0
3002260311
8
14.8
4.5
551
250
119
5639
1719
61
129.1
96.4
135.5
101.2
3002260309
9
16.4
5.0
650
295
134
6350
1935
61
145.4
108.5
152.6
113.9
3002260312
10
18.0
5.5
761
345
149
7060
2152
61
161.7
120.7
169.7
126.7
3002260342
11
19.7
6.0
882
400
162
7677
2340
61
175.8
131.2
184.5
137.7
3002260313
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 3-1/2"-8RD EUE-484SERIES CR0
0.66
0.2
18.7
8.5
SPLINE COUPLING 0.98"-0.98" PRT (for FLT, SCMP pumps)
0.31
0.09
0.5
0.2
2013070135 TBA
Installation kit for 484 series Pump - FLT, SCMP. CR0
-
-
-
-
TBA
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage with Vortex crown
2018 Page 243
Conventional Pumps Summary
> Conventional pumps > NR > NRV3800
NRV3800 Pump Performance Curve NRV3800 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
Head
m
ft
36.6
120
Qmin
Q nom
Qmax
Recommended operating range
Head
Eff, 75
% 24.4
80
12.2
40
50
Power
hp
Eff 25
kW
5.00
3.73
2.50
1.87
Power
0
0.0
0
0
2500
5000
0
400
800
7500
0.00 0.00 bpd m3/day
Capacity This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NRV3800, 60 Hz Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.03 in
204 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
3019-4905 bpd
480-780 m3/day
Shaft Diameter
1.18 in
30 mm
Shaft Cross Sectional Area
1.09 in2
707 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
675 hp
504 kW
Medium Strength (S11)
933 hp
696 kW
Standard (S13)
1110 hp
828 kW
4831 psi
333 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only
2018 Page 244
Conventional Pumps Summary
> Conventional pumps > NR > NRV3800
NRV3800 Pump Performance Curve NRV3800 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
Head
m 23
ft 75
15
50
7.6
25
Head
Q min
Qnom
Qmax
Recommended operating range
Eff, % 75
50
Eff
Power hp
kW
3.00
2.24
1.50
1.12
25
Power
0
0
0
0 0
Capacity
250
500
1500
0.00 0.00 1000 m3 /day
750
3000
4500
6000
bpd
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NRV3800, 50 Hz Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.03 in
204 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
2516-4088 bpd
400-650 m3/day
Shaft Diameter
1.18 in
30 mm
Shaft Cross Sectional Area
1.09 in2
707 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
563 hp
420 kW
Medium Strength (S11)
777 hp
580 kW
Standard (S13)
925 hp
690 kW
4831 psi
333 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only
2018 Page 245
Conventional Pumps Summary
> Conventional pumps > NR > NRV3800
NRV3800 Multi Hz Curve (Tornado) Multi Hz Curve NRV3800
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 246
Conventional Pumps Summary
> Conventional pumps > NR > NRV3800
NRV3800 Pump Design Data @ 60 Hz 677 series | Cast Metallurgy Stage Semi-compression: AR2 CR1* HSG # 2
Length**
Weight
ft
m
lb
kg
4.9
1.5
198
90
STG
Head ft
m
22
2056
627
Eff., % 63
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S8 shaft
91.8
68.5
93.9
70.1
3002420005 3002420006
3
6.6
2.0
265
120
30
2803
854
63
125.1
93.4
128.1
95.6
4
8.2
2.5
342
155
40
3738
1139
63
166.9
124.5
170.8
127.5
3002420007
5
9.8
3.0
386
175
48
4486
1367
63
200.2
149.4
205.0
153.0
3002420008
6
11.5
3.5
452
205
59
5513
1681
63
246.1
183.7
251.9
188.0
3002420009
7
13.1
4.0
562
255
67
6261
1908
63
279.5
208.6
286.1
213.5
3002420010
8
14.8
4.5
772
350
77
7196
2193
63
321.2
239.7
328.8
245.4
3002420011
9
16.4
5.0
1003
455
85
7943
2421
63
354.6
264.6
363.0
270.9
3002420012
10
18.0
5.5
1235
560
96
8971
2734
63
400.5
298.8
409.9
305.9
3002420013
11
19.7
6.0
1433
650
104
9719
2962
63
433.8
323.8
444.1
331.4
3002420014
*CR2, CR3 and UCR configurations are available. **S11 and S13 shafts are available.Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.3ft (0.405m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 4-1/2"-8RD EUE-677SERIES CR0
0.90
0.28
42.78
19.4
2013070045
SPLINE COUPLING 1.18"STR-1.18"STR PRT (for FLT, SCMP pumps)
0.31
0.09
0.5
0.2
2024010092
999.380.0020_INSTALLATION PARTS KIT (for FLT, SCMP pumps). CR0
-
-
-
-
2138030005
PUMP/MOTOR CLAMP 677SERIES 7TON
-
-
48.1
21.8
3020020001
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed Flow stage with Vortex crown
2018 Page 247
Conventional Pumps Summary
> Conventional pumps > NR > NRV7600
NRV7600 Pump Performance Curve NRV7600 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NRV7600, 60 Hz Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.03 in
204 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
5283-9811 bpd
840-1560 m3/day
Shaft Diameter
1.50 in
38 mm
Shaft Cross Sectional Area
1.77 in2
1134 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1389 hp
1037 kW
Medium Strength (S11)
1910 hp
1426 kW
Standard (S13)
2258 hp
1685 kW
4831 psi
333 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only
2018 Page 248
Conventional Pumps Summary
> Conventional pumps > NR > NRV7600
NRV7600 Pump Performance Curve NRV7600 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NRV7600, 50 Hz Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.03 in
204 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
4402-8176 bpd
700-1300 m3/day
Shaft Diameter
1.50 in
38 mm
Shaft Cross Sectional Area
1.77 in2
1134 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1158 hp
864 kW
Medium Strength (S11)
1592 hp
1188 kW
Standard (S13)
1881 hp
1404 kW
4831 psi
333 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only
2018 Page 249
Conventional Pumps Summary
> Conventional pumps > NR > NRV7600
NRV7600 Multi Hz Curve (Tornado) Multi Hz Curve NRV7600
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 250
Conventional Pumps Summary
> Conventional pumps > NR > NRV7600
NRV7600 Pump Design Data @ 60 Hz 677 series | Cast Metallurgy Stage Floater: AR1 CR1* HSG # 2
Length**
Weight
ft
m
lb
kg
4.9
1.5
198
90
STG 15
Head ft
m
1453
443
Eff., % 66
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S8 shaft
123.0
91.8
133.7
99.7
3002280030 3002280005
3
6.6
2.0
265
120
22
2131
649
66
180.4
134.6
196.0
146.3
4
8.2
2.5
342
155
28
2712
827
66
229.6
171.3
249.5
186.2
3002280031
5
9.8
3.0
386
175
35
3390
1033
66
287.0
214.2
311.9
232.7
3002280006 3002280032
6
11.5
3.5
452
205
41
3971
1210
66
336.2
250.9
365.3
272.6
7
13.1
4.0
562
255
48
4649
1417
66
393.6
293.7
427.7
319.2
3002280007
8
14.8
4.5
772
350
54
5230
1594
66
442.8
330.4
481.1
359.1
3002280033
9
16.4
5.0
1003
455
61
5908
1801
66
500.2
373.2
543.5
405.6
3002280008
10
18.0
5.5
1235
560
67
6489
1978
66
549.4
410.0
597.0
445.5
3002280034
11
19.7
6.0
1433
650
74
7167
2184
66
606.7
452.8
659.3
492.1
3002280009
*CR2, CR3 and UCR configurations are available. **S11 and S13 shafts are available.Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.3ft (0.405m).
Pump accessories Description
Length
Weight
Part Number
ft
m
lb
kg
BOH 4-1/2"-8RD EUE-677SERIES CR0
0.90
0.27
42.8
19.4
BOH 4-1/2"-8RD EUE-677SERIES CR0
0.62
0.19
7.7
3.5
TBA
SPLINE COUPLING 1.50"STR-1.50"STR PRT (for FLT, SCMP pumps)
0.31
0.09
0.5
0.2
2024010020
2013070045
999.380.0020_INSTALLATION PARTS KIT (for FLT, SCMP pumps). CR0
-
-
-
-
2138030005
PUMP/MOTOR CLAMP 677SERIES 7TON
-
-
48.1
21.8
3020020001
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed Flow stage with Vortex crown
2018 Page 251
Conventional Pumps Summary
> Conventional pumps > NR > NRV12000
NRV12000 Pump Performance Curve NRV12000 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NRV12000, 60 Hz Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.03 in
204 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
8302-14339 bpd
1320-2280 m3/day
Shaft Diameter
1.50 in
38 mm
Shaft Cross Sectional Area
1.77 in2
1134 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1389 hp
1037 kW
Medium Strength (S11)
1910 hp
1426 kW
Standard (S13)
2258 hp
1685 kW
4831 psi
333 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only
2018 Page 252
Conventional Pumps Summary
> Conventional pumps > NR > NRV12000
NRV12000 Pump Performance Curve NRV12000 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NRV12000, 50 Hz Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.03 in
204 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
6918-11949 bpd
1100-1900 m3/day
Shaft Diameter
1.50 in
38 mm
Shaft Cross Sectional Area
1.77 in2
1134 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1158 hp
864 kW
Medium Strength (S11)
1592 hp
1188 kW
Standard (S13)
1881 hp
1404 kW
4831 psi
333 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only
2018 Page 253
Conventional Pumps Summary
> Conventional pumps > NR > NRV12000
NRV12000 Multi Hz Curve (Tornado) Multi Hz Curve NRV12000
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 254
Conventional Pumps Summary
> Conventional pumps > NR > NRV12000
NRV12000 Pump Design Data @ 60 Hz 677 series | Cast Metallurgy Stage Compression: AR2 CR1* HSG # 2
Length**
Weight
ft
m
lb
kg
4.9
1.5
198
90
STG 13
Head ft
m
983
300
Eff.. % 65
BHP. nominal
BHP. max
Part Number
hp
kW
hp
kW
S8 shaft
135.1
100.8
139.0
103.8
3002290036
2
4.9
1.5
198
90
15
1134
346
65
155.9
116.4
160.4
119.7
3002290037
3
6.6
2.0
265
120
20
1512
461
65
207.9
155.1
213.9
159.6
3002290038
3
6.6
2.0
265
120
22
1663
507
65
228.7
170.7
235.3
175.6
3002290039
4
8.2
2.5
342
155
26
1965
599
65
270.3
201.7
278.1
207.5
3002290040
4
8.2
2.5
342
155
28
2117
645
65
291.0
217.2
299.5
223.5
3002290041
5
9.8
3.0
386
175
33
2494
760
65
343.0
256.0
352.9
263.4
3002290042
5
9.8
3.0
386
175
35
2646
806
65
363.8
271.5
374.3
279.4
3002290043
6
11.5
3.5
452
205
39
2948
899
65
405.4
302.5
417.1
311.3
3002290044
6
11.5
3.5
452
205
42
3175
968
65
436.6
325.8
449.2
335.2
3002290045
7
13.1
4.0
562
255
46
3477
1060
65
478.1
356.8
492.0
367.2
3002290046
7
13.1
4.0
562
255
48
3628
1106
65
498.9
372.3
513.4
383.1
3002290026
*CR2. CR3 and UCR configurations are available. **S11 and S13 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only. for full length please add head and base dimensions: 1.3ft (0.405m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 4-1/2"-8RD EUE-677SERIES CR0
0.90
0.28
42.78
19.4
2013070045
SPLINE COUPLING 1.50"STR-1.50"STR PRT (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010020
999.380.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030005
PUMP/MOTOR CLAMP 677SERIES 7TON
-
-
48.1
21.8
3020020001
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed Flow stage
2018 Page 255
Conventional Pumps Summary
> Conventional pumps > NR > NRV15000
NRV15000 Pump Performance Curve NRV15000 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NRV15000, 60 Hz Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.03 in
204 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
10566-19622 bpd
1680-3120 m3/day
Shaft Diameter
1.65 in
42 mm
Shaft Cross Sectional Area
2.14 in2
1385 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1881 hp
1404 kW
Medium Strength (S11)
2566 hp
1915 kW
Standard (S13)
3058 hp
2282 kW
4831 psi
333 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only
2018 Page 256
Conventional Pumps Summary
> Conventional pumps > NR > NRV15000
NRV15000 Pump Performance Curve NRV15000 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NRV15000, 50 Hz Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.03 in
204 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
8805-16351 bpd
1400-2600 m3/day
Shaft Diameter
1.65 in
42 mm
Shaft Cross Sectional Area
2.14 in2
1385 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1568 hp
1170 kW
Medium Strength (S11)
2139 hp
1596 kW
Standard (S13)
2549 hp
1902 kW
4831 psi
333 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only
2018 Page 257
Conventional Pumps Summary
> Conventional pumps > NR > NRV15000
NRV15000 Multi Hz Curve (Tornado) Multi Hz Curve NRV15000
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 258
Conventional Pumps Summary
> Conventional pumps > NR > NRV15000
NRV15000 Pump Design Data @ 60 Hz 677 series | Cast Metallurgy Stage Compression: AR2 CR1* HSG # 2
Length**
Weight
ft
m
lb
kg
4.9
1.5
198
90
Head
STG 9
ft
m
736
224
Eff.. %
BHP. nominal
BHP. max
Part Number
hp
kW
hp
kW
S8 shaft
71
127.1
94.9
131.2
97.9
3002300038
2
4.9
1.5
198
90
12
981
299
71
169.5
126.5
174.9
130.6
3002300039
3
6.6
2.0
265
120
15
1226
374
71
211.9
158.1
218.7
163.2
3002300040
3
6.6
2.0
265
120
17
1389
424
71
240.2
179.2
247.8
185.0
3002300041
4
8.2
2.5
342
155
20
1635
498
71
282.5
210.9
291.6
217.6
3002300042
5
9.8
3.0
386
175
23
1880
573
71
324.9
242.5
335.3
250.2
3002300043
5
9.8
3.0
386
175
26
2125
648
71
367.3
274.1
379.0
282.9
3002300044
6
11.5
3.5
452
205
29
2370
722
71
409.7
305.7
422.8
315.5
3002300045
6
11.5
3.5
452
205
32
2615
797
71
452.1
337.4
466.5
348.1
3002300046
7
13.1
4.0
562
255
35
2861
872
71
494.4
369.0
510.2
380.8
3002300047
7
13.1
4.0
562
255
37
3024
922
71
522.7
390.1
539.4
402.5
3002300048
*CR2. CR3 and UCR configurations are available. **S11 and S13 shafts are available.Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only. for full length please add head and base dimensions: 1.3ft (0.405m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 4-1/2"-8RD EUE-677SERIES CR0
0.90
0.28
42.78
19.4
2013070045
SPLINE COUPLING 1.65"STR-1.65"STR (for CMP pumps)
0.31
0.09
0.5
0.2
2024010042
999.380.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030005
PUMP/MOTOR CLAMP 677SERIES 7TON
-
-
48.1
21.8
3020020001
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed Flow stage with Vortex crown
2018 Page 259
Conventional Pumps Summary
> Conventional pumps > NR > NRV19000
NRV19000 Pump Performance Curve NRV19000 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NRV19000, 60 Hz Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.03 in
204 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
12830-27169 bpd
2040-4320 m3/day
Shaft Diameter
1.65 in
42 mm
Shaft Cross Sectional Area
2.14 in2
1385 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1881 hp
1404 kW
Medium Strength (S11)
2566 hp
1915 kW
Standard (S13)
3058 hp
2282 kW
4831 psi
333 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only
2018 Page 260
Conventional Pumps Summary
> Conventional pumps > NR > NRV19000
NRV19000 Pump Performance Curve NRV19000 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NRV19000, 50 Hz Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.03 in
204 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
10691-22640 bpd
1700-3600 m3/day
Shaft Diameter
1.65 in
42 mm
Shaft Cross Sectional Area
2.14 in2
1385 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1568 hp
1170 kW
Medium Strength (S11)
2139 hp
1596 kW
Standard (S13)
2549 hp
1902 kW
4831 psi
333 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only
2018 Page 261
Conventional Pumps Summary
> Conventional pumps > NR > NRV19000
NRV19000 Multi Hz Curve (Tornado) Multi Hz Curve NRV19000
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 262
Conventional Pumps Summary
> Conventional pumps > NR > NRV19000
NRV19000 Pump Design Data @ 60 Hz 677 series | Cast Metallurgy Stage Compression: AR2 CR1* HSG # 2
Length**
Weight
Head
STG
ft
m
lb
kg
4.9
1.5
198
90
10
ft
m
692
211
Eff.. %
BHP. nominal
BHP. max
Part Number
hp
kW
hp
kW
S8 shaft
67
145.6
108.7
152.1
113.5
3002310002
3
6.6
2.0
265
120
14
969
295
67
203.9
152.1
212.9
158.9
3002310024
4
8.2
2.5
342
155
17
1177
359
67
247.5
184.7
258.5
192.9
3002310025 3002310006
5
9.8
3.0
386
175
21
1453
443
67
305.8
228.2
319.4
238.3
6
11.5
3.5
452
205
24
1661
506
67
349.5
260.8
365.0
272.4
3002310013
7
13.1
4.0
452
205
27
1869
570
67
393.1
293.4
410.6
306.4
3002310026
8
14.8
4.5
562
255
31
2146
654
67
451.4
336.9
471.4
351.8
3002310027
*CR2. CR3 and UCR configurations are available. **S11 and S13 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only. for full length please add head and base dimensions: 1.3ft (0.405m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 4-1/2"-8RD EUE-677SERIES CR0
0.90
0.28
42.78
19.4
2013070045
SPLINE COUPLING 1.65"STR-1.65"STR (for CMP pumps)
0.31
0.09
0.5
0.2
2024010042
999.380.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030005
PUMP/MOTOR CLAMP 677SERIES 7TON
-
-
48.1
21.8
3020020001
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed Flow stage with Vortex crown
2018 Page 263
Conventional Pumps Summary
> Conventional pumps > NR > NRV22500
NRV22500 Pump Performance Curve NRV22500 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
Qmin
Qnom
677 series / OD 172 mm
Qmax
Head
Power
Eff
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NRV22500, 60 Hz Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.03 in
204 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
18112-27169 bpd
2880-4320 m3/day
Shaft Diameter
1.65 in
42 mm
Shaft Cross Sectional Area
2.14 in2
1385 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1881 hp
1404 kW
Medium Strength (S11)
2560 hp
1910 kW
Standard (S13)
3058 hp
2282 kW
4831 psi
333 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only
2018 Page 264
Conventional Pumps Summary
> Conventional pumps > NR > NRV22500
NRV22500 Pump Performance Curve NRV22500 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NRV22500, 50 Hz Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.03 in
204 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
15094-22640 bpd
2400-3600 m3/day
Shaft Diameter
1.65 in
42 mm
Shaft Cross Sectional Area
2.14 in2
1385 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1568 hp
1170 kW
Medium Strength (S11)
2139 hp
1596 kW
Standard (S13)
2549 hp
1902 kW
4831 psi
333 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only
2018 Page 265
Conventional Pumps Summary
> Conventional pumps > NR > NRV22500
NRV22500 Multi Hz Curve (Tornado) Multi Hz Curve NRV22500
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 266
Conventional Pumps Summary
> Conventional pumps > NR > NRV22500
NRV22500 Pump Design Data @ 60 Hz 677 series |Cast Metallurgy Stage Compression: AR2 CR1* HSG # 2
Length**
Weight
ft
m
lb
kg
4.9
1.5
198
90
Head
STG 10
ft
m
620
189
Eff.. % 66
BHP. nominal
BHP. max
Part Number
hp
kW
hp
kW
S8 shaft
157.6
117.6
159.2
118.8
3002450003 3002450004
3
6.6
2.0
265
120
14
868
264
66
220.7
164.7
222.9
166.3
4
8.2
2.5
342
155
18
1116
340
66
283.8
211.8
286.5
213.8
3002450005
5
9.8
3.0
386
175
23
1426
435
66
362.6
270.6
366.1
273.2
3002450006
6
11.5
3.5
452
205
27
1674
510
66
425.6
317.6
429.8
320.8
3002450007
7
13.1
4.0
562
255
31
1922
586
66
488.7
364.7
493.5
368.3
3002450008
*CR2. CR3 and UCR configurations are available. **S11 and S13 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only. for full length please add head and base dimensions: 1.3ft (0.405m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 4-1/2"-8RD EUE-677SERIES CR0
0.90
0.28
42.78
19.4
2013070045
SPLINE COUPLING 1.65"STR-1.65"STR (for CMP pumps)
0.31
0.09
0.5
0.2
2024010042
999.380.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030005
PUMP/MOTOR CLAMP 677SERIES 7TON
-
-
48.1
21.8
3020020001
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed Flow stage with Vortex crown
2018 Page 267
Conventional Pumps Summary
> Conventional pumps > NR > NR30000
NR30000 Pump Performance Curve NR30000 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NR30000, 60 Hz Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.03 in
204 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
21131-36225 bpd
3360-5760 m3/day
Shaft Diameter
1.65 in
42 mm
Shaft Cross Sectional Area
2.14 in2
1385 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1881 hp
1404 kW
Medium Strength (S11)
2566 hp
1915 kW
Standard (S13)
3058 hp
2282 kW
4831 psi
333 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only
2018 Page 268
Conventional Pumps Summary
> Conventional pumps > NR > NR30000
NR30000 Pump Performance Curve NR30000 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NR30000, 50 Hz Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.03 in
204 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
17609-30187 bpd
2800-4800 m3/day
Shaft Diameter
1.65 in
42 mm
Shaft Cross Sectional Area
2.14 in2
1385 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1568 hp
1170 kW
Medium Strength (S11)
2139 hp
1596 kW
Standard (S13)
2549 hp
1902 kW
4831 psi
333 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only
2018 Page 269
Conventional Pumps Summary
> Conventional pumps > NR > NR30000
NR30000 Multi Hz Curve (Tornado) Multi Hz Curve NR30000
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 270
Conventional Pumps Summary
> Conventional pumps > NR > NR30000
NR30000 Pump Design Data @ 60 Hz 677 series | Cast Metallurgy Stage Compression: AR2 CR1* HSG # 4
Length**
Weight
ft
m
lb
kg
8.2
2.5
342
155
Head
STG 15
ft
m
694
212
Eff., % 64
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S8 shaft
239.4
178.7
239.4
178.7
3002320005
6
11.5
3.5
452
205
21
972
296
64
335.2
250.1
335.2
250.1
3002320006
7
13.1
4.0
562
255
25
1157
353
64
399.0
297.8
399.0
297.8
3002320007
*CR2, CR3 and UCR configurations are available. **S11 and S13 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.3ft (0.405m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 4-1/2"-8RD EUE-677SERIES CR0
0.90
0.28
42.78
19.4
2013070045
SPLINE COUPLING 1.65"STR-1.65"STR (for CMP pumps)
0.31
0.09
0.5
0.2
2024010042
999.380.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030005
PUMP/MOTOR CLAMP 677SERIES 7TON
-
-
48.1
21.8
3020020001
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed Flow stage
2018 Page 271
Conventional Pumps Summary
> Conventional pumps > NT > NT38000
NT38000 Pump Performance Curve NT38000 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
740 series / OD 188 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA Nt38000, 60 Hz Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.29 in
210.5 mm
Housing Diameter
7.40 in
188 mm
Recommended Operating Range
30187- 45281 bpd
4800-7200 m3/day
Shaft Diameter
1.65 in
42 mm
Shaft Cross Sectional Area
2.14 in2
1385 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1881 hp
1404 kW
Medium Strength (S11)
2566 hp
1915 kW
Standard (S13)
3058 hp
2282 kW
2987 psi
206 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only
2018 Page 272
Conventional Pumps Summary
> Conventional pumps > NT > NT38000
NT38000 Pump Performance Curve NT38000 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
740 series / OD 188 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA Nt38000, 50 Hz Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.29 in
210.5 mm
Housing Diameter
7.40 in
188 mm
Recommended Operating Range
25156-37734 bpd
4000-6000 m3/day
Shaft Diameter
1.65 in
42 mm
Shaft Cross Sectional Area
2.14 in2
1385 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1568 hp
1170 kW
Medium Strength (S11)
2139 hp
1596 kW
Standard (S13)
2549 hp
1902 kW
2987 psi
206 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only
2018 Page 273
Conventional Pumps Summary
> Conventional pumps > NT > NT38000
NT38000 Multi Hz Curve (Tornado) Multi Hz Curve NT38000
Curve is calculated for one stage on water of 1.00 sg
740 series / OD 188 mm
* Operating at frequencies over 60 Hz is allowed for the equipment of special design and with the approval of Perm Head Office only
2018 Page 274
Conventional Pumps Summary
> Conventional pumps > NT > NT38000
NT38000 Pump Design Data @ 60 Hz 740 series | Cast Metallurgy Stage compression: AR2 CR1* HSG # 2
Length**
Weight
Head
STG
ft
m
lb
kg
4.9
1.5
258
117
7
ft
m
470
143
Eff., % 70
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S8 shaft
161.6
120.6
161.6
120.6
3002500007
3
6.6
2.0
344
156
10
671
204
70
269.3
201.0
269.3
201.0
3002500008
4
8.2
2.5
445
202
13
872
266
70
350.1
261.3
350.1
261.3
3002500009
5
9.8
3.0
501
227
16
1073
327
70
430.9
321.5
430.9
321.5
3002500010
6
11.5
3.5
587
266
20
1342
409
70
511.7
381.8
511.7
381.8
3002500006
7
13.1
4.0
728
330
23
1543
470
70
592.4
442.1
592.4
442.1
3002500011
*CR2, CR3 and UCR configurations are available. **S11 and S13 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.3ft (0.405m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 4-1/2"-8RD NUE-740SERIES CR0
0.98
0.3
46.97
21.3
2013070099
SPLINE COUPLING 1.65"STR-1.65"STR (for CMP pumps)
0.31
0.09
0.5
0.2
2024010042
999.385.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030160
PUMP/MOTOR CLAMP 744SERIES 5TON
-
-
52.7
23.9
3020010001
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed Flow stage
2018 Page 275
Power Save™ Pumps Summary
> Power Save™ Pumps
GLOSSARY Power Save™ PUMP N
X
X (XXX-XXX)
H
XXX
XXX
XXX
FJX
XXX
XXXSTG Manufacturer (Novomet) Series, (see Table 1) Pump design: empty - centrifugal, non-vortex V - centrifugal, vortex I - inverted Recommended nominal ratings, bpd (as per Pump Summary) H - «Power Save» Stage Pump assembly design: FLT - floater SCMP - semi-compression CMP - compression Abrasion resistance, (see Table 2) Corrosion resistance, (see Table 3) Flange connection design: empty - standard flange-to-housing FJI - Flush Joint Inserted FJT - Flush Joint Threaded Shaft material and yield strength: S8 - Stainless steel (785 MPa) S11 - Stainless steel (1080 MPa) S13 - Stainless steel (1275 MPa) S14 - Stainless steel (1370 MPa) S16 - Stainless steel (1570 MPa) M8 - Monel alloy (785 MPa) I8 - Inconel alloy (785 MPa) I11 - Inconel alloy (1080 MPa) I13 - Inconel alloy (1275 MPa) I14 - Inconel alloy (1370 MPa) Number of stages in a pump
e.g., NHV(790-1000)H SCMP AR2 CR1 S13 99STG
Table 1 - Series
Novomet series
Series
HSG OD, inch
HSG OD, mm
Head & base length, ft (m)
A
272
2.72
69
1.2 (0.365)
B
319
3.19
81
1.2 (0.365)
F
362
3.62
92
1.2 (0.365)
H
406
4.06
103
1.2 (0.365)
P
535
5.35
136
R
677
6.77
172
1.2 (0.365) 1.3 (0.405) Intake built-in
Table 2 - Abrasion resistance
Abbr.
Full name
Description
AR1
Abrasion Resistant 1
For fluid containing solids up to 175 ptb (500 mg/l). Note: Applicable for all Floater pumps and all pumps of NR series
AR2
Abrasion Resistant 2
For fluid containing solids up to 350 ptb (1000 mg/l). Note: Applicable only for Compression and Semi-compression pumps, except for pumps of NR series
2018 Page 276
Power Save™ Pumps Summary
> Power Save™ Pumps Table 3 - Corrosion resistance
Abbr. Full name
Fluid
Max chemical content, g/l Cl H2S CO2
Moderately Corrosion 0.01 aggressive CR1 Resistant 1 1.25 fluid
1.45 0.01
Corrosion Highly CR2C Resistant aggressive 1.25 2C fluid
1.45
Corrosion Highly CR2S Resistant aggressive 1.25 2S fluid
1.45
Highly Corrosion aggressive 1.25 Resistant M fluid
1.45
Corrosion Highly CRMS Resistant aggressive 1.25 MS fluid
1.45
CRM
Highly Corrosion aggressive 1.25 1.45 Resistant 3 fluid Ultra Extremely UCR Corrosion aggressive >1.25 1.45 Resistant fluid CR3
pH
Description
Stainless Steel for powder metallurgy stages. Ni-resist or Stainless Steel for cast stages (please refer to Table 200 4.0..8.5 1 Pump Summary in Pump Glossary section). Housing, head and base are from Carbon Steel Stainless Steel for powder metallurgy stages. Ni-resist 200 3.0..9.0 or Stainless Steel for cast stages. Housing, head and base are coated with thermal spray coatings Stainless Steel for powder metallurgy stages. Ni-resist or Stainless Steel for cast stages. Stainless Steel 200 3.0..9.0 head and base. Housing is coated with thermal spray coatings Stainless Steel for powder metallurgy stages. Ni-resist or Stainless Steel for cast stages. Housing, head 200 3.0..9.0 and base are coated with Monel alloy thermal spray coating Stainless Steel for powder metallurgy stages. Ni-resist or Stainless Steel for cast stages. Stainless Steel head 200 3.0..9.0 and base. Housing is coated with Monel alloy thermal spray coating Stainless Steel for powder metallurgy stages. Ni-resist 200 3.0..9.0 or Stainless Steel for cast stages. Stainless Steel housing, head and base 200 3.0..9.0
Materials resistant to Sulfide Stress Cracking are used for housing, head and base.
Table 4 - Housing data
HSG#
Length
1 2 3 4 5 6 7 8 9 10 11 12 13 14
ft 3.3 4.9 6.6 8.2 9.8 11.5 13.1 14.8 16.4 18.0 19.7 21.3 23.0 24.6
m 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5 7.0 7.5
15
26.2
8.0
To get CT pump installation length add head and base length from Table 1.
2018 Page 277
Power Save™ Pumps Summary
> Power Save™ Pumps
Power Save™ PUMP SUMMARY (272 - 677 SERIES) A (272)
F (362)
B (319)
NAV(130-250)H
NBV(160-250)H
NFV(130-250)H
NAV(190-380)H
NBV(250-500)H
NFV(310-630)H
NAV(440-630)H
NB(630-1000)H semi-compression
NF(900-1300)H
NA(630-1300)H semi-compression
FJI
NB(630-1000)H compression
NF(1300-2000)H
NA(630-1300)H compression
FJI
NB(1100-1800)H
NF(2000-3100)H
FJI
NF(2500-4400)H
FJI
H (406)
NB(1500-2500)H compression
FJT
NB(2000-3100)H
FJT
P (535)
R (677)
NHV(790-1000)H
NP(1900-2500)H
NR(10000-11300)H
NH(1200-2100)H
NP(3100-4400)H
NR(12600-15700)H
NH(1500-2500)H
NP(4400-5700)H
NR(15700-19000)H
NH(2500-3100)H
NP(4700-6300)H
NH(2500-3800)H
NP(7900-10100)H
NH(4400-5000)H
NP(11300-15100)H
Powder metallurgy stages
Powder metallurgy + cast stages
FJI - Flush Joint Inserted FJT - Flush Joint Threaded
Cast stages Pancake stages Mixed flow stages
2018 Page 278
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NAV(130-250)H
NAV(130-250)h Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
272 series / OD 69 mm
Head
m
ft
5,50
18
Qmin
Qnom
Qmax
Recommended operating range
4,58
Head
15
Eff, % 50
25
3,66
12
2,75
9
1,83
6
Eff
Power
hp
0,92
0
0,00
0,03
0,02
0,01
Power
3
0
kW
0,04
0
50
100
150
200
250
300
0
8
16
24
32
40
48
0,00 0,00 bpd m3/day
Capacity This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NAV(130-250)h, 60hZ Maximal ESP System OD (incl. MLE AWG#8, 4kV)
3.23 in
82 mm
Housing Diameter
2.72 in
69 mm
Recommended Operating Range
113-189 bpd
18-30 m3/day
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
129 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
87 hp
65 kW
High Strength (S14)
100 hp
74 kW
Ultra High Strength (S16)
113 hp
84 kW
5547 psi
382 bar
Max Housing Burst Pressure Limit
2018 Page 279
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NAV(130-250)H
NAV(130-250)h Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
272 series / OD 69 mm
Head
ft 13.1
m 4
Qmin
Qnom
Qmax
Recommended operating range
9.84
3
50
6.56
2
25
3.28
1
Head
Eff, %
Power kW
Eff Power
0
0
0
0 0
Capacity
5
10
35
15 70
20 105
25 140
hp
0.016
0.021
0.008
0.011
0.000 0.000 35 m3 /day
30 175
210
bpd
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NAV(130-250)h, 50hZ Maximal ESP System OD (incl. MLE AWG#8, 4kV)
3.23 in
82 mm
Housing Diameter
2.72 in
69 mm
Recommended Operating Range
94-157 bpd
15-25 m3/day
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
129 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
72 hp
54 kW
High Strength (S14)
83 hp
62 kW
Ultra High Strength (S16)
94 hp
70 kW
5547 psi
382 bar
Max Housing Burst Pressure Limit
2018 Page 280
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NAV(130-250)H
NAV(130-250)h Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
272 series / OD 69 mm
2018 Page 281
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NAV(130-250)H
NAV(130-250)h Pump Design Data @ 60 Hz 272 series | Powder Metallurgy Stage Semi-compression: AR2 CR1* HSG # 2
Length***
Weight
ft
m
lb
kg
4.9
1.5
99
45
STG 48
Head ft
m
578
176
Eff.. %
BHP. nominal
44
BHP. max
Part Number
hp
kW
hp
kW
S14 shaft**
1.4
1.1
1.5
1.1
3202230175
3
6.6
2.0
137
62
65
783
239
44
1.9
1.4
2.0
1.5
3202230176
4
8.2
2.5
174
79
82
988
301
44
2.4
1.8
2.5
1.9
3202230177
5
9.8
3.0
207
94
101
1217
371
44
3.0
2.2
3.1
2.3
3202230178
6
11.5
3.5
247
112
118
1422
433
44
3.5
2.6
3.7
2.7
3202230179
7
13.1
4.0
284
129
138
1663
507
44
4.1
3.0
4.3
3.2
3202230180
*CR2. CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only. for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 1.900"-10RD NUE-272SERIES CR0
TBA
TBA
TBA
TBA
2013070129
SPLINE COUPLING 0.50"-0.50" (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010353
SPLINE COUPLING 0.50"-0.50" (for CMP pumps)
0.31
0.09
0.5
0.2
2024010769
999.325.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030361
PUMP/MOTOR CLAMP 276SERIES 3TON
-
-
19.8
9.0
3020010011
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage , Vortex crown
2018 Page 282
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NA(190-380)H
NAV(190-380)h Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
272 series / OD 69 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NAV(190-380)h, 60hZ Maximal ESP System OD (incl. MLE AWG#8, 4kV)
3.23 in
82 mm
Housing Diameter
2.72 in
69 mm
Recommended Operating Range
171-342 bpd
27-54 m3/day
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
129 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
105 hp
65 kW
High Strength (S14)
121 hp
75 kW
Ultra High Strength (S16)
135 hp
84 kW
5547 psi
382 bar
Max Housing Burst Pressure Limit
2018 Page 283
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NA(190-380)H
NAV(190-380)h Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
272 series / OD 69 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NAV(190-380)h, 50hZ Maximal ESP System OD (incl. MLE AWG#8, 4kV)
3.23 in
82 mm
Housing Diameter
2.72 in
69 mm
Recommended Operating Range
142-285 bpd
23-45 m3/day
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
129 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
72 hp
54 kW
High Strength (S14)
83 hp
62 kW
Ultra High Strength (S16)
94 hp
70 kW
5547 psi
382 bar
Max Housing Burst Pressure Limit
2018 Page 284
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NA(190-380)H
NAV(190-380)h Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
272 series / OD 69 mm
2018 Page 285
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NA(190-380)H
NAV(190-380)h Pump Design Data @ 60 Hz 272 series | Powder Metallurgy Stage Semi-compression: AR2 CR1* HSG # 2
Length***
Weight
ft
m
lb
kg
4.9
1.5
99
45
STG 47
Head ft
m
511
156
Eff.. %
BHP. nominal
50
BHP. max
Part Number
hp
kW
hp
kW
S14 shaft**
6.6
5.0
6.6
5.0
3002820300
3
6.6
2.0
137
62
66
718
219
50
9.3
7.0
9.3
7.0
3002820301
4
8.2
2.5
174
79
85
925
282
50
12.0
9.0
12.0
9.0
3002820302
5
9.8
3.0
207
94
104
1131
345
50
14.7
11.0
14.7
11.0
3002820303
6
11.5
3.5
247
112
120
1305
398
50
17.0
12.7
17.0
12.7
3002820304
7
13.1
4.0
284
129
139
1512
461
50
19.6
14.7
19.6
14.7
3002820305
*CR2. CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only. for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 1.900"-10RD NUE-272SERIES CR0
TBA
TBA
TBA
TBA
2013070129
SPLINE COUPLING 0.50"-0.50" (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
2024010353
SPLINE COUPLING 0.50"-0.50" (for CMP pumps)
0.31
0.09
0.5
0.2
2024010769
999.325.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030361
PUMP/MOTOR CLAMP 276SERIES 3TON
-
-
19.8
9.0
3020010011
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage , Vortex crown
2018 Page 286
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NAV(440-630)H
NAV(440-630)h Pump Performance Curve 60 Hz / 3940 rpm
Curve is calculated for one stage on water of 1.00 sg
272 series / OD 69 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NAV(440-630)h, 60hZ Maximal ESP System OD (incl. MLE AWG#8, 4kV)
3.23 in
82 mm
Housing Diameter
2.72 in
69 mm
Recommended Operating Range
264-491 bpd
42-78 m3/day
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
129 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
87 hp
65 kW
High Strength (S14)
100 hp
74 kW
Ultra High Strength (S16)
113 hp
84 kW
5547 psi
382 bar
Max Housing Burst Pressure Limit
2018 Page 287
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NAV(440-630)H
NAV(440-630)h Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
272 series / OD 69 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NAV(440-630)h, 50hZ Maximal ESP System OD (incl. MLE AWG#8, 4kV)
3.23 in
82 mm
Housing Diameter
2.72 in
69 mm
Recommended Operating Range
220-410 bpd
35-65 m3/day
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
129 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
72 hp
54 kW
High Strength (S14)
83 hp
62 kW
Ultra High Strength (S16)
94 hp
70 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 288
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NAV(440-630)H
NAV(440-630)h Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
series / OD mm
2018 Page 289
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NAV(440-630)H
NAV(440-630)h Pump Design Data @ 60 Hz 272 series | Powder Metallurgy Stage Semi-compression: AR2 CR1* HSG # 2
Length***
Weight
ft
m
lb
kg
4.9
1.5
99
45
STG 35
Head ft
m
315
96
Eff., %
BHP, nominal
58
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
1.3
0.9
1.3
1.0
3002810353
3
6.6
2.0
137
62
50
450
137
58
1.8
1.4
1.9
1.4
3002810354
4
8.2
2.5
174
79
65
586
178
58
2.4
1.8
2.5
1.8
3002810355 3002810356
5
9.8
3.0
207
94
77
694
211
58
2.8
2.1
2.9
2.2
6
11.5
3.5
247
112
91
820
250
58
3.3
2.5
3.4
2.6
3002810357
7
13.1
4.0
284
129
106
955
291
58
3.9
2.9
4.0
3.0
3002810358
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 1.900"-10RD NUE-272SERIES CR0
TBA
TBA
TBA
TBA
2013070129
SPLINE COUPLING 0.50"-0.50" (for FLT, SCMP pumps)
0.31
0.09
0.5
0.2
2024010353
SPLINE COUPLING 0.50"-0.50" (for CMP pumps)
0.31
0.09
0.5
0.2
2024010769
999.325.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030361
PUMP/MOTOR CLAMP 276SERIES 3TON
-
-
19,8
9.0
3020010011
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage , Vortex crown
2018 Page 290
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NAV(630-1300)H semi-compression
NA(630-1300)h (FJI) Pump Performance Curve semi-compression design 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
272 series / OD 69 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NA(630-1300)h semi-compression design, 60HZ Maximal ESP System OD (incl. MLE AWG#8, 4kV)
3.23 in
82 mm
Housing Diameter
2.72 in
69 mm
Recommended Operating Range
603-906 bpd
96-144 m3/day
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
129 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
174 hp
130 kW
High Strength (S14)
199 hp
149 kW
Ultra High Strength (S16)
225 hp
168 kW
5547 psi
382 bar
Housing Burst Pressure Limit
FJI - Flush Joint Inserted 2018 Page 291
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NAV(630-1300)H semi-compression
NA(630-1300)h (FJI) Pump Performance Curve semi-compression design 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
272 series / OD 69 mm
Recommended operating range
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NA(630-1300)h semi-compression design, 50HZ Maximal ESP System OD (incl. MLE AWG#8, 4kV)
3.23 in
82 mm
Housing Diameter
2.72 in
69 mm
Recommended Operating Range
503-754 bpd
80-120 m3/day
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
129 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
145 hp
108 kW
High Strength (S14)
166 hp
124 kW
Ultra High Strength (S16)
188 hp
140 kW
5547 psi
382 bar
Housing Burst Pressure Limit
FJI - Flush Joint Inserted 2018 Page 292
> Power Save™ Pumps > NA > NAV(630-1300)H semi-compression
Power Save™ Pumps Summary
NA(630-1300)h (FJI) semi-compression design Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
272 series / OD 69 mm
FJI - Flush Joint Inserted 2018 Page 293
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NAV(630-1300)H semi-compression
NA(630-1300)h (FJI) Pump semi-compression design Design Data @ 60 Hz 272 series | Powder Metallurgy Stage semi-compression: AR2 CR1* HSG # 2
Length***
Weight
ft
m
lb
kg
4.9
1.5
86
39
STG 28
Head ft
m
261
79
Eff., %
BHP, nominal
57
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
2.3
1.7
2.3
1.7
3002850043
3
6.6
2.0
99
45
39
363
111
57
3.1
2.3
3.1
2.3
3002850044
4
8.2
2.5
117
53
49
456
139
57
3.9
2.9
3.9
2.9
3002850045
5
9.8
3.0
141
64
60
558
170
57
4.8
3.6
4.8
3.6
3002850046
6
11.5
3.5
157
71
71
661
201
57
5.7
4.3
5.7
4.3
3002850008
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 1.900"-10RD NUE-272SERIES CR0
TBA
TBA
TBA
TBA
2013070129
SPLINE COUPLING 0.50"-0.50" (for FLT, SCMP pumps)
0.31
0.09
0.5
0.2
2024010353
SPLINE COUPLING 0.50"-0.50" (for CMP pumps)
0.31
0.09
0.5
0.2
2024010769
999.325.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030361
PUMP/MOTOR CLAMP 276SERIES 3TON
-
-
19.8
9.0
3020010011
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
FJI - Flush Joint Inserted 2018 Page 294
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NA(630-1300)H compression
NA(630-1300)h (FJI) Pump Performance Curve compression design 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
272 series / OD 69 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NA(630-1300)h compression design, 60HZ Maximal ESP System OD (incl. MLE AWG#8, 4kV)
3.23 in
82 mm
Housing Diameter
2.72 in
69 mm
Recommended Operating Range
603-906 bpd
96-144 m3/day
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
129 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
174 hp
130 kW
High Strength (S14)
199 hp
149 kW
Ultra High Strength (S16)
225 hp
168 kW
5547 psi
382 bar
Housing Burst Pressure Limit
FJI - Flush Joint Inserted 2018 Page 295
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NA(630-1300)H compression
NA(630-1300)h (FJI) Pump Performance Curve compression design 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
272 series / OD 69 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NA(630-1300)h compression design, 50HZ Maximal ESP System OD (incl. MLE AWG#8, 4kV)
3.23 in
82 mm
Housing Diameter
2.72 in
69 mm
Recommended Operating Range
503-754 bpd
80-120 m3/day
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
129 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
145 hp
108 kW
High Strength (S14)
166 hp
124 kW
Ultra High Strength (S16)
188 hp
140 kW
5547 psi
382 bar
Housing Burst Pressure Limit
FJI - Flush Joint Inserted 2018 Page 296
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NA(630-1300)H compression
NA(630-1300)h (FJI) compression design Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
272 series / OD 69 mm
FJI - Flush Joint Inserted 2018 Page 297
Power Save™ Pumps Summary
> Power Save™ Pumps > NA > NA(630-1300)H compression
NA(630-1300)h (FJI) Pump compression design Design Data @ 60 Hz 272 series | Powder Metallurgy Stage compression: AR2 CR1* HSG # 2
Length***
Weight
STG
ft
m
lb
kg
4.9
1.5
86
39
29
Head ft
m
249
76
Eff., %
BHP, nominal
57
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
2.5
1.9
2.5
1.9
3002850043
3
6.6
2.0
99
45
40
344
105
57
3.4
2.6
3.4
2.6
3002850044
4
8.2
2.5
117
53
51
439
134
57
4.4
3.3
4.4
3.3
3002850045
5
9.8
3.0
141
64
63
542
165
57
5.4
4.0
5.4
4.0
3002850046
6
11.5
3.5
157
71
74
636
194
57
6.3
4.7
6.3
4.7
3002850008
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 1.900"-10RD NUE-272SERIES CR0
TBA
TBA
TBA
TBA
2013070129
SPLINE COUPLING 0.50"-0.50" (for FLT, SCMP pumps)
0.31
0.09
0.5
0.2
2024010353
SPLINE COUPLING 0.50"-0.50" (for CMP pumps)
0.31
0.09
0.5
0.2
2024010769
999.325.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030361
PUMP/MOTOR CLAMP 276SERIES 3TON
-
-
19.8
9.0
3020010011
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
FJI - Flush Joint Inserted 2018 Page 298
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NBV(160-250)H
NBV(160-250)h Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NBV(160-250)h, 60 HZ Maximal ESP System OD (incl. MLE AWG#7, 4kV)
3.74 in
95 mm
Housing Diameter
3.19 in
81 mm
Recommended Operating Range
149-257 bpd
24-41 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
87 hp
65 kW
High Strength (S14)
99 hp
74 kW
Ultra High Strength (S16)
113 hp
84 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 299
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NBV(160-250)H
NBV(160-250)h Pump Performance Curve 50 Hz / 2850 rpm
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NBV(160-250)h, 50 HZ Maximal ESP System OD (incl. MLE AWG#7, 4kV)
3.74 in
95 mm
Housing Diameter
3.19 in
81 mm
Recommended Operating Range
122-217 bpd
19-35 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
72 hp
54 kW
High Strength (S14)
84 hp
63 kW
Ultra High Strength (S16)
95 hp
71 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 300
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NBV(160-250)H
NBV(160-250)h Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
2018 Page 301
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NBV(160-250)H
NBV(160-250)h Pump Design Data @ 60 Hz 319 series | Powder Metallurgy Stage Semi-compression: AR2 CR1* HSG #
Length***
Weight
ft
m
lb
kg
3
6.6
2.0
183
83
4
8.2
2.5
221
100
STG
Head ft
m
60
934
285
77
1199
365
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
40
3.5
2.6
3.7
2.8
S14 shaft** TBA
40
4.5
3.3
4.8
3.6
TBA
5
9.8
3.0
262
119
91
1417
432
40
5.3
3.9
5.7
4.2
TBA
6
11.5
3.5
271
123
108
1681
512
40
6.3
4.7
6.7
5.0
TBA
7
13.1
4.0
335
152
125
1946
593
40
7.2
5.4
7.8
5.8
TBA
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-3/8"-8RD EUE-319SERIES CR0
0.62
0.19
7.1
3.2
SPLINE COUPLING 0.55"-0.55" PRT (for FLT, SCMP pumps)
0.31
0.09
0.5
0.2
2013070036 2024010117
999.330.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030127
PUMP/MOTOR CLAMP 319SERIES 3TON
-
-
19.8
9.0
3020010008
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage , Vortex crown
2018 Page 302
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NBV(250-500)H
NBV(250-500)h Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NBV(250-500)h, 60 HZ Maximal ESP System OD (incl. MLE AWG#7, 4kV)
3.74 in
95 mm
Housing Diameter
3.19 in
81 mm
Recommended Operating Range
233-421 bpd
37-67 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
125 hp
78 kW
High Strength (S14)
145 hp
90 kW
Ultra High Strength (S16)
164 hp
102 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 303
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NBV(250-500)H
NBV(250-500)h Pump Performance Curve 49 Hz / 2850 rpm
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NBV(250-500)h, 49 HZ Maximal ESP System OD (incl. MLE AWG#7, 4kV)
3.74 in
95 mm
Housing Diameter
3.19 in
81 mm
Recommended Operating Range
189-340 bpd
30-54 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
86 hp
64 kW
High Strength (S14)
99 hp
74 kW
Ultra High Strength (S16)
111 hp
83 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 304
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NBV(250-500)H
NBV(250-500)h Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
2018 Page 305
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NBV(250-500)H
NBV(250-500)h Pump Design Data @ 60 Hz 319 series | Powder Metallurgy Stage Floater: AR1 CR1* HSG # 2
Length***
Weight
ft
m
lb
kg
4.9
1.5
75
34
STG 49
Head ft
m
914
278
Eff., %
BHP, nominal
52
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
4.2
3.1
4.8
3.6
3002440262 3002440287
3
6.6
2.0
95
43
66
1231
375
52
5.7
4.2
6.4
4.8
4
8.2
2.5
117
53
84
1566
477
52
7.2
5.4
8.2
6.1
3002440136
5
9.8
3.0
150
68
101
1883
574
52
8.7
6.5
9.8
7.3
3002440288
6
11.5
3.5
172
78
119
2219
676
52
10.2
7.6
11.6
8.6
3002440086
7
13.1
4.0
190
86
139
2592
790
52
11.9
8.9
13.5
10.1
3002440060
8
14.8
4.5
221
100
156
2909
887
52
13.4
10.0
15.2
11.3
3002440120
9
16.4
5.0
243
110
174
3244
989
52
14.9
11.2
16.9
12.6
3002440085
10
18.0
5.5
276
125
194
3617
1103
52
16.7
12.4
18.9
14.1
3002440286
11
19.7
6.0
291
132
209
3897
1188
52
17.9
13.4
20.3
15.2
3002440133
Semi-compression: AR2 CR1* HSG # 2
Length***
Weight
ft
m
lb
kg
4.9
1.5
75
34
STG
Head ft
m
43
802
244
Eff., %
BHP, nominal
52
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
3.7
2.8
4.2
3.1
3002440763 3002440764
3
6.6
2.0
95
43
59
1100
335
52
5.1
3.8
5.7
4.3
4
8.2
2.5
117
53
76
1417
432
52
6.5
4.9
7.4
5.5
3002440136
5
9.8
3.0
150
68
93
1734
529
52
8.0
6.0
9.0
6.7
3002440754 3002440766
6
11.5
3.5
172
78
109
2032
619
52
9.4
7.0
10.6
7.9
7
13.1
4.0
190
86
126
2349
716
52
10.8
8.1
12.2
9.1
3002440755
8
14.8
4.5
221
100
143
2666
813
52
12.3
9.2
13.9
10.4
3002440753
9
16.4
5.0
243
110
159
2965
904
52
13.7
10.2
15.5
11.5
3002440756
10
18.0
5.5
276
125
176
3282
1000
52
15.1
11.3
17.1
12.8
3002440767
11
19.7
6.0
291
132
190
3543
1080
52
16.3
12.2
18.5
13.8
3002440757
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-3/8"-8RD EUE-319SERIES CR0
0.62
0.19
7.1
3.2
SPLINE COUPLING 0.55"-0.55" PRT (for FLT, SCMP pumps)
0.31
0.09
0.5
0.2
2013070036 2024010117
999.330.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030127
PUMP/MOTOR CLAMP 319SERIES 3TON
-
-
19.8
9.0
3020010008
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage , Vortex crown
2018 Page 306
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NB(630-1000)H semi-compression design
NB(630-1000)h Pump Performance Curve semi-compression design 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NB(630-1000)h, 60 hZ Maximal ESP System OD (incl. MLE AWG#7, 4kV)
3.74 in
95 mm
Housing Diameter
3.19 in
81 mm
Recommended Operating Range
517-861 bpd
81-135 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
105 hp
78 kW
High Strength (S14)
121 hp
90 kW
Ultra High Strength (S16)
137 hp
102 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 307
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NB(630-1000)H semi-compression design
NB(630-1000)h Pump Performance Curve semi-compression design 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NB(630-1000)h, 50 hZ Maximal ESP System OD (incl. MLE AWG#7, 4kV)
3.74 in
95 mm
Housing Diameter
3.19 in
81 mm
Recommended Operating Range
430-718 bpd
68-114 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
87 hp
65 kW
High Strength (S14)
101 hp
75 kW
Ultra High Strength (S16)
114 hp
85 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 308
> Power Save™ Pumps > NB > NB(630-1000)H semi-compression design
Power Save™ Pumps Summary
NB(630-1000)h Pump semi-compression design Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
2018 Page 309
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NB(630-1000)H semi-compression design
NB(630-1000)h Pump semi-compression design Design Data @ 60 Hz 319 series | Powder Metallurgy Stage semi-compression: HSG #
Length***
Weight
ft
m
lb
kg
3
6.6
2.0
75
34
4
8.2
2.5
95
43
STG
Head ft
m
35
555
169
48
761
232
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
59
4.7
3.5
4.7
3.5
S14 shaft** 3002710799
59
6.4
4.8
6.4
4.8
3002710800
5
9.8
3.0
117
53
64
1015
309
59
8.6
6.4
8.6
6.4
3002710801
6
11.5
3.5
150
68
77
1221
372
59
10.3
7.7
10.3
7.7
3002710790 3002710802
7
13.1
4.0
172
78
90
1427
435
59
12.0
9.0
12.0
9.0
8
14.8
4.5
190
86
103
1633
498
59
13.8
10.3
13.8
10.3
3002710791
9
16.4
5.0
221
100
118
1871
570
59
15.8
11.8
15.8
11.8
3002710789
10
18.0
5.5
243
110
131
2077
633
59
17.5
13.1
17.5
13.1
3002710792
11
19.7
6.0
265
120
144
2283
696
59
19.3
14.4
19.3
14.4
3002710803
12
21.3
6.5
291
132
160
2537
773
59
21.4
16.0
21.4
16.0
3002710793
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-3/8"-8RD EUE-319SERIES CR0
0.62
0.19
7.1
3.2
SPLINE COUPLING 0.55"-0.55" PRT (for FLT, SCMP pumps)
0.31
0.09
0.5
0.2
2013070036 2024010117
SPLINE COUPLING 0.55"-0.55" PRT (for CMP pumps)
0.31
0.09
0.5
0.2
2024010416
999.330.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030127
PUMP/MOTOR CLAMP 319SERIES 3TON
-
-
19.8
9.0
3020010008
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage, non Vortex
2018 Page 310
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NB(630-1000)H compression design
NB(630-1000)h Pump Performance Curve compression design 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NB(630-1000)h, 60 hZ Maximal ESP System OD (incl. MLE AWG#7, 4kV)
3.74 in
95 mm
Housing Diameter
3.19 in
81 mm
Recommended Operating Range
503-830 bpd
80-132 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
105 hp
78 kW
High Strength (S14)
121 hp
90 kW
Ultra High Strength (S16)
137 hp
102 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 311
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NB(630-1000)H compression design
NB(630-1000)h Pump Performance Curve compression design 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NB(630-1000)h, 50 hZ Maximal ESP System OD (incl. MLE AWG#7, 4kV)
3.74 in
95 mm
Housing Diameter
3.19 in
81 mm
Recommended Operating Range
419-692 bpd
67-110 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
87 hp
65 kW
High Strength (S14)
101 hp
75 kW
Ultra High Strength (S16)
114 hp
85 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 312
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NB(630-1000)H compression design
NB(630-1000)h Pump compression design Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
2018 Page 313
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NB(630-1000)H compression design
NB(630-1000)h Pump compression design Design Data @ 60 Hz 319 series | Powder Metallurgy Stage compression: AR2 CR1* HSG # 2
Length***
Weight
ft
m
lb
kg
4.9
1.5
75
34
STG 30
Head ft
m
443
135
Eff., %
BHP, nominal
61
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
3.6
2.7
3.6
2.7
3002710556
3
6.6
2.0
95
43
43
635
194
61
5.2
3.9
5.2
3.9
3002710555
4
8.2
2.5
117
53
52
768
234
61
6.3
4.7
6.3
4.7
3002710554
5
9.8
3.0
150
68
66
975
297
61
8.0
6.0
8.0
6.0
3002710553
6
11.5
3.5
172
78
79
1167
356
61
9.6
7.2
9.6
7.2
3002710552
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-3/8"-8RD EUE-319SERIES CR0
0.62
0.19
7.1
3.2
SPLINE COUPLING 0.55"-0.55" PRT (for FLT, SCMP pumps)
0.31
0.09
0.5
0.2
2013070036 2024010117
SPLINE COUPLING 0.55"-0.55" PRT (for CMP pumps)
0.31
0.09
0.5
0.2
2024010416
999.330.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030127
PUMP/MOTOR CLAMP 319SERIES 3TON
-
-
19.8
9.0
3020010008
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage, non Vortex
2018 Page 314
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NBV(1100-1800)H
NB(1100-1800)h Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NB(1100-1800)h, 60 hZ Maximal ESP System OD (incl. MLE AWG#7, 4kV)
3.74 in
95 mm
Housing Diameter
3.19 in
81 mm
Recommended Operating Range
604-1359 bpd
96-216 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
6000 psi
414 bar
Max Housing Burst Pressure Limit
2018 Page 315
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NBV(1100-1800)H
NB(1100-1800)h Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NB(1100-1800)h, 50HZ Maximal ESP System OD (incl. MLE AWG#7, 4kV)
3.74 in
95 mm
Housing Diameter
3.19 in
81 mm
Recommended Operating Range
503-1132 bpd
80-180 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
6000 psi
414 bar
Max Housing Burst Pressure Limit
2018 Page 316
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NBV(1100-1800)H
NB(1100-1800)h Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
2018 Page 317
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NBV(1100-1800)H
NB(1100-1800)h Pump Design Data @ 60 Hz 319 series | CAST Metallurgy Stage compression: AR2 CR1* HSG # 2
Length***
Weight
ft
m
lb
kg
4.9
1.5
75
34
STG 33
Head ft
m
535
163
Eff., %
BHP, nominal
62
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
6.6
4.9
6.6
4.9
3002900412
3
6.6
2.0
95
43
45
729
222
62
9.0
6.7
9.0
6.7
3002900411
4
8.2
2.5
117
53
58
940
286
62
11.6
8.7
11.6
8.7
3002900410
5
9.8
3.0
150
68
70
1134
346
62
14.0
10.5
14.0
10.5
3002900409
6
11.5
3.5
168
76
83
1345
410
62
16.6
12.4
16.6
12.4
3002900408
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-3/8"-8RD EUE-319SERIES CR0
0.62
0.19
7.1
3.2
2013070036
SPLINE COUPLING 0.67"-0.67" PRT (for CMP pumps)
0.31
0.09
0.5
0.2
2024010575
999.330.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030127
PUMP/MOTOR CLAMP 319SERIES 3TON
-
-
19.8
9.0
3020010008
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
2018 Page 318
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NB(1500-2500)H compression
NB(1500-2500)h (FJT) Pump Performance Curve compression design 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NB(1500-2500)h compression design, 60 hZ Maximal ESP System OD (incl. MLE AWG#7, 4kV)
3.74 in
95 mm
Housing Diameter
3.19 in
81 mm
Recommended Operating Range
1132-1887 bpd
180-300 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
FJT - Flush Joint Threaded 2018 Page 319
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NB(1500-2500)H compression
NB(1500-2500)h (FJT) Pump Performance Curve compression design 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NB(1500-2500)h compression design, 50HZ Maximal ESP System OD (incl. MLE AWG#7, 4kV)
3.74 in
95 mm
Housing Diameter
3.19 in
81 mm
Recommended Operating Range
943-1572 bpd
150-250 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
FJT - Flush Joint Threaded 2018 Page 320
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NB(1500-2500)H compression
NB(1500-2500)h (FJT) compression design Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
FJT - Flush Joint Threaded 2018 Page 321
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NB(1500-2500)H compression
NB(1500-2500)h (FJT) Pump compression design Design Data @ 60 Hz 319 series | Powder Metallurgy Stage compression: AR2 CR1* HSG # 3
Length***
Weight
ft
m
lb
kg
6.6
2.0
95
43
STG 28
Head ft
m
343
104
Eff., %
BHP, nominal
67
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
5.7
4.3
5.7
4.3
3202240234
4
8.2
2.5
117
53
36
441
134
67
7.4
5.5
7.4
5.5
3202240233
5
9.8
3.0
150
68
44
538
164
67
9.0
6.7
9.0
6.7
3202240232
6
11.5
3.5
168
76
52
636
194
67
10.6
7.9
10.6
7.9
3202240231
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length
Weight
ft
m
lb
kg
Part Number
BOH 2-3/8"-8RD EUE-319SERIES CR0 FJT
0.52
0.16
5.7
2.6
2013070138
BOH 2-3/8"-8RD EUE-319SERIES CR0
0.66
0.2
7.7
3.5
2013070036
SPLINE COUPLING 0.67"-0.67" PRT (for CMP pumps)
2024010575
0.31
0.09
0.5
0.2
999.330.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030127
PUMP/MOTOR CLAMP 319SERIES 3TON
-
-
19.8
9.0
3020010008
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
FJT - Flush Joint Threaded 2018 Page 322
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NB(2000-3100)H
NB(2000 - 3100)h (FJT) Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NB(2000-3100)h, 60 hZ Maximal ESP System OD (incl. MLE AWG#7, 4kV)
3.74 in
95 mm
Housing Diameter
3.19 in
81 mm
Recommended Operating Range
1698-2830 bpd
270-450 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
FJT - Flush Joint Threaded 2018 Page 323
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NB(1500-2500)H semi-compression
NB(2000 - 3100)h (FJT) Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NB(2000-3100)h, 50HZ Maximal ESP System OD (incl. MLE AWG#7, 4kV)
3.74 in
95 mm
Housing Diameter
3.19 in
81 mm
Recommended Operating Range
1408-2352 bpd
224-374 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
FJT - Flush Joint Threaded 2018 Page 324
> Power Save™ Pumps > NB > NB(2000-3100)H
Power Save™ Pumps Summary
NB(2000 - 3100)h (FJT) Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
FJT - Flush Joint Threaded 2018 Page 325
Power Save™ Pumps Summary
> Power Save™ Pumps > NB > NB(2000-3100)H
NB(2000 - 3100)h (FJT) Pump Design Data @ 60 Hz 319 series | Powder Metallurgy Stage compression: AR2 CR1* HSG #
Length***
Weight
ft
m
lb
kg
3
6.6
2.0
95
43
4
8.2
2.5
117
53
STG
Head ft
m
28
361
110
36
464
141
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
70
8.5
6.3
9.1
6.8
S14 shaft** TBA
70
10.9
8.2
11.7
8.7
TBA
5
9.8
3.0
150
68
44
567
173
70
13.4
10.0
14.3
10.7
TBA
6
11.5
3.5
172
78
52
670
204
70
15.8
11.8
16.9
12.6
TBA
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length
Weight
ft
m
lb
kg
Part Number
BOH 2-3/8"-8RD EUE-319SERIES CR0 FJT
0.52
0.16
5.7
2.6
2013070138
BOH 2-3/8"-8RD EUE-319SERIES CR0
0.66
0.2
7.7
3.5
2013070036
SPLINE COUPLING 0.67"-0.67" PRT (for CMP pumps)
2024010575
0.31
0.09
0.5
0.2
999.330.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030127
PUMP/MOTOR CLAMP 319SERIES 3TON
-
-
19.8
9.0
3020010008
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
FJT - Flush Joint Threaded 2018 Page 326
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NFV(130-250)H
nfv(130-250)H Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
Head m
ft
7.60
25
Qmin
Q nom
Qmax
Recommended operating range
6.08
20
4.56
15
3.04
10
Head
Eff, % 50
Power
hp
Eff 25
0
1.52
0.00
5
0
kW
0.05
0.04
0.03
0.02
Power
0 0
50
100 10
150 20
200
250
30
300
0.00 0.00 bpd
40
m3 /day
Capacity This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA nfv(130-250)H, 60 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
113-189 bpd
18-30 m3/day
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
129 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
105 hp
78 kW
High Strength (S14)
121 hp
90 kW
Ultra High Strength (S16)
137 hp
102 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 327
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NFV(130-250)H
nfv(130-250)H Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
Head
ft 16.4
m 5
Q min
Qnom
Q max
Recommended operating range
Head 13.1
4
9.84
3
6.56
2
Eff, % 50
Power
Eff 25
3.28
kW
1
hp
0.02
0.027
0.01
0.013
Power
0
0
0
0 0
Capacity
10 50
20 100
40
0.00 0.000 m3 /day
250
bpd
30 150
200
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA nfv(130-250)H, 50 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
94-157 bpd
15-25 m3/day
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
129 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
87 hp
65 kW
High Strength (S14)
101 hp
75 kW
Ultra High Strength (S16)
114 hp
85 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 328
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NFV(130-250)H
nfv(130-250)H Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
2018 Page 329
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NFV(130-250)H
nfv(130-250)H Pump Design Data @ 60 Hz 362 series | POWDER METALLURGY + CAST STAGE compression: AR2 CR1* HSG # 3
Length***
Weight
ft
m
lb
kg
6.6
2.0
183
83
STG
Head ft
m
71
1228
374
Eff., %
BHP, nominal
46
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
3.0
2.2
3.1
2.3
3002480990
4
8.2
2.5
221
100
90
1556
474
46
3.8
2.8
4.0
3.0
3002480989
5
9.8
3.0
262
119
108
1867
569
46
4.6
3.4
4.8
3.5
3002480988
6
11.5
3.5
271
123
127
2196
669
46
5.4
4.0
5.6
4.2
3002480987
7
13.1
4.0
335
152
123
2127
648
46
5.2
3.9
5.4
4.0
TBA
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description BOH 2-7/8"-8RD EUE-362SERIES CR0 SPLINE COUPLING 0.50"-0.50" PRT (for FLT. SCMP pumps)
Length ft
Weight kg
Part Number
m
lb
0.68901
0.21
10.143
4.6
2013070049
0.31
0.09
0.5
0.2
2024010353
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage, Vortex crown, radial diffuser Impeller – Powder metallurgy Diffuser– Cast metallurgy Barrel – Powder metallurgy
2018 Page 330
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NFV(310-630)H
NFV(310-630)H Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
m3/day
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV(310-630)H, 60 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
264-490 bpd
42-78 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
87 hp
65 kW
High Strength (S14)
100 hp
74 kW
Ultra High Strength (S16)
113 hp
84 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 331
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NFV(310-630)H
NFV(310-630)H Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NFV(310-630)H, 50 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
220-409 bpd
35-65 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
72 hp
54 kW
High Strength (S14)
83 hp
62 kW
Ultra High Strength (S16)
94 hp
70 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 332
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NFV(310-630)H
NFV(310-630)H Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
2018 Page 333
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NFV(310-630)H
NFV(310-630)H Pump Design Data @ 60 Hz 362 series | POWDER METALLURGY + CAST STAGE compression: AR2 CR1* HSG #
Length***
Weight
ft
m
lb
kg
3
6.6
2.0
254
115
4
8.2
2.5
298
135
STG
Head ft
m
64
1119
341
82
1433
437
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
62
4.9
3.7
5.5
4.1
S14 shaft** TBA
62
6.3
4.7
7.0
5.2
TBA
5
9.8
3.0
386
175
99
1731
527
62
7.6
5.7
8.5
6.3
TBA
6
11.5
3.5
430
195
118
2063
629
62
9.1
6.8
10.1
7.5
TBA
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description BOH 2-7/8"-8RD EUE-362SERIES CR0 SPLINE COUPLING 0.55"-0.55" PRT (for FLT. SCMP pumps)
Length ft
Weight kg
Part Number
m
lb
0.68901
0.21
10.143
4.6
2013070049
0.31
0.09
0.5
0.2
3002600140
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage, Vortex crown, radial diffuser Impeller – Powder metallurgy Diffuser– Cast metallurgy Barrel – Powder metallurgy
2018 Page 334
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NF(900-1300)H
nf(900-1300)H Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA nf(900-1300)H, 60 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
604-1359 bpd
96-216 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
105 hp
78 kW
High Strength (S14)
121 hp
90 kW
Ultra High Strength (S16)
137 hp
102 kW
6000 psi
414 bar
Max Housing Burst Pressure Limit
2018 Page 335
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NF(900-1300)H
nf(900-1300)H Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA nf(900-1300)H, 50 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
503-1132 bpd
80-180 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
87 hp
65 kW
High Strength (S14)
101 hp
75 kW
Ultra High Strength (S16)
114 hp
85 kW
6000 psi
414 bar
Max Housing Burst Pressure Limit
2018 Page 336
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NF(900-1300)H
nf(900-1300)H Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
2018 Page 337
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NF(900-1300)H
nf(900-1300)H Pump Design Data @ 60 Hz 362 series | POWDER METALLURGY STAGE compression: AR2 CR1* HSG # 3
Length***
Weight
ft
m
lb
kg
6.6
2.0
165
75
STG 44
Head
Eff., %
ft
m
892
272
65
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
10.6
7.9
10.6
7.9
3002340249 3002340248
4
8.2
2.5
198
90
56
1135
346
65
13.5
10.1
13.5
10.1
5
9.8
3.0
262
119
68
1378
420
65
16.4
12.3
16.4
12.3
3002340247
6
11.5
3.5
300
136
81
1642
500
65
19.6
14.6
19.6
14.6
3002340246
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length
Weight lb
0.68901
0.21
10.143
4.6
0.31
0.09
0.5
0.2
2024010381
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
SPLINE COUPLING 0.55"-0.55" CMP (for CMP pumps)
kg
Part Number
m
BOH 2-7/8"-8RD EUE-362SERIES CR0
ft
2013070049
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage, non Vortex
2018 Page 338
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NF(1300-2000)H
nf(1300-2000)H Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA nf(1300-2000)H, 60 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
1132-1887 bpd
180-300 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
322 hp
240 kW
High Strength (S14)
346 hp
258 kW
Ultra High Strength (S16)
402 hp
300 kW
5547 psi
382 bar
Max Housing Burst Pressure Limit
2018 Page 339
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NF(1300-2000)H
nf(1300-2000)H Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA nf(1300-2000)H, 50 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
943-1572 bpd
150-250 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
268 hp
200 kW
High Strength (S14)
288 hp
215 kW
Ultra High Strength (S16)
335 hp
250 kW
5547 psi
382 bar
Max Housing Burst Pressure Limit
2018 Page 340
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NF(1300-2000)H
nf(1300-2000)H Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
2018 Page 341
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NF(1300-2000)H
nf(1300-2000)H Pump Design Data @ 60 Hz 362 series | cast METALLURGY STAGE compression: AR2 CR1* HSG #
Length***
Weight
ft
m
lb
kg
3
6.6
2.0
165
75
4
8.2
2.5
198
5
9.8
3.0
7
13.1
8
14.8
STG
Head ft
m
42
891
272
90
53
1124
262
119
65
4.0
335
152
4.5
372.6
169
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
60
17.1
12.7
17.1
12.7
3002740216
343
60
21.5
16.1
21.5
16.1
3002740215
1379
420
60
26.4
19.7
26.4
19.7
3002740214
88
1867
569
60
35.8
26.7
35.8
26.7
3002740213
100
2121
647
60
40.6
30.3
40.6
30.3
3002740212
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description BOH 2-7/8"-8RD EUE-362SERIES CR0 SPLINE COUPLING 0.79"-0.79" CMP (for CMP pumps)
Length ft
Weight kg
Part Number
m
lb
0,68901
0,21
10,143
4,6
2013070049
0.31
0.09
0.5
0.2
2024010333
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
2018 Page 342
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NF(2000-3100)H
nf(2000-3100)H (FJI) Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA nf(2000-3100)H, 60 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
1811-3019 bpd
288-480 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
322 hp
240 kW
High Strength (S14)
346 hp
258 kW
Ultra High Strength (S16)
402 hp
300 kW
5547 psi
382 bar
Max Housing Burst Pressure Limit
FJI - Flush Joint Inserted 2018 Page 343
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NF(2000-3100)H
nf(2000-3100)H (FJI) Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
Head
ft 19.7
m 6
Qmin
Qnom
Qmax
Recommended operating range
Head
13.1
4
6.56
2
Eff, % 75
50
Power
Eff 25
0
kW
hp
0.26
0.348
0.13
0.174
Power
0
0
0 0
Capacity
100 600
200 1200
300 1800
0.00 0.000 500 m3/day
400 2400
3000
bpd
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA nf(2000-3100)H, 50 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
4.79 in
121.7 mm
Recommended Operating Range
1509-2515 bpd
240-400 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
268 hp
200 kW
High Strength (S14)
288 hp
215 kW
Ultra High Strength (S16)
335 hp
250 kW
5547 psi
382 bar
Max Housing Burst Pressure Limit
FJI - Flush Joint Inserted 2018 Page 344
> Power Save™ Pumps > NF > NF(2000-3100)H
Power Save™ Pumps Summary
nf(2000-3100)H (FJI) Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
FJI - Flush Joint Inserted 2018 Page 345
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NF(2000-3100)H
nf(2000-3100)H (FJI) Pump Design Data @ 60 Hz 362 series | cast METALLURGY STAGE compression: AR2 CR1* HSG #
Length***
Weight
ft
m
lb
kg
3
6.6
2.0
165
75
4
8.2
2.5
198
90
STG
Head ft
m
25
458
140
32
587
179
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
67
12.2
9.1
12.8
9.5
S14 shaft** 3202140123
67
15.6
11.7
16.4
12.2
3202140122
5
9.8
3.0
262
119
39
715
218
67
19.1
14.2
20.0
14.9
3202140121
7
13.1
4.0
335
152
53
972
296
67
25.9
19.3
27.1
20.2
3202140120
8
14.8
4.5
372.6
169
61
1118
341
67
29.8
22.2
31.2
23.3
3202140119
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length
Weight
ft
m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-362SERIES CR0
0.69
0.21
10.14
4.6
BOH 2-7/8"-8RD EUE-362SERIES CR0 FJI
0.66
0.2
6.99
3.17
2013070049 2013070103
SPLINE COUPLING 0.79"-0.79" CMP (for CMP pumps)
0.31
0.09
0.5
0.2
2024010333
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
FJI - Flush Joint Inserted 2018 Page 346
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NF(2500-4400)H
nf(2500-4400)H (FJI) Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
Head
m
ft
8,53
28
Q min
Qnom
Q max
Recommended operating range
Head
6,40
21
4,26
14
Eff, % 75
50
Power
hp 2,13
7
Eff
0,50
0,35
0,25
Power
25
0
kW
0,70
0,00
0
0 0
1000 150
2000 300
3000 450
4000 600
5000 750
0,00 0,00 bpd m3/day
Capacity
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA nf(2500-4400)H, 60 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
2414-3622 bpd
384-576 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
322 hp
240 kW
High Strength (S14)
346 hp
258 kW
Ultra High Strength (S16)
402 hp
300 kW
5547 psi
382 bar
Max Housing Burst Pressure Limit
FJI - Flush Joint Inserted 2018 Page 347
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NF(2500-4400)H
nf(2500-4400)H (FJI) Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
Head
ft 19.7
m 6
Qmin
Qnom
Qmax
Recommended operating range
Head
13.1
4
6.56
2
Eff, % 75
50
Eff
25
0
Power kW
hp
0.30
0.40
0.15
0.20
Power
0
0
0 0
Capacity
250
500
1000
2000
3000
750 4000
0.00 0.00 m3/day bpd
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA nf(2500-4400)H, 50 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.70 in
119.3 mm
Housing Diameter
4.79 in
121.7 mm
Recommended Operating Range
2012-3019 bpd
320-480 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
268 hp
200 kW
High Strength (S14)
288 hp
215 kW
Ultra High Strength (S16)
335 hp
250 kW
5547 psi
382 bar
Max Housing Burst Pressure Limit
FJI - Flush Joint Inserted 2018 Page 348
> Power Save™ Pumps > NF > NF(2500-4400)H
Power Save™ Pumps Summary
nf(2500-4400)H (FJI) Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
FJI - Flush Joint Inserted 2018 Page 349
Power Save™ Pumps Summary
> Power Save™ Pumps > NF > NF(2500-4400)H
nf(2500-4400)H (FJI) Pump Design Data @ 60 Hz 362 series | cast METALLURGY STAGE compression: AR2 CR1* HSG #
Length***
Weight
ft
m
lb
kg
3
6.6
2.0
165
75
4
8.2
2.5
198
5
9.8
3.0
262
STG
Head ft
m
25
482
147
90
32
617
119
39
752
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
66
16.1
12.0
16.8
12.5
3202210182
188
66
20.7
15.4
21.5
16.0
3202210181
229
66
25.2
18.8
26.2
19.6
3202210180
7
13.1
4.0
335
152
53
1022
311
66
34.2
25.5
35.6
26.6
3202210179
8
14.8
4.5
372.6
169
61
1176
358
66
39.4
29.4
41.0
30.6
3202210178
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length
Weight
ft
m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-362SERIES CR0
0.69
0.21
10.14
4.6
BOH 2-7/8"-8RD EUE-362SERIES CR0 FJI
0.66
0.2
6.99
3.17
2013070049 2013070103
SPLINE COUPLING 0.79"-0.79" CMP (for CMP pumps)
0.31
0.09
0.5
0.2
2024010333
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
FJI - Flush Joint Inserted 2018 Page 350
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NHV(790-1000)H
nHV(790-1000)H Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA nHV(790-1000)H, 60HZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
226-1207 bpd
36-192 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
105 hp
78 kW
High Strength (S14)
121 hp
90 kW
Ultra High Strength (S16)
137 hp
102 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 351
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NHV(790-1000)H
nHV(790-1000)H Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA nHV(790-1000)H, 50 HZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
188-1006 bpd
30-160 m3/day
Shaft Diameter
0.55 in
14 mm
Shaft Cross Sectional Area
0.24 in2
154 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
87 hp
65 kW
High Strength (S14)
101 hp
75 kW
Ultra High Strength (S16)
114 hp
85 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 352
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NHV(790-1000)H
nHV(790-1000)H Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
2018 Page 353
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NHV(790-1000)H
nHV(790-1000)H Pump Design Data @ 60 Hz 406 series | POWDER METALLURGY + CAST STAGE compression: AR2 CR1* HSG # 3
Length***
Weight
STG
ft
m
lb
kg
6.6
2.0
212
96
47
Head ft
m
910
277
Eff., %
BHP, nominal
69
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
7.3
5.5
7.8
5.8
3002142242
4
8.2
2.5
254
115
59
1143
348
69
9.2
6.9
9.8
7.3
3002142241
5
9.8
3.0
298
135
72
1395
425
69
11.2
8.4
11.9
8.9
3002142240
6
11.5
3.5
344
156
84
1627
496
69
13.1
9.8
13.9
10.4
3002142239
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.69
0.21
10.8
4.9
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72
0.22
11.7
5.3
2013070059
SPLINE COUPLING 0.55"-0.55" (for FLT. SCMP pumps)
0.31
0.09
0.5
0.2
TBA
SPLINE COUPLING 0.55"-0.55" (for CMP pumps)
0.31
0.09
0.9
0.4
TBA 2138030003
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
999.355.0050_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030146
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage, Vortex crown, radial diffuser Impeller – Cast metallurgy Diffuser– Cast metallurgy Barrel – Powder metallurgy
2018 Page 354
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(1200-2100)H compression
NH(1200-2100)H Pump Performance Curve compression design 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NH(1200-2100)H compression design, 60 HZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
981-1509 bpd
156-240 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 355
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(1200-2100)H compression
NH(1200-2100)H Pump Performance Curve compression design 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NH(1200-2100)H compression design, 50hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
817-1258 bpd
130-200 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 356
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(1200-2100)H compression
NH(1200-2100)H compression design Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
2018 Page 357
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(1200-2100)H compression
NH(1200-2100)H Pump compression design Design Data @ 60 Hz 406 series | POWDER METALLURGY STAGE compression: AR2 CR1* HSG # 3
Length***
Weight
ft
m
lb
kg
6 .6
2 .0
198
90
STG 41
Head ft
m
1108
338
Eff., % 65
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
15 .5
11 .5
15 .8
11 .8
3202380002
4
8 .2
2 .5
254
115
55
1486
453
65
20 .8
15 .5
21 .2
15 .8
3202380032
5
9 .8
3 .0
298
135
66
1784
544
65
24 .9
18 .6
25 .4
18 .9
3202380003
6
11 .5
3 .5
331
150
77
2081
634
65
29 .1
21 .7
29 .6
22 .1
3202380031
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.69
0.21
10.8
4.9
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72
0.22
11.7
5.3
2013070059
SPLINE COUPLING 0.67"-0.67" PRT (for CMP pumps)
2024010242
0.31
0.09
0.5
0.2
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage, non Vortex
2018 Page 358
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(1500-2500)H compression
NH(1500-2500)H Pump Performance Curve compression design 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NH(1500-2500)H compression design, 60hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
1018-1849 bpd
162-294 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
193 hp
144 kW
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Max Housing Burst Pressure Limit
2018 Page 359
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(1500-2500)H compression
NH(1500-2500)H Pump Performance Curve compression design 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NH(1500-2500)H compression design, 50 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
849-1540 bpd
135-245 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
161 hp
120 kW
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Max Housing Burst Pressure Limit
2018 Page 360
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(1500-2500)H compression
Multi Hz Curve
NH(1500-2500)H compression design Multi Hz Curve (Tornado) Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
2018 Page 361
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(1500-2500)H compression
NH(1500-2500)H Pump compression design Design Data @ 60 Hz 406 series | POWDER METALLURGY STAGE compression: AR2 CR1* HSG # 3
Length***
Weight
ft
m
lb
kg
6 .6
2 .0
198
90
STG 34
Head ft
m
920
281
Eff., % 65
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
16 .0
11 .9
16 .0
11 .9
3002540321
4
8 .2
2 .5
254
115
43
1164
355
65
20 .2
15 .1
20 .2
15 .1
3002540322
5
9 .8
3 .0
298
135
53
1435
437
65
24 .9
18 .6
24 .9
18 .6
3002540323
6
11 .5
3 .5
331
150
63
1705
520
65
29 .6
22 .1
29 .6
22 .1
3002540324
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length
Weight
ft
m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.69
0.210
10.8
4.900
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72
0.22
11.7
5.3
2013070059
SPLINE COUPLING 0.67"-0.67" PRT (for CMP pumps)
2024010242
0.31
0.09
0.5
0.2
999.350.0020_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030003
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage, non Vortex
2018 Page 362
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(2500-3100)H
NH(2500-3100)H Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NH(2500-3100)H, 60 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
1812-3019 bpd
288-480 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
322 hp
240 kW
High Strength (S14)
346 hp
258 kW
Ultra High Strength (S16)
402 hp
300 kW
6000 psi
414 bar
Max Housing Burst Pressure Limit
2018 Page 363
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(2500-3100)H
NH(2500-3100)H Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NH(2500-3100)H, 50 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
1509-2516 bpd
240-400 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
268 hp
200 kW
High Strength (S14)
288 hp
215 kW
Ultra High Strength (S16)
335 hp
250 kW
6000 psi
414 bar
Max Housing Burst Pressure Limit
2018 Page 364
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(2500-3100)H
NH(2500-3100)H Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
2018 Page 365
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(2500-3100)H
NH(2500-3100)H Pump Design Data @ 60 Hz 406 series | cast METALLURGY STAGE compression: AR2 CR1* HSG # 3
Length***
Weight
ft
m
lb
kg
6.6
2.0
198
90
STG 28
Head ft
m
668
204
Eff., % 79
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
14.2
10.6
14.2
10.6
3002551053 3002551052
4
8.2
2.5
254
115
35
835
255
79
17.7
13.2
17.7
13.2
5
9.8
3.0
298
135
43
1026
313
79
21.8
16.3
21.8
16.3
3002551051
7
13.1
4.0
331
150
59
1408
429
79
29.9
22.3
29.9
22.3
3002551050
8
14.8
4.5
430
195
67
1599
487
79
33.9
25.3
33.9
25.3
3002551014
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.69
0.21
10.8
4.9
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72
0.22
11.7
5.3
2013070059
SPLINE COUPLING 0.79"-0.79" PRT (for CMP pumps)
0.31
0.09
0.9
0.4
2024010119
999.355.0050_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030146
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
2018 Page 366
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(2500-3800)H
NH(2500-3800)H Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NH(2500-3800)H, 60 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
2264-3774 bpd
360-600 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
322 hp
240 kW
High Strength (S14)
346 hp
258 kW
Ultra High Strength (S16)
402 hp
300 kW
6000 psi
414 bar
Max Housing Burst Pressure Limit
2018 Page 367
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(2500-3800)H
NH(2500-3800)H Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NH(2500-3800)H, 50 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
1887-3145 bpd
300-500 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
268 hp
200 kW
High Strength (S14)
288 hp
215 kW
Ultra High Strength (S16)
335 hp
250 kW
6000 psi
414 bar
Max Housing Burst Pressure Limit
2018 Page 368
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(2500-3800)H
NH(2500-3800)H Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
2018 Page 369
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(2500-3800)H
NH(2500-3800)H Pump Design Data @ 60 Hz 406 series | cast METALLURGY STAGE compression: AR2 CR1* HSG # 3
Length***
Weight
ft
m
lb
kg
6.6
2.0
198
90
STG
Head ft
m
24
514
157
Eff., % 73
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
16.1
12.0
16.1
12.0
3002700237
4
8.2
2.5
254
115
31
663
202
73
20.7
15.5
20.7
15.5
3002700236
5
9.8
3.0
298
135
38
813
248
73
25.4
19.0
25.4
19.0
3002700235
7
13.1
4.0
386
175
52
1113
339
73
34.8
26.0
34.8
26.0
3002700234
8
14.8
4.5
430
195
59
1263
385
73
39.5
29.5
39.5
29.5
3002700233
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.69
0.21
10.8
4.9
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72
0.22
11.7
5.3
2013070059
SPLINE COUPLING 0.79"-0.79" PRT (for CMP pumps)
0.31
0.09
0.9
0.4
2024010119
999.355.0050_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030146
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
2018 Page 370
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(4400-5000)H
NH(4400-5000)H Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NH(4400-5000)H, 60 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
2642-4529 bpd
420-720 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
434 hp
324 kW
High Strength (S14)
466 hp
348 kW
Ultra High Strength (S16)
531 hp
396 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 371
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(4400-5000)H
NH(4400-5000)H Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NH(4400-5000)H, 50 hZ Maximal ESP System OD (incl. MLE AWG#5, 4kV)
4.91 in
124.8 mm
Housing Diameter
4.06 in
103 mm
Recommended Operating Range
2202-3774 bpd
350-600 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
362 hp
270 kW
High Strength (S14)
389 hp
290 kW
Ultra High Strength (S16)
442 hp
330 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 372
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(4400-5000)H
NH(4400-5000)H Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
2018 Page 373
Power Save™ Pumps Summary
> Power Save™ Pumps > NH > NH(4400-5000)H
NH(4400-5000)H Pump Design Data @ 60 Hz 406 series | cast METALLURGY STAGE compression: AR2 CR1* HSG #
Length***
Weight
ft
m
lb
kg
3
6.6
2.0
198
90
4
8.2
2.5
254
5
9.8
3.0
298
STG
Head ft
m
24
443
135
115
31
573
135
38
702
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
71
17.3
12.9
17.3
12.9
3002211838
175
71
22.3
16.7
22.3
16.7
3002211837
214
71
27.4
20.4
27.4
20.4
3002211836
7
13.1
4.0
386
175
52
961
293
71
37.5
28.0
37.5
28.0
3002211786
8
14.8
4.5
430
195
59
1090
332
71
42.5
31.7
42.5
31.7
3002211835
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.69
0.21
10.8
4.9
2013070055
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72
0.22
11.7
5.3
2013070059
SPLINE COUPLING 0.87"-0.87" PRT (for CMP pumps)
2024010391
0.31
0.09
0.9
0.4
999.355.0050_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030146
PUMP/MOTOR CLAMP 338..449SERIES 5TON
-
-
29.8
13.5
3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
2018 Page 374
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(1900-2500)H
NP(1900-2500)h Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NP(1900-2500)h, 60HZ Maximal ESP System OD (incl. MLE AWG#4, 4kV)
6.04 in
153.5 mm
Housing Diameter
5.35 in
136 mm
Recommended Operating Range
1207-3170 bpd
192-504 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
434 hp
324 kW
High Strength (S14)
466 hp
348 kW
Ultra High Strength (S16)
531 hp
396 kW
4978 psi
343 bar
Max Housing Burst Pressure Limit
2018 Page 375
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(1900-2500)H
NP(1900-2500)h Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NP(1900-2500)h, 50 hZ Maximal ESP System OD (incl. MLE AWG#4, 4kV)
6.04 in
153.5 mm
Housing Diameter
5.35 in
136 mm
Recommended Operating Range
1006-2641 bpd
160-420 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
362 hp
270 kW
High Strength (S14)
389 hp
290 kW
Ultra High Strength (S16)
442 hp
330 kW
4978 psi
343 bar
Max Housing Burst Pressure Limit
2018 Page 376
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(1900-2500)H
NP(1900-2500)h Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
2018 Page 377
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(1900-2500)H
NP(1900-2500)h Pump Design Data @ 60 Hz 535series | POWDER METALLURGY STAGE compression: AR2 CR1* HSG # 2
Length***
Weight
Head
STG
ft
m
lb
kg
4.9
1.5
221
100
29
ft
m
1382
421
Eff., % 67
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
34.3
25.6
35.4
26.4
3002470428
3
6.6
2.0
293
133
40
1907
581
67
47.3
35.3
48.8
36.4
3002470427
4
8.2
2.5
368
167
51
2431
741
67
60.3
45.0
62.2
46.4
3002470426
5
9.8
3.0
441
200
62
2955
901
67
73.4
54.7
75.6
56.4
3002470425
6
11.5
3.5
518
235
75
3575
1090
67
88.7
66.2
91.5
68.3
3002470424
7
13.1
4.0
595
270
86
4100
1250
67
101.8
75.9
104.9
78.3
3002470423
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 3-1/2"-8RD EUE-535SERIES CR0
0.66
0.2
18.5
8.4
2013070056
SPLINE COUPLING 0.87"-0.87" PRT (for CMP pumps)
0.31
0.09
0.5
0.2
2024010340
Installation kit for 535 series Pump - FLT, SCMP. CR0
-
-
-
-
TBA
999.375.0010_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030016
PUMP/MOTOR CLAMP 535..562SERIES 5TON
-
-
46.1
20.9
3020010009
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage, non Vortex
2018 Page 378
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(3100-4400)H
NP(3100-4400)h Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NP(3100-4400)h, 60 hZ Maximal ESP System OD (incl. MLE AWG#4, 4kV)
6.04 in
153.5 mm
Housing Diameter
5.35 in
136 mm
Recommended Operating Range
2113-5434 bpd
336-864 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
434 hp
324 kW
High Strength (S14)
466 hp
348 kW
Ultra High Strength (S16)
531 hp
396 kW
4978 psi
343 bar
Max Housing Burst Pressure Limit
2018 Page 379
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(3100-4400)H
NP(3100-4400)h Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NP(3100-4400)h, 50 hZ Maximal ESP System OD (incl. MLE AWG#4, 4kV)
6.04 in
153.5 mm
Housing Diameter
5.35 in
136 mm
Recommended Operating Range
1761-4528 bpd
280-720 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
362 hp
270 kW
High Strength (S14)
389 hp
290 kW
Ultra High Strength (S16)
442 hp
330 kW
4978 psi
343 bar
Max Housing Burst Pressure Limit
2018 Page 380
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(3100-4400)H
NP(3100-4400)h Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
2018 Page 381
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(3100-4400)H
NP(3100-4400)h Pump Design Data @ 60 Hz 535 series | POWDER METALLURGY STAGE compression: AR2 CR1* HSG # 2
Length***
Weight
ft
m
lb
kg
4.9
1.5
143
65
Head
STG
ft
m
20
939
286
Eff., % 66
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
37.8
28.2
37.8
28.2
3002890618
3
6.6
2.0
203
92
27
1268
386
66
51.0
38.0
51.0
38.0
3002890617
4
8.2
2.5
287
130
34
1597
487
66
64.2
47.9
64.2
47.9
3002890616
5
9.8
3.0
375
170
43
2019
615
66
81.2
60.6
81.2
60.6
3002890615
6
11.5
3.5
529
240
50
2348
716
66
94.4
70.5
94.4
70.5
3002890614
7
13.1
4.0
706
320
58
2724
830
66
109.5
81.7
109.5
81.7
3002890613
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 3-1/2"-8RD EUE-535SERIES CR0
0.66
0.2
18.5
8.4
2013070056
SPLINE COUPLING 0.87"-0.87" PRT (for CMP pumps)
0.31
0.09
0.5
0.2
2024010340
Installation kit for 535 series Pump - FLT, SCMP. CR0
-
-
-
-
TBA
999.375.0010_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030016
PUMP/MOTOR CLAMP 535..562SERIES 5TON
-
-
46.1
20.9
3020010009
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Pancake stage, non Vortex
2018 Page 382
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(4400-5700)H
NP(4400-5700)H Pump Performance Curve 60 Hz /3490 rpm
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
Head
m
ft
24.4
80
Qmax
Qnom
Qmin
Recommended operating range
21.3
70
Head 18.3
60
15.2
50
12.2
40
75
9.1
30
50
6.1
20
Eff, %
Power
Eff 25
3.0
10
Power 0
0.0
0
0 0
Capacity
2000 200
4000 400
6000 600
8000 800
10000
hp
kW
3.0
2.24
1.5
1.12
0.0 0.00 bpd m3/day
1000
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NP(4400-5700)H, 60 hZ Maximal ESP System OD (incl. MLE AWG#4, 4kV)
6.04 in
153.5 mm
Housing Diameter
5.35 in
136 mm
Recommended Operating Range
3397-6038 bpd
540-960 m3/day
Shaft Diameter
1.181 in
30 mm
Shaft Cross Sectional Area
1.095 in2
707 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
1110 hp
828 kW
High Strength (S14)
1198 hp
894 kW
Ultra High Strength (S16)
1375 hp
1026 kW
6000 psi
414 bar
Max Housing Burst Pressure Limit
2018 Page 383
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(4400-5700)H
NP(4400-5700)H Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NP(4400-5700)H, 50 hZ Maximal ESP System OD (incl. MLE AWG#4, 4kV)
6.04 in
153.5 mm
Housing Diameter
5.35 in
136 mm
Recommended Operating Range
2830-5031 bpd
450-800 m3/day
Shaft Diameter
1.181 in
30 mm
Shaft Cross Sectional Area
1.095 in2
707 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
925 hp
690 kW
High Strength (S14)
998 hp
745 kW
Ultra High Strength (S16)
1146 hp
855 kW
6000 psi
414 bar
Max Housing Burst Pressure Limit
2018 Page 384
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(4400-5700)H
NP(4400-5700)H Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
2018 Page 385
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(4400-5700)H
NP(4400-5700)H Pump Design Data @ 60 Hz 535 series | cast METALLURGY STAGE compression: AR2 CR1* HSG # 2
Length***
Weight
ft
m
lb
kg
4.9
1.5
143
65
STG
Head ft
m
21
1142
348
Eff., % 69
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
59.1
44.1
60.4
45.1
3002520149 3002520148
3
6.6
2.0
221
100
30
1631
497
69
84.4
63.0
86.3
64.4
4
8.2
2.5
368
167
39
2121
646
69
109.7
81.9
112.2
83.7
3002520147
5
9.8
3.0
441
200
48
2610
796
69
135.0
100.7
138.0
103.0
3002520146
6
11.5
3.5
518
235
57
3100
945
69
160.3
119.6
163.9
122.3
3002520145
7
13.1
4.0
595
270
66
3589
1094
69
185.6
138.5
189.8
141.6
3002520144
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 3-1/2"-8RD EUE-535SERIES CR0
0.66
0.2
18.5
8.4
2013070056
SPLINE COUPLING 1.18"-1.18" (for CMP pumps)
0.31
0.09
0.5
0.2
2024010560
999.375.0010_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030016
PUMP/MOTOR CLAMP 535..562SERIES 5TON
-
-
46.1
20.9
3020010009
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
2018 Page 386
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(4700-6300)H
NP(4700-6300)h Pump Performance Curve 60 Hz /3490 rpm
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NP(4700-6300)h, 60 hZ Maximal ESP System OD (incl. MLE AWG#4, 4kV)
6.04 in
153.5 mm
Housing Diameter
5.35 in
136 mm
Recommended Operating Range
4151-6793 bpd
660-1080 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
434 hp
324 kW
High Strength (S14)
466 hp
348 kW
Ultra High Strength (S16)
531 hp
396 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 387
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(4700-6300)H
NP(4700-6300)h Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NP(4700-6300)h, 50 hZ Maximal ESP System OD (incl. MLE AWG#4, 4kV)
6.04 in
153.5 mm
Housing Diameter
5.35 in
136 mm
Recommended Operating Range
3459-5660 bpd
550-900 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
362 hp
270 kW
High Strength (S14)
389 hp
290 kW
Ultra High Strength (S16)
442 hp
330 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 388
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(4700-6300)H
NP(4700-6300)h Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
2018 Page 389
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(4700-6300)H
NP(4700-6300)h Pump Design Data @ 60 Hz 535 series | cast METALLURGY STAGE compression: AR2 CR1* HSG # 2
Length***
Weight
ft
m
lb
kg
4.9
1.5
143
65
STG 13
Head ft
m
507
154
Eff., % 78
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
27.0
20.1
27.5
20.6
3002580351
3
6.6
2.0
203
92
18
702
214
78
37.4
27.9
38.1
28.5
3002580350
4
8.2
2.5
287
130
23
896
273
78
47.7
35.6
48.7
36.4
3002580349 3002580348
5
9.8
3.0
375
170
29
1130
345
78
60.2
44.9
61.4
45.9
6
11.5
3.5
529
240
34
1325
404
78
70.6
52.7
72.0
53.8
3002580347
7
13.1
4.0
706
320
39
1520
463
78
80.9
60.4
82.6
61.7
3002580346
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 3-1/2"-8RD EUE-535SERIES CR0
0.66
0.2
18.5
8.4
2013070056
SPLINE COUPLING 0.87"-0.87" PRT (for CMP pumps)
0.31
0.09
0.5
0.2
2024010340
999.375.0010_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030016
PUMP/MOTOR CLAMP 535..562SERIES 5TON
-
-
46.1
20.9
3020010009
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
2018 Page 390
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(7900-10100)H
NP(7900-10100)h Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NP(7900-10100)h, 60 hZ Maximal ESP System OD (incl. MLE AWG#4, 4kV)
6.04 in
153.5 mm
Housing Diameter
5.35 in
136 mm
Recommended Operating Range
5284-9812 bpd
840-1560 m3/day
Shaft Diameter
0.98 in
25 mm
Shaft Cross Sectional Area
0.76 in2
491 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
635 hp
474 kW
High Strength (S14)
683 hp
510 kW
Ultra High Strength (S16)
788 hp
588 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 391
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(7900-10100)H
NP(7900-10100)h Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NP(7900-10100)h, 50 hZ Maximal ESP System OD (incl. MLE AWG#4, 4kV)
6.04 in
153.5 mm
Housing Diameter
5.35 in
136 mm
Recommended Operating Range
4402-8176 bpd
700-1300 m3/day
Shaft Diameter
0.98 in
25 mm
Shaft Cross Sectional Area
0.76 in2
491 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
529 hp
395 kW
High Strength (S14)
570 hp
425 kW
Ultra High Strength (S16)
657 hp
490 kW
4978 psi
343 bar
Max Housing Burst Pressure Limit
2018 Page 392
> Power Save™ Pumps > NP > NP(7900-10100)H
Power Save™ Pumps Summary
NP(7900-10100)h Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
2018 Page 393
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(7900-10100)H
NP(7900-10100)h Pump Design Data @ 60 Hz 535 series | cast METALLURGY STAGE compression: AR2 CR1* HSG # 2
Length***
Weight
ft
m
lb
kg
4.9
1.5
154
70
STG 12
Head ft
m
505
154
Eff., % 73
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
38.5
28.7
39.0
29.1
3002350686
3
6.6
2.0
232
105
18
757
231
73
57.7
43.0
58.6
43.7
3002350685
4
8.2
2.5
298
135
23
967
295
73
73.7
55.0
74.8
55.8
3002350684
5
9.8
3.0
375
170
28
1177
359
73
89.7
67.0
91.1
68.0
3002350683
6
11.5
3.5
452
205
33
1388
423
73
105.8
78.9
107.4
80.1
3002350682
7
13.1
4.0
529
240
39
1640
500
73
125.0
93.3
126.9
94.7
3002350681
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 3-1/2"-8RD EUE-535SERIES CR0
0.66
0.2
18.5
8.4
2013070056
SPLINE COUPLING 0.98"-0.98" (for CMP pumps)
0.31
0.09
0.5
0.2
2024010536
999.375.0010_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030016
PUMP/MOTOR CLAMP 535..562SERIES 5TON
-
-
46.1
20.9
3020010009
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
2018 Page 394
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(11300-15100)H
NP(11300-15100)h Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
Head
m 18.3
ft 60
Qnom
Qmin
535 series / OD 136 mm
Qmax
Recommended operating range
Eff, %
Head
75
13.7
45
50
9.1
30
Power
hp
Eff
25
0
4.6
0.0
15
5.960
4.00
2.980
Power
0.00 0.000 20000 bpd
0 0 0
kW
8.00
5000 500
10000 1000
1500
15000 2000
2500
3000
Capacity
m3/day
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NP(11300-15100)h, 60 hZ Maximal ESP System OD (incl. MLE AWG#4, 4kV)
6.04 in
153.5 mm
Housing Diameter
5.35 in
136 mm
Recommended Operating Range
9058-15094 bpd
1440-2400 m3/day
Shaft Diameter
1.18 in
30 mm
Shaft Cross Sectional Area
1.09 in2
707 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
1110 hp
828 kW
High Strength (S14)
1198 hp
894 kW
Ultra High Strength (S16)
1375 hp
1026 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 395
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(11300-15100)H
NP(11300-15100)h Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NP(11300-15100)h, 50 hZ Maximal ESP System OD (incl. MLE AWG#4, 4kV)
6.04 in
153.5 mm
Housing Diameter
5.35 in
136 mm
Recommended Operating Range
7547-12578 bpd
1200-2000 m3/day
Shaft Diameter
1.18 in
30 mm
Shaft Cross Sectional Area
1.09 in2
707 mm2
CW
Rotational Direction
Shaft Power Limit
Standard (S13)
925 hp
690 kW
High Strength (S14)
998 hp
745 kW
Ultra High Strength (S16)
1146 hp
855 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 396
> Power Save™ Pumps > NP > NP(11300-15100)H
Power Save™ Pumps Summary
NP(11300-15100)h Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
2018 Page 397
Power Save™ Pumps Summary
> Power Save™ Pumps > NP > NP(11300-15100)H
NP(11300-15100)h Pump Design Data @ 60 Hz 535 series | cast METALLURGY STAGE compression: AR2 CR1* HSG # 2
Length***
Weight
ft
m
lb
kg
4.9
1.5
154
70
STG
Head ft
m
10
453
138
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S14 shaft**
79
51.2
38.2
55.3
41.2
3202120350
3
6.6
2.0
232
105
15
680
207
79
76.8
57.3
82.9
61.9
3202120349
4
8.2
2.5
368
167
19
861
262
79
97.3
72.6
105.0
78.4
3202120348
5
9.8
3.0
441
200
23
1042
318
79
117.8
87.9
127.1
94.9
3202120347
6
11.5
3.5
518
235
28
1269
387
79
143.4
107.0
154.8
115.5
3202120346
7
13.1
4.0
595
270
32
1450
442
79
163.9
122.3
176.9
132.0
3202120345
*CR2, CR3 and UCR configurations are available. **S16 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.2ft (0.365m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 3-1/2"-8RD EUE-535SERIES CR0
0.66
0.2
18.5
8.4
2013070056
SPLINE COUPLING 1.18"-1.18" (for CMP pumps)
0.31
0.09
0.5
0.2
2024010560
999.375.0010_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030016
PUMP/MOTOR CLAMP 535..562SERIES 5TON
-
-
46.1
20.9
3020010009
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
2018 Page 398
Power Save™ Pumps Summary
> Power Save™ Pumps > NR > NR(10000-11300)H
NR(10000-11300)H Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NR(10000-11300)H, 60 hZ Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.29 in
210.5 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
8301-14339 bpd
1320-2280 m3/day
Shaft Diameter
1.18 in
30 mm
Shaft Cross Sectional Area
1.10 in2
707 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1110 hp
828 kW
Medium Strength (S11)
1198 hp
894 kW
Standard (S13)
1375 hp
1026 kW
4831 psi
333 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only.
2018 Page 399
Power Save™ Pumps Summary
> Power Save™ Pumps > NR > NR(10000-11300)H
NR(10000-11300)H Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
Eff, %
Power kW
hp
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NR(10000-11300)H, 50 hZ Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.29 in
210.5 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
6918-11949 bpd
1100-1900 m3/day
Shaft Diameter
1.18 in
30 mm
Shaft Cross Sectional Area
1.10 in2
707 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
925 hp
690 kW
Medium Strength (S11)
998 hp
745 kW
Standard (S13)
1146 hp
855 kW
4831 psi
333 bar
Housing Burst Pressure Limit
Unlike other pump series, NR and NT series pumps are available with straight-sided shaft splines only.
2018 Page 400
> Power Save™ Pumps > NR > NR(10000-11300)H
Power Save™ Pumps Summary
NR(10000-11300)H Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
2018 Page 401
Power Save™ Pumps Summary
> Power Save™ Pumps > NR > NR(10000-11300)H
NR(10000-11300)H Pump Design Data @ 60 Hz 677 series | cast METALLURGY STAGE compression: AR2 CR1* HSG #
Length***
Weight
Head
STG
ft
m
lb
kg
ft
m
2
4.9
1.5
198
90
651
199
3
6.6
2.0
265
120
4
8.2
2.5
342
155
13
941
17
1230
5
9.8
3.0
386
175
21
1520
9
Eff., %
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S8 shaft**
76
75.9
56.6
80.6
60.2
3002290093
287
76
109.6
81.8
116.5
86.9
3002290094
375
76
143.3
106.9
152.3
113.7
3002290095
463
76
177.0
132.1
188.2
140.4
3002290096
6
11.5
3.5
452
205
25
1809
552
76
210.7
157.2
224.0
167.2
3002290097
7
13.1
4.0
562
255
29
2099
640
76
244.4
182.4
259.9
193.9
3002290085
*CR2, CR3 and UCR configurations are available. **S11 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.3ft (0.405m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 4-1/2"-8RD EUE-677SERIES CR0
0.62
0.19
7.7
3.5
2013070045
SPLINE COUPLING 1.18"STR-1.18"STR (for CMP pumps)
0.31
0.09
0.5
0.2
2024010560
999.380.0040_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030155
PUMP/MOTOR CLAMP 677SERIES 7TON
-
-
48.1
21.8
3020020001
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
2018 Page 402
Power Save™ Pumps Summary
> Power Save™ Pumps > NR > NR(12600-15700)H
NR(12600-15700)H Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NR(12600-15700)H, 60 hZ Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.29 in
210.5 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
10567-19625 bpd
1680-3120 m3/day
Shaft Diameter
1.38 in
35 mm
Shaft Cross Sectional Area
1.49 in2
962 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1914 hp
1428 kW
Medium Strength (S11)
2061 hp
1538 kW
Standard (S13)
2356 hp
1758 kW
4831 psi
333 bar
Max Housing Burst Pressure Limit
Involute shaft splines
2018 Page 403
Power Save™ Pumps Summary
> Power Save™ Pumps > NR > NR(12600-15700)H
NR(12600-15700)H Pump Performance Curve 50 Hz / 2910 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NR(12600-15700)H, 50 hZ Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.29 in
210.5 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
8805-16351 bpd
1400-2600 m3/day
Shaft Diameter
1.38 in
35 mm
Shaft Cross Sectional Area
1.49 in2
962 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1595 hp
1190 kW
Medium Strength (S11)
1718 hp
1282 kW
Standard (S13)
1963 hp
1465 kW
4831 psi
333 bar
Max Housing Burst Pressure Limit
Involute shaft splines
2018 Page 404
> Power Save™ Pumps > NR > NR(12600-15700)H
Power Save™ Pumps Summary
NR(12600-15700)H Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
2018 Page 405
Power Save™ Pumps Summary
> Power Save™ Pumps > NR > NR(12600-15700)H
NR(12600-15700)H Pump Design Data @ 60 Hz 677 series | cast METALLURGY STAGE compression: AR2 CR1* HSG # 2
Length***
Weight
ft
m
lb
kg
4.9
1.5
198
90
STG 9
Head ft
m
591
180
Eff., % 75
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S8 shaft**
87.9
65.6
88.6
66.1
3002300057
3
6.6
2.0
265
120
13
854
260
75
127.0
94.8
127.9
95.5
3002300058
4
8.2
2.5
342
155
17
1116
340
75
166.1
124.0
167.3
124.8
3002300059 3002300060
5
9.8
3.0
386
175
21
1379
420
75
205.2
153.1
206.7
154.2
6
11.5
3.5
452
205
25
1642
500
75
244.3
182.3
246.0
183.6
3002300061
7
13.1
4.0
562
255
29
1904
580
75
283.4
211.5
285.4
213.0
3002300062
*CR2, CR3 and UCR configurations are available. **S11 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.3ft (0.405m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 4-1/2"-8RD EUE-677SERIES CR0
0.62
0.19
7.7
3.5
2013070045
SPLINE COUPLING 1.38"-1.38" (for CMP pumps)
0.31
0.09
0.5
0.2
2024010503
999.380.0040_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030155
PUMP/MOTOR CLAMP 677SERIES 7TON
-
-
48.1
21.8
3020020001
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
2018 Page 406
Power Save™ Pumps Summary
> Power Save™ Pumps > NR > NR(15700-19000)H
NR(15700-19000)H Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NR(15700-19000)H, 60 HZ Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.29 in
210.5 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
12832-27173 bpd
2040-4320 m3/day
Shaft Diameter
1.38 in
35 mm
Shaft Cross Sectional Area
1.49 in2
962 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1914 hp
1428 kW
Medium Strength (S11)
2066 hp
1542 kW
Standard (S13)
2356 hp
1758 kW
4831 psi
333 bar
Max Housing Burst Pressure Limit
Involute shaft splines
2018 Page 407
Power Save™ Pumps Summary
> Power Save™ Pumps > NR > NR(15700-19000)H
NR(15700-19000)H Pump Performance Curve 50 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA NR(15700-19000)H, 50 hZ Maximal ESP System OD (incl. MLE AWG#2, 4kV)
8.29 in
210.5 mm
Housing Diameter
6.77 in
172 mm
Recommended Operating Range
10691-22640 bpd
1700-3600 m3/day
Shaft Diameter
1.38 in
35 mm
Shaft Cross Sectional Area
1.49 in2
962 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
1595 hp
1190 kW
Medium Strength (S11)
1722 hp
1285 kW
Standard (S13)
1963 hp
1465 kW
4831 psi
333 bar
Max Housing Burst Pressure Limit
Involute shaft splines
2018 Page 408
> Power Save™ Pumps > NR > NR(15700-19000)H
Power Save™ Pumps Summary
NR(15700-19000)H Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
677 series / OD 172 mm
2018 Page 409
Power Save™ Pumps Summary
> Power Save™ Pumps > NR > NR(15700-19000)H
NR(15700-19000)H Pump Design Data @ 60 Hz 677 series | cast METALLURGY STAGE compression: AR2 CR1* HSG # 2
Length**
Weight
ft
m
lb
kg
4.9
1.5
198
90
STG
Head ft
m
8
489
149
Eff., % 74
BHP, nominal
BHP, max
Part Number
hp
kW
hp
kW
S8 shaft**
91.9
68.6
96.7
72.2
3002310018
3
6.6
2.0
265
120
12
734
224
74
137.8
102.9
145.0
108.2
3002310019
4
8.2
2.5
342
155
15
917
280
74
172.3
128.6
181.3
135.3
3002310020 3002310021
5
9.8
3.0
386
175
19
1162
354
74
218.2
162.8
229.7
171.4
6
11.5
3.5
452
205
23
1406
429
74
264.2
197.1
278.0
207.5
3002310016
7
13.1
4.0
562
255
26
1589
484
74
298.6
222.8
314.3
234.5
3002310023
*CR2, CR3 and UCR configurations are available. **S11 shafts are available. Please refer to section ESP Selection Guide to choose appropriate shaft strength. ***Indicated length is for housing only, for full length please add head and base dimensions: 1.3ft (0.405m).
Pump accessories Description
Length ft
Weight m
lb
kg
Part Number
BOH 4-1/2"-8RD EUE-677SERIES CR0
0.62
0.19
7.7
3.5
2013070045
SPLINE COUPLING 1.38"-1.38" (for CMP pumps)
0.31
0.09
0.5
0.2
2024010503
999.380.0040_INSTALLATION PARTS KIT. CR0
-
-
-
-
2138030155
PUMP/MOTOR CLAMP 677SERIES 7TON
-
-
48.1
21.8
3020020001
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
Stage design - Mixed flow, non Vortex
2018 Page 410
> Rotary Displasеment Cylindrical Pumps
GLOSSARY Rotary Displacement Cylindrical Pump N
XXX
RDCP
XX
XXX
XXX
XXX
XXXSTG Manufacturer (Novomet) Series, (see Table 1) Pump design: RDCP - Rotary Displacement Cylindrical Pump Capacity, bpd @ rated speed of 750 rpm Abrasion resistance, (see Table 2) Corrosion resistance, (see Table 3) Shaft material and yield strength: S14 - Stainless steel (1370 MPa) S16 - Stainless steel (1570 MPa) Number of stages in a pump
e.g., N362RDCP63 AR1 CR0 S14 227STG
Table 1 - Series
Series 362
HSG OD, in 3.62
HSG OD, mm 92
Table 2 - Abrasion resistance
Abbr.
Full name
Description
AR1
Abrasion Resistant 1
For fluid containing solids up to 175 ptb (500 mg/l).
Table 3 - Corrosion resistance
Abbr.
CR0
Full name
Fluid
Max chemical content, g/l Cl H2S CO2
Corrosion Slightly aggressive 0.01 Resistant 0 fluid
0.01
20
pH
Description
5.0..8.5
Pump stages, housing, head and base are from Carbon Steel
2018 Page 411
> Rotary Displasеment Cylindrical Pumps
Rotary Displacement Pump specification Nomenclature
Length
Weight
Housing diameter in mm
ft
m
lb
kg
N362RDCP63 AR1 CR0 S14 53STG
7.8
2.4
143.325
65
3.62
Shaft diameter
Part Number
in
mm
92
0.79
20
TBA
N362RDCP63 AR1 CR0 S14 68STG
9.4
2.9
255.78
116
3.62
92
0.79
20
TBA
N362RDCP63 AR1 CR0 S16 53STG
7.8
2.4
143.325
65
3.62
92
0.79
20
TBA
N362RDCP63 AR1 CR0 S16 68STG
9.4
2.9
255.78
116
3.62
92
0.79
20
TBA
2018 Page 412
> Rotary Displasеment Cylindrical Pumps > N362RDCP63
N362RDCP63 Pump Performance Curve 750 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
Head
m 46
ft 150
Qmin
Qnom
Qmax
Recommended operating range
Eff, % 50
30
100
Head
25
15
50
Power Eff Power
0
0
0
0 0
Capacity
25
50
150
75
300
100
450
600
hp
kW
0.30
0,22
0.15
0.11
0.00 0.00 bpd m3/day
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA N362RDCP63, 750 rpm Maximal ESP System OD (incl. MLE AWG#2, 4kV)
4.70 in
119.3 mm
Housing Diameter
3.62 in
92 mm
Recommended Operating Range
50-88 bpd
8-14 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
CW
Rotational Direction
Shaft Power Limit
Low Strength (S8)
N/A
N/A
Medium Strength (S11)
59 hp
44 kW
Standard (S13)
N/A
N/A
5547 psi
382 bar
Max Housing Burst Pressure Limit
Involute shaft splines
2018 Page 413
> Rotary Displasеment Cylindrical Pumps > N362RDCP63
N362RDCP63 Pump Performance Curve Multi Hz Curve
ft
60
200
30
100
362 series / OD 92 mm
1000 rpm
Power
Head
(m)
Curve is calculated for one stage on water of 1.00 sg
(KW)
hp
0.6
0.8
0.3
0.4
750 rpm
1000 rpm
750 rpm
0 0
Capacity
50 5
100 10
15
150 20
BPD (m3/day)
2018 Page 414
> Rotary Displasеment Cylindrical Pumps > N362RDCP63
N362RDCP63 Pump Design Data @ 750 rpm 362 series | ROLLED STEEL STAGE Pump accessories Description BOH 2-7/8"-8RD EUE-362SERIES CR0 BOH 3-1/2"-8RD EUE-362SERIES CR0 SPLINE COUPLING 0.78"-0.78" PRT (for FLT, SCMP pumps) 999.350.0030_INSTALLATION PARTS KIT. CR0 PUMP/MOTOR CLAMP 338..449SERIES 5TON
Length ft m 0.62 0.19 0.62 0.19 0.31 0.09 -
Weight lb kg 7.1 3.2 7.7 3.6 0.5 0.2 29.8 13.5
Part Number 2013070032 2013070017 2024010119 2138030006 3020010007
All '8rd EUE' threaded components are also available in '10rd NUE' configuration
2018 Page 415
> Downhole Equipment > Intake Devices > Intake
GLOSSARY INTAKE N
XXX
I
X
XXXH/XXXB
XXX
XXX
X.XX"
XXX
Intake Manufacturer (Novomet) Series, (see Table 1) Intake empty - standard Intake F - modification for slotted Filter intake G - gas preventing intake (Gravitation type) Intake flange connection size: XXXH - Intake Head series (for pump connection) XXXB - Intake Base series (for protector connection) Corrosion resistance, (see Table 2) Flange connection design: empty - standard flange-to-housing FJI - Flush joint inserted FJT - Flush joint threaded Shaft diameter, inches Shaft material strength: S13 - Stainless steel (1275 MPa) S14 - Stainless steel (1370 MPa) S16 - Stainless steel (1570 MPa) M8 - Monel alloy (785 MPa) I13 - Inconel alloy (1275 MPa) I14 - Inconel alloy (1370 MPa)
e.g., N362I 362H/362B CR1 0.67" S13
Table 1 - Series
Series 272 319 338 362 406 449 484 535 677 740
HSG OD, in 2.72 3.19 3.38 3.62 4.06 4.49 4.84 5.35
HSG OD, mm 69 81 86 92 103 114 123 136 Integrated into pump Integrated into pump
2018 Page 416
> Downhole Equipment > Intake Devices > Intake Table 2 - Corrosion resistance
Max chemical content, g/l CO2 Cl H2S
Abbr.
Full name
Fluid
pH
Description
CR1
Corrosion Resistant 1
Moderately aggressive fluid
0.01 1.25
1.45 0.01
200
Housing and flow path parts are from 4.0..8.5 Carbon Steel. Head and base are from Carbon Steel
CR3
Corrosion Resistant 3
Highly aggressive fluid
1.25
1.45
200
3.0..9.0 Stainless Steel housing, head and base
UCR
Ultra Corrosion Extremely aggres>1.25 Resistant sive fluid
1.45
200
3.0..9.0
Materials resistant to Sulfide Stress Cracking are used for housing, head and base.
INTAKE SPECIFICATION Nomenclature N272I 272H/272B CR1 0.50" S14 N272I 272H/272B CR1 FJI 0.50" S14 N319I 319H/319B CR1 0.55" S14 N319I 319H/319B CR1 0.67" S14 N319I 319H/319B FJT CR1 0.67" S14 N319IG 319H/319B CR1 0.67" S14 N338I 338H/338B CR1 0.67" S14 N362I 362H/362B CR1 0.79" S14 N362I 362H/362B CR1 0.79" FJI S14 N362IF 362H/362B CR1 0.79" S14 N362G 362H/362B CR1 0.79" S14 N406I 406H/406B CR1 0.87" S14 N406I 406H/406B CR1 0.98" S14 N406IF 406H/406B CR1 0.87" S14 N406IG 406H/406B CR1 0.87" S14 N449I 449H/449B CR1 0.98" S14 N449I 449H/449B CR1 1.18" S14 N535I 535H/535B CR1 1.18" S14
Installation Length ft m
0.78 0.78 0.78 0.78 0.78 2.99 0.77 0.93 0.93 0.93 2.97 0.93 0.93 0.93 2.97 1.05 1.05 1.21
0.238 0.238 0.238 0.238 0.238 0.910 0.235 0.283 0.283 0.283 0.905 0.283 0.283 0.283 0.905 0.320 0.320 0.370
Weight lb
kg
11.0 11.0 13.2 13.2 13.2 54.0 13.2 19.8 19.8 19.8 63.1 24.3 24.3 24.3 81.8 33.1 33.1 55.1
5.0 5.0 6.0 6.0 6.0 24.5 6.0 9.0 9.0 9.0 28.6 11.0 11.0 11.0 37.1 15.0 15.0 25.0
Housing diameter in mm
2.72 2.72 3.19 3.19 3.19 3.19 3.38 3.62 3.62 3.62 3.62 4.06 4.06 4.06 4.06 4.60 4.60 5.35
69 69 81 81 81 81 86 92 92 92 92 103 103 103 103 117 117 136
Shaft Flow rate of diameter single phase fluid Part Number in mm bpd m3/day
0.50 12.8 630 0.50 12.8 630 0.55 14 1900 0.67 17 1900 0.67 17 1900 0.67 17 1500 0.67 17 2500 0.79 20 5000 0.79 20 5000 0.79 20 5000 0.79 20 2200 0.87 22 6300 0.98 25 6300 0.87 22 6300 0.87 22 2500 0.98 25 9400 1.18 30 9400 1.18 30 9400
100 100 300 300 300 240 400 800 800 800 350 1000 1000 1000 400 1500 1500 1500
3003090003 3003090009 3003070005 3003070010 3003070046 3003070018 3003060015 3003010133 3003010216 3003010161 3003030093 3003020208 3003020073 3003020272 3003030089 3003030049 3003030046 3003080019
2018 Page 417
> Downhole Equipment > Intake Devices > Gas Separator
GLOSSARY Gas Separator N
XXX
GS
XXXX
DESX
XXX
XXX
X.XX"
XXX Manufacturer (Novomet) Series, (see Table 1) Gas Separator Nominal capacity, bpd @60Hz Design: DES0 - Screw, paddle-wheels, cavitation inducer DES1 - Radial bearings in head/base, screw, paddlewheels, cavitation inducer DES2 - Radial bearings in head/base, helicoidal inducer and axial stage DES3 - Radial bearings in head/base, helicoidal inducer DES4 - Vortex type. Radial bearings in head/base, helicoidal inducer and vortex chamber. Abrasion resistance,
(see Table 2)
Corrosion resistance,
(see Table 3)
Shaft diameter, inches Shaft material strength: S14 - Stainless steel (1370 MPa) S16 - Stainless steel (1570 MPa) M8 - Monel alloy (785 MPa) I13 - Inconel alloy (1275 MPa) I14 - Inconel alloy (1370 MPa)
e.g., N406GS3800 DES2 AR2 CR3 0.87" S14
Table 1 - Series
Series
HSG OD. in
HSG OD. mm
272
2.72
69
319
3.19
81
338
3.38
86
362
3.62
92
406 449 535
4.06 4.49 5.35
103 114 136
Table 2 - Abrasion resistance
Abbr.
Full name
Description
AR1
Abrasion Resistant 1
For fluid containing solids up to 175 ptb (500 mg/l)
AR2
Abrasion Resistant 2
For fluid containing solids up to 350 ptb (1000 mg/l)
2018 Page 418
> Downhole Equipment > Intake Devices > Gas Separator
Table 3 - Corrosion resistance
Max chemical content. g/l CO2 Cl H2S
Abbr.
Full name
Fluid
pH
Description
CR1
Corrosion Resistant 1
Moderately aggressive fluid
0.01 1.25
1.45 0.01
200
Housing and flow path parts are from 4.0..8.5 Carbon Steel. Head and base are from Carbon Steel.
CR3
Corrosion Resistant 3
Highly aggressive fluid
1.25
1.45
200
3.0..9.0 Stainless Steel housing, head and base.
UCR
Ultra Corrosion Extremely aggres>1.25 Resistant sive fluid
1.45
200
3.0..9.0
Materials resistant to Sulfide Stress Cracking are used for housing, head and base.
gas separator SPECIFICATION
Description
Installation length ft
m
Weight lb
kg
Nominal flow rate of single phase fluid bpd @ m3/day @ mm 60 Hz 50 Hz
Housing Shaft diameter diameter in
mm
in
Part Number
N272GS750 DES2 AR2 CR1 0.50'' S14
2.42 0.737 44.1 20.0 2.72 69 0.50 12.8
750
100
3008070003
N272GS750 DES2 AR2 CR1 0.50'' S16
2.42 0.737 44.1 20.0 2.72 69 0.50 12.8
750
100
TBA
N272GS750 DES2 AR2 CR1 0.50'' S14 FJI
2.73 0.832 44.1 20.0 2.72 69 0.50 12.8
750
100
3008070009
N272GS750 DES2 AR2 CR1 0.50'' S16 FJI
2.73 0.832 44.1 20.0 2.72 69 0.50 12.8
750
100
3008070010
N319GS1050 DES2 AR2 CR1 0.67'' S14
2.58 0.786 55.1 25.0 3.19 81 0.67 17
1050
140
3008080002
N319GS1050 DES2 AR2 CR1 0.67'' S16
2.58 0.786 55.1 25.0 3.19 81 0.67 17
1050
140
TBA
N338GS1900 DES1 AR1 CR1 0.67" S14
2.68 0.816 48.5 22.0 3.38 86 0.67 17
1900
250
3008030021
N338GS1900 DES1 AR1 CR1 0.67" S16
2.68 0.816 48.5 22.0 3.38 86 0.67 17
1900
250
3008030022
N362GS1500 DES2 AR2 CR1 0.79" S14
2.84 0.865
61.7 28.0 3.62
92 0.79
20
1500
200
3008010385
N362GS1500 DES2 AR2 CR1 0.79" S16
2.84 0.865
61.7 28.0 3.62
92 0.79
20
1500
200
3008010386
N406GS2600 DES3 AR2 CR1 0.87" S14
2.49 0.760 66.2 30.0 4.06 103 0.79 20
2600
350
3008020343
N406GS2600 DES3 AR2 CR1 0.87" S16
2.49 0.760 66.2 30.0 4.06 103 0.79 20
2600
350
3008020321
N406GS3800 DES2 AR2 CR1 0.87" S14
2.90 0.885 72.8 33.0 4.06 103 0.87 22
3800
500
3008020300
N406GS3800 DES2 AR2 CR1 0.87" S16
2.90 0.885 72.8 33.0 4.06 103 0.87 22
3800
500
3008020299
N535GS7600 DES2 AR2 CR1 1.18" S14
3.63 1.1055 99.2 45.0 5.35 136 1.18 30
7600
1000
3008050004
N535GS7600 DES2 AR2 CR1 1.18" S16
3.63 1.1055 99.2 45.0 5.35 136 1.18 30
7600
1000
3008050008
2018 Page 419
> Downhole Equipment > Intake Devices > Advanced Gas Handler
GLOSSARY Advanced Gas Handler N
XXX
AGH(F)
XXXX
XXX
X.XX"
XXX Manufacturer (Novomet) Series, (see Table 1) Advanced Gas Handler (F - modification for Slotted Filter Intake) Nominal capacity, bpd @60Hz Corrosion resistance, (see Table 2) Shaft diameter, inches Shaft material strength: S13 - Stainless steel (1275 MPa) S14 - Stainless steel (1370 MPa) S16 - Stainless steel (1570 MPa) M8 - Monel alloy (785 MPa) I13 - Inconel alloy (1275 MPa) I14 - Inconel alloy (1370 MPa)
e.g., N362AGH1500 CR3 0.79" S14
Table 1 - Series
Series 272
HSG OD, in 2.72
HSG OD, mm 69
319
3.19
81
362
3.62
92
406
4.06
103
2018 Page 420
> Downhole Equipment > Intake Devices > Advanced Gas Handler Table 2 - Corrosion resistance
Max chemical content, g/l CO2 Cl H2S
Abbr.
Full name
Fluid
pH
Description
CR1
Corrosion Resistant 1
Moderately aggressive fluid
0.01 1.25
1.45 0.01
200
Housing and flow path parts are from 4.0..8.5 Carbon Steel. Head and base are from Carbon Steel.
CR3
Corrosion Resistant 3
Highly aggressive fluid
1.25
1.45
200
3.0..9.0 Stainless Steel housing, head and base.
UCR
Ultra Corrosion Extremely aggres>1.25 Resistant sive fluid
1.45
200
3.0..9.0
Materials resistant to Sulfide Stress Cracking are used for housing, head and base.
Advanced Gas Handler SPECIFICATION Nomenclature
Installation Length ft
m
Weight lb
kg
Housing diameter in
Shaft Nominal flow rate of diameter single phase fluid bpd @ m3/day @ mm in mm 60 Hz 50 Hz
N272AGH600 CR1 0.50" S14
4.00 1.218 48.5 22.0 2.72
N319AGH750 CR1 0.67" S14
4.08 1.243 55.1 25.0 3.19
81 0.67 17
N362AGH1500 CR1 0.79" S14
3.65 1.1125 66.2 30.0 3.62
92 0.79 20
N362AGHF1500 CR1 0.79" S14 3.65 1.1125 66.2 30.0 3.62
92 0.79 20
1500
200
3040030031
3.44 1.0484 92.6 42.0 4.06 103 0.87 22
1700
225
3040040004
N406AGHF1700 CR1 0.87" S14 3.44 1.0484 92.6 42.0 4.06 103 0.87 22
1700
225
3040040039
N406AGH5300 CR1 0.87" S14
5300
700
3040040081
N406AGH1700 CR1 0.87" S14
69 0.50 12.8
5.57 1.698 105.8 48.0 4.06 103 0.88 22
600
Part Number
80
3040010005
750
100
3040020001
1500
200
3040030011
2018 Page 421
> Downhole Equipment > Intake Devices > Multiphase Pump
GLOSSARY Multiphase Pump N
X MPP XXXX
XXX
XXX
XXX
XXX
XXXSTG Manufacturer (Novomet) Series, (see Table 1) Multiphase pump Capacity, bpd @60Hz Pump assembly design: CMP - compression Abrasion resistance: AR2 - for fluid containing solids up to 350 ptb (1000 mg/l) Corrosion resistance, (see Table 2) Shaft material and yield strength: S14 - Stainless steel (1370 MPa) S16 - Stainless steel (1570 MPa) I14 - Inconel alloy (1370 MPa) Number of stages in a multiphase pump
e.g., N406MPP3800 CMP AR2 CR1 S14 28STG
2018 Page 422
> Downhole Equipment > Intake Devices > Multiphase Pump
Table 1 - Series
Series
HSG OD, in
HSG OD, mm
272
2.72
69
319
3.19
81
362
3.62
92
406
4.06
103
535
5.35
136
Table 2 - Corrosion resistance
Abbr.
Full name
Fluid
Max chemical content, g/l CO2 Cl H2S 0.01 1.45 200 1.25 0.01
Corrosion Moderately agResistant 1 gressive fluid Corrosion Highly aggressive 1.25 CR2C Resistant 2C fluid CR1
pH 4.0..8.5
1.45
200
3.0..9.0
CR2S
Corrosion Highly aggressive 1.25 Resistant 2S fluid
1.45
200
3.0..9.0
CRM
Corrosion Highly aggressive 1.25 Resistant M fluid
1.45
200
3.0..9.0
CRMS
Corrosion Highly aggressive 1.25 Resistant MS fluid
1.45
200
3.0..9.0
CR3
Corrosion Highly aggressive 1.25 Resistant 3 fluid
1.45
200
3.0..9.0
1.45
200
3.0..9.0
UCR
Ultra Corrosion Resistant
Extremely aggressive fluid
>1.25
Description Ni-resist stages. Housing, head and base are from Carbon Steel. Ni-resist stages. Housing, head and base are coated with thermal spray coatings. Ni-resist stages. Stainless Steel head and base. Housing is coated with thermal spray coatings. Ni-resist stages. Housing, head and base are coated with Monel alloy thermal spray coating. Ni-resist stages. Stainless Steel head and base. Housing is coated with Monel alloy thermal spray coating. Ni-resist stages. Housing, head and base are from Stainless Steel. Materials resistant to Sulfide Stress Cracking are used for housing, head and base.
2018 Page 423
> Downhole Equipment > Intake Devices > Multiphase Pump
Multiphase Pump SPECIFICATION Description
Installation Length
Weight
Housing diameter
Shaft diameter
Nominal flow rate of single phase fluid
Part Number
ft
m
lb
kg
in
mm
in
mm
bpd @ 60 Hz
m3/day @ 50 Hz
N272MPP940 CMP AR2 CR1 S14 24STG
7.8
2.4
132.3
60
2.72
69
0.5
12.8
940
125
3001950005
N319MPP1500 CMP AR2 CR1 S14 15STG
7.8
2.4
132.3
60
3.19
81
0.27
17
1500
200
3101340006
N319MPP1500 CMP AR2 CR1 S14 15STG FJT
7.8
2.4
132.3
60
3.19
81
0.27
17
1500
200
3101340009
N362MPP1500 CMP AR2 CR1 S14 22STG
9.4
2.9
198.45
90
3.62
92
0.79
20
1500
200
3001580146
N406MPP940 CMP AR2 CR1 S14 13STG
7.8
2.4
242.55
110
4.06
103
0.87
22
940
125
3001660028
N406MPP2400 CMP AR2 CR1 S14 20STG
11.0
3.4
286.65
130
4.06
103
0.87
22
2400
320
3001670081
N406MPP3800 CMP AR2 CR1 S14 28STG
14.3
4.4
374.85
170
4.06
103
0.87
22
3800
500
3001210190
N535MPP12000 CMP AR2 CR3 S14 11STG
7.4
2.3
231.525
105
5.35
136
1.18
30
12000
1600
3101360006
2018 Page 424
> Downhole Equipment > Intake Devices > Multiphase Pump
Multiphase PUMP SUMMARY
A(272)
B(319)
F(362)
h(406)
p(535)
N272MPP940
N319MPP1500
N362MPP1900
N406MPP940
N535MPP12000
N406MPP2400
N406MPP3800
2018 Page 425
> Downhole Equipment > Intake Devices > Multiphase Pump > N272MPP940
N272MPP940 Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
272 series / OD 69 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA N272MPP940, 60hZ Recommended Operating Range
113-1207 bpd"
18-192 m3/day"
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
128.6 mm2
Housing Diameter
2.72 in
69 mm
Shaft Power Limit
High Strength (S14)
100 hp
74 kW
Ultra High Strength (S16)
113 hp
84 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 426
> Downhole Equipment > Intake Devices > Multiphase Pump > N272MPP940
N272MPP940 Pump Performance Curve 50 Hz /2910 rpm
Curve is calculated for one stage on water of 1.00 sg
272 series / OD 69 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA N272MPP940, 50hZ Recommended Operating Range
94-1006 bpd
15-160 m3/day
Shaft Diameter
0.50 in
12.8 mm
Shaft Cross Sectional Area
0.20 in2
128.6 mm2
Housing Diameter
2.72 in
69 mm
Shaft Power Limit
High Strength (S14)
83 hp
62 kW
Ultra High Strength (S16)
94 hp
70 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 427
> Downhole Equipment > Intake Devices > Multiphase Pump > N272MPP940
N272MPP940 Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
272 series / OD 69 mm
2018 Page 428
> Downhole Equipment > Intake Devices > Multiphase Pump > N319MPP1500
N319MPP1500 Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA N319MPP1500, 60hZ Recommended Operating Range
755-1888 bpd
120-300 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
Housing Diameter
3.19 in
81 mm
Shaft Power Limit
High Strength (S14)
217 hp
162 kW
Ultra High Strength (S16)
241 hp
180 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 429
> Downhole Equipment > Intake Devices > Multiphase Pump > N319MPP1500
N319MPP1500 Pump Performance Curve 50 Hz /2910 rpm
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA N319MPP1500, 50hZ Recommended Operating Range
629-1572 bpd
100-250 m3/day
Shaft Diameter
0.67 in
17 mm
Shaft Cross Sectional Area
0.35 in2
227 mm2
Housing Diameter
3.19 in
81 mm
Shaft Power Limit
High Strength (S14)
181 hp
135 kW
Ultra High Strength (S16)
201 hp
150 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 430
> Downhole Equipment > Intake Devices > Multiphase Pump > N319MPP1500
N319MPP1500 Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
319 series / OD 81 mm
2018 Page 431
> Downhole Equipment > Intake Devices > Multiphase Pump > N319MPP1900
N362MPP1500 Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA N362MPP1500, 60hZ Recommended Operating Range
377-1887 bpd
60-300 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
Housing Diameter
3.62 in
92 mm
Shaft Power Limit
High Strength (S14)
346 hp
258 kW
Ultra High Strength (S16)
402 hp
300 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 432
> Downhole Equipment > Intake Devices > Multiphase Pump > N319MPP1900
N362MPP1500 Pump Performance Curve 50 Hz /2910 rpm
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA N362MPP1500, 50hZ Recommended Operating Range
314-1572 bpd
50-250 m3/day
Shaft Diameter
0.79 in
20 mm
Shaft Cross Sectional Area
0.49 in2
314 mm2
Housing Diameter
3.62 in
92 mm
Shaft Power Limit
High Strength (S14)
288 hp
215 kW
Ultra High Strength (S16)
335 hp
250 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 433
> Downhole Equipment > Intake Devices > Multiphase Pump > N319MPP1900
N362MPP1500 Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
362 series / OD 92 mm
2018 Page 434
> Downhole Equipment > Intake Devices > Multiphase Pump > N406MPP940
N406MPP940 Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
Head
m 12.2
ft 40
Qmin
Qnom
Qmax
Recommended operating range
Head 9.15
30
6.1
20
3.05
10
Power Power
0
0
0 0
Capacity
1000
2000
150
300
3000 450
4000 600
5000 750
hp
kW
1.64
1.22
0.82
0.61
0.00 0.00 bpd m3 /day
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA N406MPP940, 60hZ Recommended Operating Range
377-1207 bpd
60-192 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
Housing Diameter
4.06 in
103 mm
Shaft Power Limit
High Strength (S14)
466 hp
348 kW
Ultra High Strength (S16)
531 hp
396 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 435
> Downhole Equipment > Intake Devices > Multiphase Pump > N406MPP940
N406MPP940 Pump Performance Curve 50 Hz /2910 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
Head m
ft
26.25
Qmin
8
Qnom Qmax
Recommended operating range
Head 19.69
6
13.12
4
Power
hp 6.56
2
kW
0.80
1.07
0.40
0.54
Power
0.00
0
0
100
0
200 750
300 1500
400 2250
0.00 0.00 600 m3/day
500 3000
3750
bpd
Capacity
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA N406MPP940, 50hZ Recommended Operating Range
314-1006 bpd
50-160 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
Housing Diameter
4.06 in
103 mm
Shaft Power Limit
High Strength (S14)
389 hp
290 kW
Ultra High Strength (S16)
442 hp
330 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 436
> Downhole Equipment > Intake Devices > Multiphase Pump > N406MPP940
N406MPP940 Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
100
100 Hz (m)
ft
22.8
75
90 Hz
Head
80 Hz 15.2
50
70 Hz 60 Hz
7.6
25
50 Hz 40 Hz
(KW)
hp
4.48
6
Power
100 Hz 2.99
4
90 Hz
1.49
80 Hz
2
70 Hz 60 Hz 40 Hz 0 0
Capacity
500
50 Hz
1000 100
1500 200
2000 300
2500
BPD (m3/day)
2018 Page 437
> Downhole Equipment > Intake Devices > Multiphase Pump > N406MPP2400
N406MPP2400 Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
Head
m 11
ft 35
Q min
Qnom
Qmax
Recommended operating range
9.1
30
7.6
25
6.1
20
4.6
15
3
10
1.5
0
Head
Power kW
1.64
1.22
0.82
0.61
Power
5
0
hp
0 0
Capacity
1000
2000
150
300
3000 450
4000 600
5000 750
0.00 0.00 bpd m3/day
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA N406MPP2400, 60hZ Recommended Operating Range
377-2867 bpd
60-456 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
Housing Diameter
4.06 in
103 mm
Shaft Power Limit
High Strength (S14)
466 hp
348 kW
Ultra High Strength (S16)
531 hp
396 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 438
> Downhole Equipment > Intake Devices > Multiphase Pump > N406MPP2400
N406MPP2400 Pump Performance Curve 50 Hz /2910 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
Head ft
m
26.25
Qmax
Qnom
Qmin
8
Recommended operating range
Head 19.69
6
13.12
4
Power
kW 6.56
2
hp
0.80
1.07
0.40
0.54
Power
0.00
0
0
100
0
200 750
300 1500
400 2250
0.00 0.00 600 m3/day
500 3000
3750
bpd
Capacity
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA N406MPP2400, 50hZ Recommended Operating Range
314-2390 bpd
50-380 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
Housing Diameter
4.06 in
103 mm
Shaft Power Limit
High Strength (S14)
389 hp
290 kW
Ultra High Strength (S16)
442 hp
330 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 439
> Downhole Equipment > Intake Devices > Multiphase Pump > N406MPP2400
N406MPP2400 Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
100 Hz (m)
ft
22.8
75
15.2
50
90 Hz
Head
80 Hz 70 Hz 60 Hz 7.6
25
50 Hz 40 Hz
Power
(KW)
hp
4.5
6
3.0
4
100 Hz
90 Hz 1.5
2
80 Hz 70 Hz 40 Hz 0 0
Capacity
50 Hz
2000 250
500
60 Hz
4000 750
1000
6000 1250
BPD (m3/day)
2018 Page 440
> Downhole Equipment > Intake Devices > Multiphase Pump > N406MPP3800
N406MPP3800 Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
Head
m 12
ft 40
Qmin
Q nom
Q max
Recommended operating range
Head
9.1
30
6.1
20
3
10
Power hp
kW
1.64
1.22
0.82
0.61
Power
0
0
0 0
Capacity
2000 150
300
4000 450
600
6000 750
900
0.00 0.00 bpd m3/day
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA N406MPP3800, 60hZ Recommended Operating Range
377-4528 bpd
60-720 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
Housing Diameter
4.06 in
103 mm
Shaft Power Limit
High Strength (S14)
466 hp
348 kW
Ultra High Strength (S16)
531 hp
396 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 441
> Downhole Equipment > Intake Devices > Multiphase Pump > N406MPP3800
N406MPP3800 Pump Performance Curve 50 Hz /2910 rpm
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
Head ft
m
26.25
Qmin
8
Qnom
Qmax
Recommended operating range
Head 19.69
6
13.12
4
Power
kW 6.56
2
hp
0.70
0.94
0.35
0.47
Power
0.00
0
0 0
200 1000
400 2000
0.00 0.00 800 m3/day
600 3000
4000
5000
bpd
Capacity
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA N406MPP3800, 50hZ Recommended Operating Range
314-3773 bpd
50-600 m3/day
Shaft Diameter
0.87 in
22 mm
Shaft Cross Sectional Area
0.59 in2
380 mm2
Housing Diameter
4.06 in
103 mm
Shaft Power Limit
High Strength (S14)
389 hp
290 kW
Ultra High Strength (S16)
442 hp
330 kW
5547 psi
382 bar
Housing Burst Pressure Limit
2018 Page 442
> Downhole Equipment > Intake Devices > Multiphase Pump > N406MPP3800
N406MPP3800 Multi Hz Curve (Tornado)
Head
Multi Hz Curve
(m)
ft
22.8
75
15.2
50
7.6
25
Curve is calculated for one stage on water of 1.00 sg
406 series / OD 103 mm
100 Hz 90 Hz 80 Hz 70 Hz
60 Hz 50 Hz
40 Hz
hp
4.47
6
2.98
4
Power
(KW)
100 Hz 1.49
2
90 Hz 80 Hz 70 Hz 40 Hz 0
1500
0
250
Capacity
3000 500
50 Hz
4500 750
60 Hz 6000 1000
7500 1250
9000
BPD (m3/day)
2018 Page 443
> Downhole Equipment > Intake Devices > Multiphase Pump > N535MPP12000
N535MPP12000 Pump Performance Curve 60 Hz / 3490 rpm
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
Head
m 18.3
ft 60
Qmin
Qnom
Qmax
Recommended operating range
Head 12.2
40
6.09
20
Power
hp
kW
7.00
5.22
3.50
2.61
Power
0
0
0 0
Capacity
3000 400
6000 800
9000 1200
12000 1600
0.00 0.00 18000 bpd
15000
2000
2400
2800
m3 /day
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA N535MPP12000, 60hZ Recommended Operating Range
9811-14717 bpd
1560-2340 m3/day
Shaft Diameter
1.18 in
30 mm
Shaft Cross Sectional Area
1.095 in2
706.5 mm2
Housing Diameter
5.35 in
136 mm
Shaft Power Limit
High Strength (S14)
1198 hp
894 kW
Ultra High Strength (S16)
1375 hp
1026 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 444
> Downhole Equipment > Intake Devices > Multiphase Pump > N535MPP12000
N535MPP12000 Pump Performance Curve 50 Hz /2910 rpm
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mmm
Head ft
m
39.37
Qmin
12
Qnom
Qmax
Recommended operating range
Head
26.25
8
13.12
4
Power
kW
hp
3.00
4.02
1.50
2.01
Power
0.00
0
0 0
600 3000
1200 6000
0.00 0.00 2400 m3/day
1800 9000
12000
15000
bpd
Capacity
This Engineering Perfomance Curve shows the single stage design performance for sizing purposes only. Actual system performance will be within the parameters specified in API Recommended Practice 11S2 for Electric Submersible Pump Testing.
ENGINEERING DATA N535MPP12000, 50hZ Recommended Operating Range
8176-12264 bpd
1300-1950 m3/day
Shaft Diameter
1.18 in
30 mm
Shaft Cross Sectional Area
1.095 in2
706.5 mm2
Housing Diameter
5.35 in
136 mm
Shaft Power Limit
High Strength (S14)
998 hp
745 kW
Ultra High Strength (S16)
1146 hp
855 kW
4978 psi
343 bar
Housing Burst Pressure Limit
2018 Page 445
> Downhole Equipment > Intake Devices > Multiphase Pump > N535MPP12000
N535MPP12000 Multi Hz Curve (Tornado) Multi Hz Curve
Curve is calculated for one stage on water of 1.00 sg
535 series / OD 136 mm
100 Hz (m)
ft
22.9
75
90 Hz
Head
80 Hz
70 Hz 15.2
50
60 Hz 50 Hz 7.6
25
40 Hz
100 Hz
11.20
(KW)
hp 15
7.47
10
90 Hz
Power
80 Hz
70 Hz 3.73
5
60 Hz 50 Hz 40 Hz 0 0
Capacity
5000 750
10000 1500
15000 2250
20000 3000
25000 BPD 3750
(m3/day)
2018 Page 446
> Downhole Equipment > Protector
GLOSSARY protector N XXX
XX
XXXXX
XXXH/XXXB
XXX
XXX
XXX
XX Manufacturer (Novomet) Series, (see Table 1) Protector design: MP - Modular Protector TMP - Tandem Modular Protector Hydraulic scheme (from top to bottom)*: LSB (Labyrinth-series-Bag) BSB (Bag-series-Bag) LSBPB (Labyrinth-series-Bag-parallel-Bag) LSBSB (Labyrinth-series-Bag-series-Bag) LSBPB-SBPBSL (Labyrinth-series-Bag-parallel-Bag + series-Bag-parallel-Bag-series-Labyrinth) Protector flange connection size: XXXH - Protector Head series (for intake device connection) XXXB - Protector Base series (for motor connection) Corrosion resistance, (see Table 2) Heat resistance, (see Table 3) Thrust bearing: STL - Standard Load thrust bearing HL - High Load thrust bearing Shaft material strength: S8 - Stainless steel (780 MPa) S11 - Stainless steel (1078 MPa) S13 - Stainless steel (1275 MPa) M8 - Monel alloy (785 MPa) I8 - Inconel alloy (785 MPa) I11 - Inconel alloy (1080 MPa) I13 - Inconel alloy (1275 MPa)
e.g., N449MP LSBSB 449H/512B CR0 HT HL S8 * Other hydraulic schemes are available on Customer request
2018 Page 447
> Downhole Equipment > Protector
Table 1 - Series
HSG OD, in 2.72
Series 272
HSG OD, mm 69
319
3.19
81
338
3.38
86
362
3.62
92
406
4.06
103
449
4.49
114
535
5.35
136
677
6.77
172
Table 2 - Corrosion resistance
Abbr.
Full name
CR0
Corrosion Resistant 0
CR2C
Max chemical content, g/l CO2 Cl H2S
Fluid
pH
Description
Slightly aggressive 0.01 fluid
0.01
20
5.0..8.5
Housing, head and base are from Carbon Steel.
Corrosion Resistant 2C
Highly aggressive fluid
1.25
1.45
200
3.0..9.0
Housing, head and base are coated with thermal spray coatings.
CR2S
Corrosion Resistant 2S
Highly aggressive fluid
1.25
1.45
200
3.0..9.0
Stainless Steel head and base. Housing is coated with thermal spray coatings.
CRM
Corrosion Resistant M
Highly aggressive fluid
1.25
1.45
200
3.0..9.0
CRMS
Corrosion Resistant MS
Highly aggressive fluid
1.25
1.45
200
CR3
Corrosion Resistant 3
Highly aggressive fluid
1.25
1.45
200
3.0..9.0 Stainless Steel housing, head and base.
UCR
Ultra Corrosion Resistant
Extremely aggressive fluid
>1.25
1.45
200
3.0..9.0
Housing, head and base are from Carbon Steel and coated with Monel alloy thermal spray. Stainless Steel head and base. Housing 3.0..9.0 is from Carbon Steel and coated with Monel alloy thermal spray.
Materials resistant to Sulfide Stress Cracking are used for housing, head and base.
Table 3 - Heat resistance
Abbr. HT
Full name High Temperature
UHT
Ultra High Temperature
XHT
Extremely High Temperature
Description Ambient temperature - up to 320 oF (160 oC) Note: Applicable for conventional, Modular and Tandem Modular Protectors. HT motor fluid Ambient temperature - up to 356 oF (180 oC) Note: Applicable for conventional, Modular and Tandem Modular Protectors. UHT motor fluid Ambient temperature - up to 482 oF (250 oC). Note: Applicable for Metal bellows Protectors only. XHT motor fluid
2018 Page 448
> Downhole Equipment > Protector
Applications: • Protector being a part of ESP system. performs the following functions: • It protects the motor from the well fluid • It provides pressure equalization between the motor and the wellbore • It carries the thrust load of the pump • It compensates motor oil volume during ESP system operation • It transfers torque moment from Motor to Intake devices and Pump
tandem MODULAR PROTECTOR Most common LsBpB+BpBsL
hydraulic
configuration
of
modules
is
Tandem protector is
6 modules
4
protection barriers
2
thrust bearings
Benefits: • Versatile design reduces inventories • High-load thrust bearing adds greater pump thrust capacity • Ensures extended ESP run life in challenging conditions Features: • Modular Protectors are available in 319. 362. 406. 449. 535 and 677 Series. • They come in either standard (STL) or high load thrust (HL) ratings as well as high temperature (HT) configurations (well ambient temperature is up to 340 oF). • With regard to corrosion-resistant versions. three variant are available: for slightly (CR0). Highly (CR2 and CR3) and extremely aggressive fluids (UCR).
Two thrust bearings • Bearings work in tandem increasing allowable axial load on protector shaft; • In case one of the thrust bearings fails the second thrust bearing will receive the load; • The system does not require preliminary preparation. Adjustment is performed during protector manufacturing and assembly.
2018 Page 449
> Downhole Equipment > Protector
During the assembly process clearance between the shafts of the upper and lower protector is eliminated by adjustment of bolt located on the lower protector shaft. Initially upper protector shaft is elevated by 0.008 in (0.2 mm) over its thrust bearing. Adjustment by shims is performed in the range of 0.008 in (0.2 mm). It is performed in order to compensate wear of the sliding surfaces, deformation of shafts caused by the load and materials thermal expansion. With time load is distributed equally on both thrust bearings.
For low power motors: BsB+LsL
For high power motors BpB+BpB+LsL
2018 Page 450
BSBSB
N338MP BSBSB CR0 HT STL S11
LSBPB LSBPB
N406MP BSBSB 362-406H/406-460B CR0 HT HL S11
N406MP LSBPB 362-406H/512B CR0 HT HL S11
N406MP LSBPB 362-406H/512B CR0 HT HL I13
LSBSB LSBPB-SBPBSL
N449MP LSBSB 535H/512B CR0 HT HL S11
N449TMP LSBPB-SBPBSL 535H/512B CR0 HT HL S11
LSBPB
BSB
N449MP LSBPB 535H/512B CR0 HT HL S11
N449MP BPB 535H/512B CR0 HT HL S11
LSBPB-SBPBSL
N449MP LSBSB 449H/512B CR0 HT HL S11
N449MP LSBPB-SBPBSL 449H/512B CR0 HT HL S11
LSBPB LSBSB
N449MP LSBPB 449H/512B CR0 HT HL S11
BSB
BPB-SBPB LSBPB-SBPBSL
N406TMP BPB-SBPB 362-406H/406-460B CR0 HT HL S11
N406TMP LSBPB-SBPBSL 362-406H/512B CR0 HT HL S11
N406TMP LSBPB-SBPBSL 362-406H/406-460B CR0 HT HL S11 LSBPB-SBPBSL
LSBSB BSBSB
N406MP LSBSB 362-406H/406-460B CR0 HT HL S11
LSBPB
N449MP BSB 449H/512B CR0 HT HL S11
25
25
25
20
14
mm
7144
5292
1588
4500
1191
lb
3240
2400
720
2040
540
kg
5954
4410
1323
3750
992
lb
2700
2000
600
1700
450
kg
@50Hz
320
130
4,49
114
1,38
35
8203
3720
6836
3100
720
290
720
TBA
720
290
720
TBA
579
579
579
579
579
TBA
201
579
450
180
450
TBA
450
180
450
TBA
360
360
360
360
360
TBA
125
360
125
200
200
80
200
80
130 320
63
63
100
63
90
180
90
180
TBA
90
180
TBA
TBA
90
90
90
90
101
101
161
101
145
289
145
289
TBA
145
289
TBA
TBA
145
145
145
145
hp kW @60Hz @50Hz
Maximum motor power
201
0,98
0,98
0.98
0.79
0.55
in
@60Hz
Thrust bearing load limit
BSB
103
92
86
81
69
mm
Shaft diameter
320
4,06
3,62
3.38
3.19
2.72
in
Housing OD
BPB-SBPB
N406MP LSBPB 362-406H/406-460B CR0 HT HL S11
N406MP BSB 362-406H/460B CR0 HT HL S11
N362TMP BPB-SBPB 362H/406B CR0 HT HL S11
LSBPB-SBPBSL
LSBSB
N362MP LSBSB CR0 HT HL S11
N362TMP LSBPB-SBPBSL 362H/406B CR0 HT HL S11
LSBPB
N362MP LSBPB CR0 HT HL S11
BSB
LSBSB
N338MP LSBSB CR0 HT STL S11
N362MP BSB CR0 HT HL S11
LSBSB
N338MP LSBPB CR0 HT STL S11
BPB
BPB-SBPB
N319TMP BPB-SBPB 319H/319B CR0 HT HL I14
N338MP BPB CR0 HT STL S11
BPB-SBPB
LSBSB
N319MP LSBSB CR0 HT HL I14
N319TMP BPB-SBPB 319H/319B CR0 HT HL S11
LSBPB
N319MP LSBPB CR0 HT HL I14
BSB
LSBSB
N319MP LSBSB CR0 HT HL S11
N319MP BSB CR0 HT HL I14
LSBPB
BSB
BPB-SBPB
N319MP LSBPB CR0 HT HL S11
N319MP BSB CR0 HT HL S11
N272TMP BPB-SBPB CR0 HT STL S14
BSB
LSBSB
N272MP LSBSB CR0 HT STL S14
N272MP BSB CR0 HT STL I14
LSBPB
BSB
Hydraulic scheme
N272MP LSBPB CR0 HT STL S14
N272MP BSB CR0 HT STL S14
Modular Protector
protector SPECIFICATION
20
11
11
TBA
20
11
11
TBA
40
20
40
TBA
40
20
40
TBA
31
31
14 18
31
31
31
TBA
15,5
31
15,5
23
23
11,5
23
11,5
7,5
7,5
15
7,5
18
18
9
18
TBA
9
18
TBA
18
9
TBA
TBA
9
18
9
9
TBA
9
9
7
10
15
7
7
5
5,5
5,5
5,5
4
8
8
3,5
3,5
TBA
3,5
3,5
TBA
6
2,5
TBA
TBA
2,5
Max oil Oil volume, volume of motor, l l
8,04
6,37
8,04
TBA
TBA
8,04
8,04
TBA
14,98
11,17
14,98
7,56
TBA
TBA
7,56
7,56
5,66
TBA
14,98
7,56
7,56
5,66
6,68
6,68
6,68
5,06
7,56
TBA
TBA
TBA
TBA
7,56
TBA
TBA
TBA
6,40
TBA
TBA
6,40
ft
2,45
1,94
2,45
TBA
TBA
2,45
2,45
TBA
4,57
3,41
4,57
2,31
TBA
TBA
2,31
2,31
1,73
TBA
4,57
2,31
2,31
1,73
2,04
2,04
2,04
1,54
2,31
TBA
TBA
TBA
TBA
2,31
TBA
TBA
TBA
1,95
TBA
TBA
1,95
m
Installation Length
595
287
287
TBA
595
287
287
TBA
397
309
397
198
68
TBA
198
198
154
265
331
154
154
132
132
154
154
154
221
221
115
115
TBA
115
115
TBA
TBA
69
TBA
TBA
69
lb
270
130
130
TBA
270
130
130
TBA
180
140
180
90
31
TBA
90
90
70
120
150
70
70
60
60
70
70
70
100
100
52
52
TBA
52
52
TBA
TBA
32
TBA
TBA
32
kg
Weight
3006040036
3006040014
3006040028
TBA
3006040068
3006040045
3006040021
3006040025
3006030119
3006030239
3006030115
3006030114
3006030161
3006030316
3006030094
3006030096
3006030158
3006020293
3006020174
3006020099
3006020104
3006020109
3006010046
3006010065
3006010033
3006010069
3006070022
3006070020
3006070031
3006070027
3006070029
3006070018
TBA
TBA
3006090010
3006090016
3006090003
3006090002
3006090001
Part Number
> Downhole Equipment > Protector
2018 Page 451
LSBPB-SBPBSL
N535TMP LSBPB-SBPBSL 535H/512B CR0 HT HL S13
N677MP LSBSB CR0 HT HL S11
6,77
5,35
in
172
136
mm
Housing OD
1,69
1,50
in
43
38
mm
Shaft diameter
21168
11907
lb
9923
lb
4500
kg
@50Hz
9600 17640 8000
5400
kg
@60Hz
Thrust bearing load limit
320
1050
320
TBA
804
1126
1126
418
1126
TBA
200
650
200
TBA
500
700
700
260
700
TBA
hp kW @60Hz @50Hz
Maximum motor power
25
25
14
40
40
40
40
17
17
TBA
38
76
38
80
80
80
80
40
80
TBA
Max oil Oil volume, volume of motor, l l
TBA
7,56
TBA
TBA
TBA
TBA
18,19
9,17
9,17
TBA
ft
TBA
2,31
TBA
TBA
TBA
TBA
5,55
2,80
2,80
TBA
m
Installation Length
1. Other hydraulic schemes apart from mentioned above are available on Customer request. 2. In case you require other than available modification of ESP component, please specify in your Request its existing full description and Part number followed by the required modification: E.g., Protector N362MP LSBSB CR0 HT HL. Part number 3006020099. Request for CR2 HT HL modification. 3. Standard ESP composition for 362 series Protector includes 362 series Intake device and 406 series Motor. Optionally, 406 series Intake device can be connected without any modifications. Also 362 series Protector can be assembled with 460 series Motor without any modifications but according to Motor power limit in Protector Specification. 4. Standard ESP composition for 406 series Protector includes 406 series Intake device and 460 series Motor. Optionally, 362 series Intake device can be connected without any modifications. Also 406 series Protector can be assembled with 406 series Motor without any modifications or limitations.
LSBPB LSBSB
N677MP LSBPB CR0 HT HL S11
BSB
LSBPB-SBPBSL
N535TMP LSBPB-SBPBSL 535H/562B CR0 HT HL I11
N677MP BSB CR0 HT HL S11
LSBPB-SBPBSL
N535TMP LSBPB-SBPBSL 535H/512B CR0 HT HL I13
LSBSB LSBPB-SBPBSL
N535MP LSBSB CR0 HT HL S11
N535TMP LSBPB-SBPBSL 535H/562B CR0 HT HL S11
LSBPB
BSB
N535MP LSBPB CR0 HT HL S11
N535MP BSB CR0 HT HL S11
Modular Protector
Hydraulic scheme
463
573
463
772
772
772
772
397
397
TBA
lb
210
260
210
350
350
350
350
180
180
TBA
kg
Weight
3006060037
3006060036
3006060038
3006080091
3006080057
3006080029
3006080024
3006080005
3006080008
3006080010
Part Number
> Downhole Equipment > Protector
2018 Page 452
> Downhole Equipment > Protector
MOTOR - PROTECTOR CORRESPONDENCE TABLE Intake device series
Intake device OD
Motor OD
in
mm
Motor series
in
mm
Protector series
272
2 .72
69
319
3 .19
81
319
3 .19
81
319
3 .19
338
3 .38
86
378
362 406
3.62 4.06
92 103
Protector OD in
mm
Modular Protector
272
2 .72
69
Available
81
319
3 .19
81
Available
3 .78
96
338
3 .38
86
TBP
406 460
4.06 4.60
103 117
460
4 .6
117
362
3 .62
92
Available
378
3 .78
96
512
5 .12
130
406
4 .06
103
Available
406
4 .06
103
Available
449
4 .49
114
Available
535
5 .35
136
Available
677
6 .77
172
Available
362 406 362 406
3.62 4.06 3.62 4.06
92 103 92 103
406 460
4.06 4.60
103 117
512
5 .12
130
449
4 .49
114
512
5 .12
130
362 406 362 406
3.62 4.06 3.62 4.06
92 103 92 103
406 460
4.06 4.60
103 117
512
5 .12
130
449
4 .49
114
362 406
3.62 4.06
92 103
512
5 .12
130
449
4 .49
114
512
5 .12
130
449
4 .49
114
562
5 .62
143
535
5 .35
136
512
5 .12
130
535
5 .35
136
562
5 .62
143
535
5 .35
136
562
5 .62
143
677
6 .77
172
460
4 .6
117
677
6 .77
172
744
7 .44
189
2018 Page 453
> Downhole Equipment > Asynchronous Motor
GLOSSARY Asynchronous Motor N
XXX
AM
XXX
XXXXV
XXX
XXX
XXX
HRZ
TYPEXX
NDSX Manufacturer (Novomet) Series, (see Table 1) Asynchronous Motor Power, hp (at 60 Hz) Voltage, V (at 60 Hz) Single and Tandem motors: SGL - Single motor DBL - Double motor TRP - Triple motor Corrosion resistance, (see Table 2) Heat resistance, (see Table 3) MLE plug type (size) to be connected with: empty - standard, according to Table 1 in MLE section TYPE00 - 0.67" (17 mm) TYPE1 - 1.02" (26 mm) TYPE4 - 1.65" (42 mm) Design modifications HRZ - for horizontal operation, if applicable Type of Downhole Sensor, if applicable (see Table 4)
e.g., N406AM160 2520V DBL CR0 HT NDS2
Table 1 - Series
Series
HSG OD, in
HSG OD, mm
378
3.78
96
406
4.06
103
460
4.60
117
512
5.12
130
562
5.62
143
744
7.44
189
Table 2 - Corrosion resistance
Abbr.
Full name
Fluid
Max chemical content, g/l CO2 Cl H2S
pH
Description Housing, head and base are from Carbon Steel. Housing, head and base are coated with thermal spray coatings. Stainless Steel head and base. Housing is coated with thermal spray coatings. Housing, head and base are from Carbon Steel and coated with Monel alloy thermal spray. Stainless Steel head and base. Housing is from Carbon Steel and coated with Monel alloy thermal spray.
Corrosion Resistant 0 Corrosion Resistant 2C Corrosion Resistant 2S
Slightly aggressive 0.01 fluid Highly aggressive 1.25 fluid Highly aggressive 1.25 fluid
1.45 200 3.0..9.0
CRM
Corrosion Resistant M
Highly aggressive fluid
1.25
1.45 200 3.0..9.0
CRMS
Corrosion Resistant MS
Highly aggressive fluid
1.25
1.45 200 3.0..9.0
CR3
Corrosion Resistant 3
Highly aggressive fluid
1.25
1.45 200 3.0..9.0
Stainless Steel housing, head and base.
UCR
Ultra Corrosion Resistant
Extremely aggressive fluid
>1.25
1.45 200 3.0..9.0
Materials resistant to Sulfide Stress Cracking are used for housing, head and base.
CR0 CR2C CR2S
0.01
20 5.0..8.5
1.45 200 3.0..9.0
2018 Page 454
> Downhole Equipment > Asynchronous Motor Table 3 - Heat resistance
Abbr.
Full name
MT
Medium Temperature
HT
High Temperature
UHT
Ultra High Temperature
HHT
Hyper High Temperature
Description Ambient temperature - up to 284 oF (140 oC) Winding temperature - up to 374 oF (190 oC). Ambient temperature - up to 320 oF (160 oC) Winding temperature - up to 392 oF (200 oC). Ambient temperature - up to 356 oF (180 oC) Winding temperature - up to 428 oF (220 oC). Ambient temperature - up to 392 oF (200 oC) Winding temperature - up to 482 oF (250 oC).
Table 4 - Type of downhole sensor
NDS1
Novomet Downhole Sensor, Type 1. Intake T & P, motor vibration X & Y, motor oil temperature
NDS2
Novomet Downhole Sensor, Type 2. Intake T & P, motor vibration X & Y, motor oil temperature + pump discharge pressure
NDS3
Novomet Downhole Sensor, Type 3. Intake T & P, motor vibration X & Y, motor oil temperature + connector for Novomet Pump Discharge Sensor with Flow meter (NPDSF)
The motor thrust bearing is rated to operate under high load and high temperature.
ASYNCHRONOUS MOTORS SUMMARY (378 - 744 SERIES)
InductIon MotoRS SuMMARY (378 - 744 SERIES) Motor series
Motor OD, in
378
Power rating, hp @ 60 Hz (3500 rpm) 1-section
2-section
3-section
3.78
26 - 51
72 - 90
110 - 160
406
4.06
26 - 130
110 - 255
290 - 320
460
4.60
13 - 200
200 - 400
400 - 510
512
5.12
51 - 235
290 - 480
560 - 720
562
5.62
100 - 350
420 - 710
890
744
7.44
160 - 640
800 - 1050
PERMAnEnt MAgnEt MotoRS SuMMARY (319 - 744 SERIES) Low speed (1000 and 500 rpm) PMM for PCPs and Novomet metal-to-metal PCP Motor series
Motor OD, inches
Speed range, rpm
Power rating in one section, hp
460
4.60
100 - 500
up to 54
460
4.60
500 - 1000
up to 107
PMM rated at 3600 rpm for ESP systems (Conventional + Power Save™) Motor series
Motor OD, inches
Speed range, rpm
Power rating in one section, hp
406
4.06
1000 - 4200
10 - 225
460
4.60
1000 - 4200
35 - 360
512
5.12
1000 - 4200
51 - 480
744
7.44
1000 - 4200
96 - 1290
PMM rated at 6000 rpm for ESP systems (Conventional + Power Save™) Motor series
Motor OD, inches
Speed range, rpm
Power rating in one section, hp
319
3.19
1000 - 6000
19 - 120
406
4.06
1000 - 6000
19 - 450
460
4.60
1000 - 6000
54 - 540
512
5.12
1000 - 6000
80 - 620
744
7.44
1000 - 4200
96 - 1290
Tandem PMM rated at 6000 rpm for ESP systems (Conventional + Power Save™)
2018 Page 455
Motor series
Motor OD, inches
Speed range, rpm
Power rating in one section, hp
319
3.19
1000 - 6000
135 - 270
> Downhole Equipment > Asynchronous Motor
> 378 series
Performance Curve Asynchronous Motors 378 series
50Hz / 2910 rpm (dotted line) 60Hz / 3490 rpm (solid line)
378 series / OD 96 mm
The plot shows parameters dependence on motor load ratio: - Power factor, Current – in relative units of their nominal values. To get actual values of each parameter multiply percentage in operation point by nominal value from the table below according to selected motor model; - Efficiency – in percentage of the average nominal Efficiency for the motors of 378 series. The average nominal efficiency for Asynchronous motor of 378 series is 79.0%. To get actual nominal efficiency for all motors of 378 series see the table below.
2018 Page 456
80
90
112
161
N378AM80 1980V DBL CR0 MT
N378AM90 2040V DBL CR0 MT
N378AM110 2760V TRP CR0 MT
N378AM160 3600V TRP CR0 MT
3600
2760
2040
1980
1740
3000
2300
1700
1650
1450
-
-
-
480 970 750 900 710 990 680 810 810 1000 1000 1000
50 Hz
1000
700
500
Volts
576 1164 900 1080 852 1188 816 972 972 1200 1200 1200
-
-
-
50 Hz
30,5
27,8
30,0
29,5
28,6
Amps
29.2
28.7
29.5
Amps
79.5
79.0
79.0
0.800
0.800
0.800
0.760
0.800
79.0
79.0
79.0
79.0
78.5
Power Effactor, ficienr.u. cy, %
0.790
0.800
0.795
Power Effactor, ficienr.u. cy, %
0.06
0.06
0.06
0,72
0,43
0,46
0,36
0,33
ft/s
0,22
0,13
0,14
0,11
0,10
m/s
Min. fluid velocity
0.20
0.20
0.20
Min. fluid velocity ft/s m/s
UT LT UT LT UT LT UT CT LT UT CT LT
Type
S
S
S
Type
1.1
Installation kit for TRP Motor of 378 series
Novomet can develop Adapter for any other type of DH Sensor
Motor additional length and weight due to Novomet DH Sensor of 378 series
25.4
ft
1.1
Installation kit for DBL Motor of 378 series
Description
1.1
Installation kit for SGL Motor of 378 series
lb 18.3
Description
Extra length
Weight
Asynchronous motor accessories 378 series
100
69
56
50
45
60 Hz
1200
840
600
60 Hz
Volts
Adapter for Novomet DH Sensor of 378 series
UT - Upper tandem CT - Center tandem LT - Lower tandem
32
15 30 23 27 23 33 20 25 25 33 33 33
32
16 22
24 48 35 45 37 53 32 40 40 53 53 53
72
N378AM72 1740V DBL CR0 MT
Description
-
16 22
Motor kW @ 50 Hz
51
N378AM51 1200V SGL CR0 MT
-
-
Motor kW @ 50 Hz
Motor hp @ 60 Hz
35
S - Single
26
N378AM35 840V SGL CR0 MT
Motor hp @ 60 Hz
N378AM26 600V SGL CR0 MT
Description
5.8
4.3
3.3
7.7
m
0.5
0.5
0.5
8.3
kg
10.6 18.9 14.1 16.6 14.1 18.9 14.1 16.5 16.6 18.9 18.8 18.9
ft 3.2 5.8 4.3 5.1 4.3 5.8 4.3 5.0 5.1 5.8 5.7 5.8
m
Installation Length
19.0
14.3
10.7
Installation Length ft m
DESIGN DATA ON Asynchronous motor 378 series (OD 96 mm)
280
210
160
CR0 HT
2138030110
3050020032
2138030065
2138030264
20.0
kg
3005010135
3005010134
3005010133
3005010132
3005010131
Part Number
Extra weight 44.1
lb
160 280 213 247 213 281 214 247 247 284 282 282
kg
3005010130
3005010129
3005010128
Part Number
Part Number
353 617 470 545 470 620 472 545 545 626 622 622
lb
Weight
617
463
353
kg
Weight lb
> Downhole Equipment > Asynchronous Motor > 378 series
2018 Page 457
> Downhole Equipment > Asynchronous Motor
> 406 series
Performance Curve Asynchronous Motors 406 series
50Hz / 2910 rpm (dotted line) 60Hz / 3490 rpm (solid line)
406 series / OD 103 mm
The plot shows parameters dependence on motor load ratio: - Power factor, Current – in relative units of their nominal values. To get actual values of each parameter multiply percentage in operation point by nominal value from the table below according to selected motor model; - Efficiency – in percentage of the average nominal Efficiency for the motors of 406 series. The average nominal efficiency for Asynchronous motor of 406 series is 80.2%. To get actual nominal efficiency for all motors of 406 series see the table below.
2018 Page 458
161 177 201 225 257
289
321
N406AM160 2440V DBL CR0 MT
N406AM180 2590V DBL CR0 MT
N406AM200 2830V DBL CR0 MT
N406AM225 3000V DBL CR0 MT
N406AM255 2880V DBL CR0 MT
N406AM290 3100V TRP CR0 MT
N406AM320 3025V TRP CR0 MT
47
2400
2500
2360
2160
2030
2100
860
1200
1200
1250
1250
1180
1180
1080
1080
1080
950
1050
1050
50 Hz
70.8
0.805
80.5
80.0
79.5
80.0
79.5
80.0
80.0
80.0
Efficiency, %
80.0
80.5
80.5
80.0
80.5
81.0
80.0
80.5
81.0
81.0
80.5
Efficiency, %
S
S
S
S
S
S
S
S
S
S
S
107
66.6
1008
840
7.9
28.3
26.1
23.8
20.4
20.4
19.3
17.0
14.7
13.6
12.4
8.6
7.9
7.3
6.2
6.2
5.9
5.2
4.5
4.1
3.8
2.4
1.97 0.60
3.28 1.00
2.95 0.90
2.62 0.80
2.30 0.70
1.31 0.40
0.98 0.30
0.89 0.27
LT
CT
UT
LT
UT
LT
UT
LT
UT
LT
UT
LT
UT
LT
UT
LT
25.0
24.9
24.8
20.5
20.4
20.3
27.3
27.1
23.9
23.7
22.7
22.6
21.6
21.4
21.6
19.2
19.4
19.2
7.6
7.6
7.6
6.2
6.2
6.2
8.3
8.3
7.3
7.2
6.9
6.9
6.6
6.5
6.6
5.8
5.9
5.8
Min. fluid Installation velocity Type Length ft/s m/s ft m
1.64 0.50
0.98 0.30
0.98 0.30
1.31 0.40
0.66 0.20
0.43 0.13
0.66 0.20
0.36 0.11
0.30 0.09
0.43 0.13
0.16 0.05
Min. fluid Installation velocity Type Length ft/s m/s ft m
UT
860
0.810
0.805
0.805
0.805
0.810
0.805
0.815
Power factor, r.u.
0.805
0.810
0.810
0.810
0.805
0.805
0.805
0.810
0.810
0.805
0.802
Power factor, r.u.
CT
1008
1032
62.2
60.5
50.3
47.8
45.4
44.2
38.0
Amps
36.0
34.7
34.5
36.2
38.0
28.5
32.6
27.5
27.5
27.5
26.5
Amps
840
66.6
1032
1440
1440
1500
1500
1416
1416
1296
1296
1296
1140
1260
1260
Volts
2000
1790
1620
1380
1170
1400
1100
1000
900
710
530
50 Hz
3096 1032 2580 860
2880
3000
2832
2592
2436
2520
60 Hz
2400
2148
1944
1656
1404
1680
1320
1200
1080
852
636
60 Hz
Volts
107 199.8 66.6 3024 1008 2520 840
107
60
60
80
80
70
70
62.5
62.5
55
55
53
60
180
160
140
125
110
100
45
96
96
96
129
129
113
113
101
101
88
88
85
76
90
45
72
72
145
N406AM145 2520V DBL CR0 MT
Motor kW @ 50 Hz
80
70
63
56
28
Motor hp @ 60 Hz
129
N406AM130 2400V SGL CR0 MT
Description
113
N406AM115 2150V SGL CR0 MT
S - Single
101
N406AM100 1940V SGL CR0 MT
50
80
72 90
64
N406AM64 1320V SGL CR0 MT
N406AM72 1680V SGL CR0 MT
N406AM80 1400V SGL CR0 MT
40 45
51
N406AM50 1200V SGL CR0 MT
N406AM90 1660V SGL CR0 MT
32
45
N406AM45 1080V SGL CR0 MT
16
35
22
26
Motor kW @ 50 Hz
N406AM35 850V SGL CR0 MT
Motor hp @ 60 Hz
N406AM26 640V SGL CR0 MT
Description
DESIGN DATA ON Asynchronous motor 406 series (OD 103 mm)
493
450
409
351
351
330
291
250
230
210
123
kg
946
935
942
767
776
783
1036
1005
902
904
858
860
814
820
814
734
725
734
lb
429
424
427
348
352
355
470
456
409
410
389
390
369
372
369
333
329
333
kg
Weight
1087
992
902
774
774
728
642
551
507
463
271
lb
Weight
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
Part Number
3005020449
TBA
TBA
TBA
TBA
TBA
TBA
3005020443
TBA
TBA
TBA
Part Number
> Downhole Equipment > Asynchronous Motor > 406 series
2018 Page 459
73.3
1092
1020 910
850
83.3
134
1188
1092 990
910
134
83.3
1188
990
134 249.9 83.3 3564 1188 2970 990
73.3
118
118 219.9 73.3 3276 1092 2730 910
118
850
50 Hz
3060 1020 2550 850
1020
60 Hz
Volts
75.6
72.0
73.5
Amps
0.805
0.810
0.810
Power factor, r.u.
80.0
80.0
80.0
Efficiency, %
3.94 1.20
2.20 0.67
2.62 0.80
LT
CT
UT
LT
CT
UT
LT
CT
UT
1.1
Installation kit for TRP Motor of 406 series
Novomet can develop Adapter for any other type of DH Sensor
Motor additional length and weight due to Novomet DH Sensor of 378 series
25.6
ft
1.1
Installation kit for DBL Motor of 406 series
Description
1.1
Installation kit for SGL Motor of 406 series
lb 21.6
Adapter for Novomet DH Sensor of 378 series
Description
Extra length
Weight
7.8
m
0.5
0.5
0.5
9.8
kg
28.6
29.1
29.1
27.5
28.0
27.9
25.2
25.7
24.8
8.7
8.9
8.9
8.4
8.5
8.5
7.7
7.8
7.6
Min. fluid Installation velocity Type Length ft/s m/s ft m
Asynchronous Motor accessories 406 series
402
N406AM400 3564V TRP CR0 MT
UT - Upper tandem CT - Center tandem LT - Lower tandem
354
N406AM350 3280V TRP CR0 MT
70
70
113
210
70
113
113 338
Motor kW @ 50 Hz
Motor hp @ 60 Hz
N406AM340 3060V TRP CR0 MT
Description
44.1
lb
1080
1034
1041
1034
1003
1010
946
935
942
lb
CRO, HT
Extra weight
2138030054
2138030050
2138030047
2138030163
20.0
kg
TBA
TBA
TBA
Part Number
Part Number
490
469
472
469
455
458
429
424
427
kg
Weight
> Downhole Equipment > Asynchronous Motor > 406 series
2018 Page 460
> Downhole Equipment > Asynchronous Motor
> 460 series
Performance Curve Asynchronous Motors 460 series
50Hz / 2910 rpm (dotted line) 60Hz / 3490 rpm (solid line)
406 series / OD 117 mm
The plot shows parameters dependence on motor load ratio: - Power factor, Current – in relative units of their nominal values. To get actual values of each parameter multiply percentage in operation point by nominal value from the table below according to selected motor model; - Efficiency – in percentage of the average nominal Efficiency for the motors of 460 series. The average nominal efficiency for Asynchronous motor of 460 series is 82.9%. To get actual nominal efficiency for all motors of 460 series see the table below.
2018 Page 461
35
45
51
64
72
80
90
101
113
129
145
161
177
201
N460AM45 1080V SGL CR0 MT
N460AM51 1200V SGL CR0 MT
N460AM64 1440V SGL CR0 MT
N460AM72 1680V SGL CR0 MT
N460AM80 1800V SGL CR0 MT
N460AM90 1800V SGL CR0 MT
N460AM100 2280V SGL CR0 MT
N460AM115 2460V SGL CR0 MT
N460AM130 2640V SGL CR0 MT
N460AM145 2400V SGL CR0 MT
N460AM160 2360V SGL CR0 MT
N460AM175 2500V SGL CR0 MT
N460AM200 2820V SGL CR0 MT
S - Single
26
N460AM35 880V SGL CR0 MT
125
110
100
90
80
70
63
56
50
45
40
32
28
22
16
Motor hp @ Motor kW @ 60 Hz 50 Hz
N460AM26 740V SGL CR0 MT
Description
2820
2508
2364
2400
2640
2460
2280
1800
1800
1680
1440
1200
1080
876
744
60 Hz
Volts
2350
2090
1970
2000
2200
2050
1900
1500
1500
1400
1200
1000
900
730
620
50 Hz
45.2
44.3
43.0
39.0
30.6
28.7
28.0
31.5
28.0
27.0
27.8
26.6
26.5
25.5
22.5
0.820
0.825
0.825
0.810
0.830
0.830
0.825
0.830
0.830
0.825
0.829
0.835
0.820
0.827
0.815
Power Amps factor, r.u.
83.0
83.2
83.0
83.0
83.0
83.0
83.2
83.2
83.0
83.7
84.0
83.5
83.0
82.7
82.2
Efficiency, %
3.61
2.95
2.95
1.21
TBA
0.69
0.56
0.52
0.49
0.39
0.43
0.33
0.33
0.23
0.33
ft/s
1.10
0.90
0.90
0.37
TBA
0.21
0.17
0.16
0.15
0.12
0.13
0.10
0.10
0.07
0.10
m/s
Min. fluid velocity
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
Type
28.7
24.9
24.9
TBA
22.4
21.2
18.7
17.4
16.2
13.7
12.5
11.2
10.0
9.1
6.6
ft
8.7
7.6
7.6
TBA
6.8
6.5
5.7
5.3
4.9
4.2
3.8
3.4
3.0
2.8
2.0
m
Installation Length
DESIGN DATA ON Asynchronous motor 460 series (OD 117 mm)
1396
1268
1211
TBA
1142
1080
1019
895
833
772
650
580
518
456
337
lb
633
575
549
TBA
518
490
462
406
378
350
295
263
235
207
153
kg
Weight
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
3005031134
TBA
TBA
TBA
Part Number
> Downhole Equipment > Asynchronous Motor > 460 series
2018 Page 462
201 225 257 289 322 354 402
434
482
482
515
579
579
N460AM200 2740V DBL CR0 MT
N460AM225 2640V DBL CR0 MT
N460AM255 2880V DBL CR0 MT
N460AM290 2880V DBL CR0 MT
N460AM320 3020V DBL CR0 MT
N460AM350 3240V DBL CR0 MT
N460AM400 3600V DBL CR0 MT
N460AM430 3960V TRP CR0 MT
N460AM480 4460V TRP CR0 MT
N460AM480 3670V TRP CR0 MT
N460AM510 4680V TRP CR0 MT
N460AM580 5180V TRP CR0 MT
N460AM580 4140V TRP CR0 MT
2018 Page 463
UT - Upper tandem CT - Center tandem LT - Lower tandem
643
161
N460AM160 2400V DBL CR0 MT
N460AM640 5470V TRP CR0 MT
145
214
3000
2700
2520
2400
2400
2200
2280
2000
1900
820
1500
1500
1350
1350
1260
1260
1200
1200
1200
1200
1100
1100
1140
1140
1000
1000
950
950
3720 1020
1240
1240
1240
1240
1560
1224 1300
1020
3672 1224 3060 1020
1224
1488
4464 1488
1488
1488
4140
5184
1440
1300
1824
1380
1380 3450
1380
1728
1520
1150
1150
1150
1440
1728 4320 1440
1728
1560
133.3
1824
1520
133.3 5472 1824 4560 1520
133.3 400
214 214
120
193
120
120 360
193 193
120
193
120
120
193 360
106.7
172 193
984
1800
1800
1620
1620
1512
1512
1440
1440
1440
1440
1320
1320
1368
1368
1200
1200
1140
1140
50 Hz
3960 1488 3300 1240
3600
3240
3024
2880
2880
2640
2736
2400
2280
60 Hz
Volts
106.7 4680 1560 3900 1300
106.7 320
172 172
100
161
100
100 300
161 161
100
100
161
300
100
161
161
101
68
125
125
110
110
100
100
90
90
80
80
70
70
62.5
62.5
50
50
45
45
101
270
250
220
200
180
160
140
125
100
90
162
162
109
201
201
177
177
161
161
145
145
129
129
113
113
101
101
80
80
72
72
Motor hp @ Motor kW @ 60 Hz 50 Hz
N460AM145 2280V DBL CR0 MT
Description
74.5
89.5
71.0
70.3
84.0
69.0
70.0
71.0
69.3
67.0
63.7
56.0
53.5
46.1
42.5
40.0
0.825
0.822
0.825
0.822
0.823
0.822
0.820
0.825
0.827
0.830
0.822
0.829
0.830
0.825
0.827
0.830
82.8
82.3
82.5
82.5
82.5
82.6
82.5
82.4
82.6
82.7
83.0
83.0
83.1
83.6
82.9
82.7
9.84
8.20
9.19
6.89
5.58
5.58
6.23
7.22
4.59
3.28
2.13
2.62
1.21
0.85
1.02
1.41
3.00
2.50
2.80
2.10
1.70
1.70
1.90
2.20
1.40
1.00
0.65
0.80
0.37
0.26
0.31
0.43
Min. fluid Power Effivelocity Amps factor, ciency, r.u. % ft/s m/s
LT
CT
UT
LT
CT
UT
LT
CT
UT
LT
CT
UT
LT
CT
UT
LT
CT
UT
LT
CT
UT
LT
UT
LT
UT
LT
UT
LT
UT
LT
UT
LT
UT
LT
UT
LT
UT
LT
UT
Type
29.8
29.6
27.1
28.5
28.3
28.5
28.5
28.3
28.5
26.0
25.8
26.0
26.0
25.8
26.0
24.8
24.6
24.8
24.8
24.6
17.3
29.8
27.1
27.3
27.3
26.0
26.0
24.8
24.8
21.0
21.0
22.3
22.3
21.0
21.0
16.0
16.0
13.5
13.5
ft
9.1
9.0
8.3
8.7
8.6
8.7
8.7
8.6
8.7
7.9
7.9
7.9
7.9
7.9
7.9
7.5
7.5
7.5
7.5
7.5
5.3
9.1
8.3
8.3
8.3
7.9
7.9
7.5
7.5
6.4
6.4
6.8
6.8
6.4
6.4
4.9
4.9
4.1
4.1
m
Installation Length
1460
1488
1473
1398
1422
1407
1398
1422
1407
1274
1286
1279
1274
1286
1279
1215
1219
1217
1215
1219
845
1460
1473
1336
1343
1274
1279
1215
1217
1028
1030
1089
1091
1028
1030
770
783
637
655
lb
662
675
668
634
645
638
634
645
638
578
583
580
578
583
580
551
553
552
551
553
383
662
668
606
609
578
580
551
552
466
467
494
495
466
467
349
355
289
297
kg
Weight
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
3005030565
TBA
TBA
TBA
TBA
TBA
TBA
TBA
Part Number
DESIGN DATA ON Asynchronous motor 460 series (OD 117 mm) continued
> Downhole Equipment > Asynchronous Motor > 460 series
1.1 1.1
Installation kit for DBL Motor of 460 series
Installation kit for TRP Motor of 460 series
Novomet can develop Adapter for any other type of DH Sensor
Motor additional length and weight due to Novomet DH Sensor of 378 series
25.0
ft
1.1
Description
22.1
Adapter for Novomet DH Sensor of 378 series
lb
Installation kit for SGL Motor of 460 series
Description
Extra length
Weight
Asynchronous Motor accessories 460 series
7.6
m
0.5
0.5
0.5
10.0
kg
lb 52.9
kg 24.0
Extra weight
2138030044
2138030040
2138030025
2138030168
CRO, HT
Part Number
> Downhole Equipment > Asynchronous Motor > 460 series
2018 Page 464
> Downhole Equipment > Asynchronous Motor
> 512 series
Performance Curve Asynchronous Motors 512 series
50Hz / 2910 rpm (dotted line) 60Hz / 3490 rpm (solid line)
512 series / OD 130 mm
The plot shows parameters dependence on motor load ratio: - Power factor, Current – in relative units of their nominal values. To get actual values of each parameter multiply percentage in operation point by nominal value from the table below according to selected motor model; - Efficiency – in percentage of the average nominal Efficiency for the motors of 512 series. The average nominal efficiency for Asynchronous motor of 512 series is 84.5%. To get actual nominal efficiency for all motors of 512 series see the table below.
2018 Page 465
51
72
90
101
113
129
145
161
177
201
225
N512AM72 1690V SGL CR0 MT
N512AM90 2050V SGL CR0 MT
N512AM100 2400V SGL CR0 MT
N512AM110 2700V SGL CR0 MT
N512AM130 2700V SGL CR0 MT
N512AM145 2860V SGL CR0 MT
N512AM160 3730V SGL CR0 MT
N512AM175 4080V SGL CR0 MT
N512AM200 2750V SGL CR0 MT
N512AM225 2940V SGL CR0 MT
S - Single
35
N512AM51 1320V SGL CR0 MT
Motor hp @ 60 Hz
N512AM35 960V SGL CR0 MT
Description
140
125
110
100
90
80
70
63
56
45
32
22
Motor kW @ 50 Hz
2940
2748
4080
3732
2856
2700
2700
2400
2052
1692
1320
960
60 Hz
Volts
2450
2290
3400
3110
2380
2250
2250
2000
1710
1410
1100
800
50 Hz
45.6
43.6
25.8
25.6
25.5
25.1
25.0
25.2
26.2
25.7
23.4
22.0
0.860
0.855
0.860
0.860
0.855
0.855
0.855
0.855
0.860
0.855
0.850
0.850
84.3
84.6
84.4
84.4
84.4
84.5
84.5
84.4
84.1
84.1
84.4
84.8
Power EfAmps factor, ficienr.u. cy, %
2.0
1.2
1.6
1.4
1.2
1.0
0.9
0.9
1.3
0.9
0.4
0.2
0.60
0.37
0.49
0.43
0.37
0.30
0.27
0.28
0.40
0.27
0.11
0.07
m/s
Min. fluid velocity
S
S
S
S
S
S
S
S
S
S
S
S
Type
27.1
25.5
22.2
20.6
19.0
17.4
15.7
14.1
12.5
10.9
9.3
7.6
ft
8.3
7.8
6.8
6.3
5.8
5.3
4.8
4.3
3.8
3.3
2.8
2.3
m
Installation Length
DESIGN DATA ON Asynchronous motor 512 series (OD 130 mm)
1618
1513
1312
1215
1120
1025
931
831
730
626
516
399
lb
734
686
595
551
508
465
422
377
331
284
234
181
kg
Weight
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
Part Number
> Downhole Equipment > Asynchronous Motor > 512 series
2018 Page 466
289
322
354
402
482
562
643
724
900
N512AM290 3260V DBL CR0 MT
N512AM320 3600V DBL CR0 MT
N512AM350 3240V DBL CR0 MT
N512AM400 3480V DBL CR0 MT
N512AM480 3550V DBL CR0 MT
N512AM560 4280V TRP CR0 MT
N512AM640 5000V TRP CR0 MT
N512AM720 3960V TRP CR0 MT
N512AM900 4140V TRP CR0 MT
300
186.6
186.6
186.6 560
300
300
150
241
150
150 450
241
241
133.3
133.3
214
400
133.3
214
214
116.6
116.6
150
150
125
125
110
110
100
100
90
90
116.6
350
300
250
220
200
180
80
187
187
187
241
241
201
201
177
177
161
161
145
145
160
80
129
129
257
Motor kW @ 50 Hz
Motor hp @ 60 Hz
N512AM260 2950V DBL CR0 MT
Description
4140
3960
5004
4284
3552
3480
3240
3600
3264
2952
1380
1380
1380
1320
1320
1320
1668
1668
1668
1428
1428
1428
1776
1776
1740
1740
1620
1620
1800
1800
1632
1632
1476
1476
60 Hz
3450
3300
4170
3570
2960
2900
2700
3000
2720
1150
1150
1150
1100
1100
1100
1390
1390
1390
1190
1190
1190
1480
1480
1450
1450
1350
1350
1500
1500
1360
1360
1230
1230
50 Hz 2460
Volts
129.0
108.0
76.6
78.0
80.7
68.5
65.3
53.0
52.5
51.5
Amps
0.866
0.860
0.855
0.860
0.860
0.860
0.850
0.860
0.860
0.860
84.0
84.8
84.7
84.6
84.4
84.6
84.9
84.7
84.7
84.9
Power Efficienfactor, cy, % r.u.
14.76
3.61
2.85
2.95
3.61
2.10
1.35
1.74
1.54
1.25
ft/s
4.50
1.10
0.87
0.90
1.10
0.64
0.41
0.53
0.47
0.38
m/s
Min. fluid velocity
LT
CT
UT
LT
CT
UT
LT
CT
UT
LT
CT
UT
LT
UT
LT
UT
LT
UT
LT
UT
LT
UT
LT
UT
Type
28.6
28.5
28.6
28.6
28.5
28.6
27.0
26.9
27.0
23.8
23.6
23.7
28.6
28.6
25.4
25.4
23.8
23.7
20.5
20.5
18.9
18.9
17.3
17.2
ft
8.7
8.7
8.7
8.7
8.7
8.7
8.2
8.2
8.2
7.2
7.2
7.2
8.7
8.7
7.7
7.7
7.2
7.2
6.3
6.2
5.8
5.7
5.3
5.3
m
Installation Length
1724
1704
1713
1724
1704
1713
1627
1607
1616
1433
1416
1422
1724
1713
1528
1517
1433
1422
1237
1228
1133
1125
1043
1034
lb
782
773
777
782
773
777
738
729
733
650
642
645
782
777
693
688
650
645
561
557
514
510
473
469
kg
Weight
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
Part Number
> Downhole Equipment > Asynchronous Motor > 512 series
2018 Page 467
1.1 1.1
Installation kit for DBL Motor of 512 series
Installation kit for TRP Motor of 512 series
Novomet can develop Adapter for any other type of DH Sensor
Motor additional length and weight due to Novomet DH Sensor of 378 series
24.8
ft
1.1
Installation kit for SGL Motor of 512 series
Description
26.5
lb
Adapter for Novomet DH Sensor of 378 series
Description
Extra length
Weight
Asynchronous Motor accessories 512 series
7.6
m
0.5
0.5
0.5
12
kg
kg 20.0
Extra weight
52.9
lb
2138030062 2138030062
2138030058 2138030058
2138030034 2138030034
2138030228
CRO, HT
Part Number
> Downhole Equipment > Asynchronous Motor > 512 series
2018 Page 468
> Downhole Equipment > Asynchronous Motor
> 562 series
Performance Curve Asynchronous Motors 562 series
50Hz / 2910 rpm (dotted line) 60Hz / 3420 rpm (solid line)
562 series / OD 143 mm
The plot shows parameters dependence on motor load ratio: - Power factor, Current – in relative units of their nominal values. To get actual values of each parameter multiply percentage in operation point by nominal value from the table below according to selected motor model; - Efficiency – in percentage of the average nominal Efficiency for the motors of 562 series. The average nominal efficiency for Asynchronous motor of 562 series is 85.7%. To get actual nominal efficiency for all motors of 562 series see the table below.
2018 Page 469
243
264
297
306
354
N562AM240 2880V SGL CR0 HT
N562AM245 3120V SGL CR0 HT
N562AM265 2964V SGL CR0 HT
N562AM295 2880V SGL CR0 HT
N562AM310 2916V SGL CR0 HT
N562AM350 3120V SGL CR0 HT
S - Single
198
238
N562AM200 1284V SGL CR0 HT
177
N562AM175 2400V SGL CR0 HT
198
177
N562AM160 2340V SGL CR0 HT
N562AM200 2916V SGL CR0 HT
161
N562AM140 2040V SGL CR0 HT
N562AM175 1164V SGL CR0 HT
119
142
N562AM120 1800V SGL CR0 HT
101
220
190
185
164
151
148
123
123
110
110
100
88
74
63
Motor hp @ Motor kW @ 60 Hz 50 Hz
N562AM100 1476V SGL CR0 HT
Description
3120
2916
2880
2964
3120
2880
1284
2916
1164
2400
2340
2040
1800
1476
60 Hz
Volts
2600
2430
2400
2470
2600
2400
1070
2430
970
2000
1950
1700
1500
1230
50 Hz
65.0
60.0
62.0
51.0
44.6
48.5
88.5
39.0
88.0
41.5
39.5
40.0
39.0
40.0
Amps
0.889
0.883
0.839
0.880
0.882
0.886
0.877
0.882
0.870
0.919
0.881
0.884
0.858
0.872
Power factor, r.u.
85.4
85.8
85.8
85.9
86.0
84.7
86.0
86.1
86.0
84.9
85.9
85.8
85.9
86.4
Efficiency, %
1.97
1.31
1.31
0.98
0.98
1.97
0.98
0.98
0.98
1.31
0.98
0.98
0.98
0.98
ft/s
0.60
0.40
0.40
0.30
0.30
0.60
0.30
0.30
0.30
0.40
0.30
0.30
0.30
0.30
m/s
Min. fluid velocity
S
S
S
S
S
S
S
S
S
S
S
S
S
S
Type
26.7
25.2
23.8
22.3
20.8
19.3
17.9
17.9
16.4
16.4
14.9
13.4
12.0
10.5
ft
8.1
7.7
7.2
6.8
6.3
5.9
5.4
5.4
5.0
5.0
4.5
4.1
3.6
3.2
m
Installation Length
DESIGN DATA ON Asynchronous motor 562 series (OD 143 mm)
2117
1996
1872
1755
1638
1515
1391
1394
1270
1272
1147
1028
906
785
lb
960
905
849
796
743
687
631
632
576
577
520
466
411
356
kg
Weight
3005080059
3005080058
3005080057
3005080056
3005080055
3005080054
3005080073
3005080053
3005080072
3005080052
3005080051
3005080050
3005080049
3005080048
Part Number
> Downhole Equipment > Asynchronous Motor > 562 series
2018 Page 470
508
546
596
644
708
891
N562AM510 4704V DBL CR0 MT
N562AM550 3768V DBL CR0 MT
N562AM600 4200V DBL CR0 MT
N562AM640 4392V DBL CR0 MT
N562AM710 4800V DBL CR0 MT
N562AM890 4800V TRP CR0 MT
UT - Upper tandem CT - Center tandem LT - Lower tandem
476
N562AM480 4320V DBL CR0 MT
297
297
297
354
354
322
322
297
297
273
273
254
254
238
238
209
555
440
400
370
340
316
296
260
185
185
185
220
220
200
200
185
185
170
170
158
158
148
148
130
130
209
418
Motor kW @ 50 Hz
Motor hp @ 60 Hz
N562AM420 3960V DBL CR0 MT
Description
4800
4800
4392
4200
3768
4704
4320
3960
1600
1600
1600
2400
2400
2196
2196
2100
2100
1884
1884
2352
2352
2160
2160
1980
1980
60 Hz
4000
4000
3660
3500
3140
3920
3600
1333
1333
1333
2000
2000
1830
1830
1750
1750
1570
1570
1960
1960
1800
1800
1650
1650
50 Hz 3300
Volts
0.871
0.865
0.880
0.859
0.884
0.881
0.881
0.871
85.7
85.8
85.8
85.9
85.8
85.6
85.5
85.7
107.5
86.0
84.0
83.0
83.0
62.5
63.5
61.5
Power EfAmps factor, ficienr.u. cy, %
1.97
1.97
1.97
1.97
1.97
1.97
1.97
1.97
ft/s
0.60
0.60
0.60
0.60
0.60
0.60
0.60
0.60
m/s
Min. fluid velocity
LT
CT
UT
LT
UT
LT
UT
LT
UT
LT
UT
LT
UT
LT
UT
LT
UT
Type
23.4
23.3
23.6
26.4
26.6
24.9
25.1
23.4
23.6
21.9
22.2
20.5
20.7
19.0
19.2
17.5
17.7
ft
7.1
7.1
7.2
8.0
8.1
7.6
7.7
7.1
7.2
6.7
6.8
6.2
6.3
5.8
5.9
5.3
5.4
m
Installation Length
1874
1874
1874
2126
2126
2004
2004
1881
1881
1760
1760
1632
1632
1508
1508
1387
1387
lb
850
850
850
964
964
909
909
853
853
798
798
740
740
684
684
629
629
kg
Weight
3005080067
3005080066
3005080065
3005080064
3005080063
3005080062
3005080061
3005080060
Part Number
DESIGN DATA ON Asynchronous motor 562 series (OD 143 mm) continued
> Downhole Equipment > Asynchronous Motor > 562 series
2018 Page 471
1.1 1.1
Installation kit for DBL Motor of 562 series
Installation kit for TRP Motor of 562 series
Novomet can develop Adapter for any other type of DH Sensor
Motor additional length and weight due to Novomet DH Sensor of 378 series
24.8
ft
1.1
Description
27.6
Installation kit for SGL Motor of 562 series
lb
Adapter for Novomet DH Sensor of 378 series
Description
Extra length
Weight
Asynchronous Motor accessories 562 series
7.6
m
0.5
0.5
0.5
12.5
kg
lb 52.9
kg 24.0
Extra weight
2138030454
2138030453
2138030183
2138030450
CRO, HT
Part Number
> Downhole Equipment > Asynchronous Motor > 562 series
2018 Page 472
> Downhole Equipment > Asynchronous Motor
> 744 series
Performance Curve Asynchronous Motors 744 series
50Hz / 2910 rpm (dotted line) 60Hz / 3490 rpm (solid line)
744 series / OD 189 mm
The plot shows parameters dependence on motor load ratio: - Power factor, Current – in relative units of their nominal values. To get actual values of each parameter multiply percentage in operation point by nominal value from the table below according to selected motor model; - Efficiency – in percentage of the average nominal Efficiency for the motors of 744 series. The average nominal efficiency for Asynchronous motor of 744 series is 88.3%. To get actual nominal efficiency for all motors of 744 series see the table below.
2018 Page 473
322
402
482
563
643
N744AM320 3480V SGL CR0 MT
N744AM400 3360V SGL CR0 MT
N744AM480 3360V SGL CR0 MT
N744AM560 3480V SGL CR0 MT
N744AM640 3720V SGL CR0 MT
804
N744AM800 4200V DBL CR0 MT
523
523
402
402
362
362
650
500
450
325
325
250
250
225
225
UT - Upper tandem CT - Center tandem LT - Lower tandem
Volts
4800
4200
2400
2400
2100
2100
1860
100.0
93.0
84.0
69.0
53.0
51.5
44.0
43.5
Amps
4000
3500
2000
2000
1750
1750
1550
1550
50 Hz 3100
Volts
3100
2900
2800
2800
2900
2400
2200
1800
50 Hz
1860
60 Hz
3720
3480
3360
3360
3480
2880
2640
2160
60 Hz
3720
* - Min fluid velocity is given for 9-5/8" casing at 120 oC (248 oF)
N744AM1050 4800V DBL CR0 MT 1046
724
N744AM730 3720V DBL CR0 HT
Description
400
350
300
250
200
160
125
100
Motor hp @ Motor kW @ 60 Hz 50 Hz
257
N744AM255 2880V SGL CR0 MT
S - Single
161
201
N744AM160 2160V SGL CR0 MT
Motor hp @ Motor kW @ 60 Hz 50 Hz
N744AM200 2640V SGL CR0 MT
Description
87.9
87.9
88.2
88.5
88.4
88.3
88.6
88.5
Efficiency, %
6.89
4.92
1.31
1.57
2.76
2.30
1.08
0.98
ft/s
2.10
1.50
0.40
0.48
0.84
0.70
0.33
0.30
m/s
Min. fluid velocity
S
S
S
S
S
S
S
S
Type
125.0
112.0
111.0
0.857
0.843
0.859
87.9
88.4
88.3
9.84
3.45
7.22
3.00
1.05
2.20
UT
LT
UT
LT
UT
Power Effi- Min. fluid velocity Amps factor, ciency, Type r.u. % ft/s m/s
0.853
0.856
0.840
0.848
0.855
0.853
0.847
0.842
Power factor, r.u.
8.3
8.3
7.7
6.3
5.0
4.4
4.1
3.6
m
22.6
22.6
18.0
18.0
17.2
17.2
ft
6.9
6.9
5.5
5.5
5.3
5.2
m
Installation Length
27.2
27.2
25.4
20.8
16.3
14.4
13.5
11.7
ft
Installation Length
DESIGN DATA ON Asynchronous motor 744 series (OD 185 mm)
1650
1650
1380
1180
930
797
750
640
kg
1150
1150
1107
1108
kg
2999 1360
2999 1360
2536
2536
2441
2443
lb
Weight
3638
3638
3043
2602
2051
1757
1654
1411
lb
Weight
3005050037
3005050040
TBA
Part Number
3005050066
3005050118
3005050117
3005050065
3005050036
3005050116
3005050064
3005050063
Part Number
> Downhole Equipment > Asynchronous Motor > 744 series
2018 Page 474
1.1
Installation kit for DBL Motor of 744 series
Motor additional length and weight due to Novomet DH Sensor of 378 series
Novomet can develop Adapter for any other type of DH Sensor
28.0
ft
1.1
Description
29.3
Installation kit for SGL Motor of 744 series
lb
Adapter for Novomet DH Sensor of 378 series
Description
Extra length
Weight
Asynchronous Motor accessories 744 series
8.5
m
0.5
0.5
13.3
kg
kg 40.0
Extra weight
88.2
lb
2138030158
2138030111
2138030451
CRO, HT
Part Number
> Downhole Equipment > Asynchronous Motor > 744 series
2018 Page 475
> Downhole Equipment > Permanent Magnet Motor
GLOSSARY Permanent Magnet Motor N
XXX
PM XXX
XXXXV
XXXXRPM
XXXN-M
XXX
XXX
XXX
HRZ
NDSX Manufacturer (Novomet) Series, (see Table 1) Permanent Magnet motor Power, hp (at rated rotation frequency) Rated voltage, V (at rated rotation frequency) Rated rotation frequency, rpm Torque, N-m (only for 500 and 1000 rpm PMM in 460 series) Single and Tandem motors: SGL - Single motor DBL - Double motor TRP - Triple motor Corrosion resistance, (see Table 2) Heat resistance, (see Table 3) Design modifications HRZ - for horizontal operation, if applicable Type of Downhole Sensor, if applicable (see Table 4)
e.g., N512PM345 3840V 3.6RPM SGL CR0 UHT NDS2 e.g., N460PM54 1630V 0.5RPM 764N-M SGL CR0 UHT NDS2
Table 1 - Series
Series
HSG OD, in
HSG OD, mm
319
3.19
81
406
4.06
103
460
4.60
117
512
5.12
130
744
7.44
189
Table 2 - Corrosion resistance
Abbr.
Full name
CR0
Corrosion Resistant 0
CR2C
Fluid
Max chemical content, g/l CO2 Cl H2S
pH
Description
Slightly aggressive 0.01 fluid
0.01
20 5.0..8.5
Housing, head and base are from Carbon Steel.
Corrosion Resistant 2C
Highly aggressive fluid
1.25
1.45
200 3.0..9.0
Housing, head and base are coated with thermal spray coatings.
CR2S
Corrosion Resistant 2S
Highly aggressive fluid
1.25
1.45
200 3.0..9.0
Stainless Steel head and base. Housing is coated with thermal spray coatings.
CRM
Corrosion Resistant M
Highly aggressive fluid
1.25
1.45
CRMS
Corrosion Resistant MS
Highly aggressive fluid
1.25
1.45
CR3
Corrosion Resistant 3
Highly aggressive fluid
1.25
1.45
200 3.0..9.0 Stainless Steel housing, head and base.
1.45
Materials resistant to Sulfide Stress 200 3.0..9.0 Cracking are used for housing, head and base.
UCR
Ultra Corrosion Extremely aggres>1.25 Resistant sive fluid
Housing, head and base are from Carbon 200 3.0..9.0 Steel and coated with Monel alloy thermal spray. Stainless Steel head and base. Housing 200 3.0..9.0 is from Carbon Steel and coated with Monel alloy thermal spray.
2018 Page 476
> Downhole Equipment > Permanent Magnet Motor Table 3 - Heat resistance
Abbr.
Full name
HT
High Temperature
UHT
Ultra High Temperature
HHT
Hyper High Temperature
Description Ambient temperature - up to 320 oF (160 oC) Winding temperature - up to 392 oF (200 oC). Ambient temperature - up to 356 oF (180 oC) Winding temperature - up to 428 oF (220 oC). Ambient temperature - up to 392 oF (200 oC) Winding temperature - up to 482 oF (250 oC).
Table 4 - Type of downhole sensor
NDS1
Novomet Downhole Sensor, Type 1. Intake T & P, motor vibration X & Y, motor oil temperature
NDS2
Novomet Downhole Sensor, Type 2. Intake T & P, motor vibration X & Y, motor oil temperature + pump discharge pressure
NDS3
Novomet Downhole Sensor, Type 3. Intake T & P, motor vibration X & Y, motor oil temperature + connector for Novomet Pump Discharge Sensor with Flow meter (NPDSF)
The motor thrust bearing is rated to operate under high load and high temperature.
PERMANENT MAGNET MOTOR SUMMARY (319 – 744 SERIES)
Low speed (1000 and 500 rpm) PMM for PCPs and Novomet Rotary Displacement Pump Motor series Motor OD, inches Speed range, rpm Power rating in one section, hp 460 4.60 100 - 500 up to 54 460 4.60 500 - 1000 up to 107 PMM rated at 3600 rpm for ESP systems (Conventional + Power Save™) Motor series Motor OD, inches Speed range, rpm Power rating in one section, hp 406 4.06 1000 - 4200 10 - 225 460 4.60 1000 - 4200 35 - 360 512 5.12 1000 - 4200 51 - 480 744 7.44 1000 - 4200 96 - 1290 PMM rated at 6000 rpm for ESP systems (Conventional + Power Save™) Motor series Motor OD, inches Speed range, rpm Power rating in one section, hp 319 3.19 1000 - 6000 19 - 120 406 4.06 1000 - 6000 19 - 450 460 4.60 1000 - 6000 54 - 540 512 5.12 1000 - 6000 80 - 620 Tandem PMM rated at 6000 rpm for ESP systems (Conventional + Power Save™) Motor series Motor OD, inches Speed range, rpm Power rating of tandem PMM, hp 319 3.19 1000 - 6000 135 - 270
2018 Page 477
> Downhole Equipment > Permanent Magnet Motor
PERMANENT MAGNET MOTOR
Applications: • Conventional ESP systems • Power Save™ ESP systems • PCP systems • Novomet system for high-viscous fluids
#
Permanent Magnet Motor (PMM) is synchronous motor. Stator manufacturing technique is similar to that of asynchronous motor. Rotor has permanent magnets made from rare-earth alloys forcing high level of magnet induction. At a single moment only two phases are controlled by VSD vector system.
Rated power, Rated volt- Inom, Rated hp age, V A rpm
Motor abbreviation
Efficiency, %
Power Fluid velocity Length, Wt, lb factor past motor, m/s ft ±0.5%
1
N460AM160, 2400V, SGL
160
2400
40
3600
84
0.86
0.3
25 ft
1244 lb
2
N460PM160, 3230V, 3600rpm, SGL
160
3230
27
3600
90.8
0.95
0.1
18 ft
772 lb
3
N460PM135,2480V, 6000rpm, SGL
135
2480
30
6000
91.7
0.95
0.4
10 ft
452 lb
Permanent Magnet Motor vs. Asynchronous Motor N460AM160 2400V SGL (135hp@ 3000rpm)
25 ft
N460PM160 3230V 3600rpm SGL (135hp@ 3000rpm) 18 ft
N460PM135 2480V 6000rpm SGL (135hp@ 6000rpm) 10 ft
Benefits: • Smaller size and weight at same power output in comparison with asynchronous motor (excellent solution for offshore applications) • Wider ranges of rotation frequency regulation (100-1000, 10004200 and 3000-6000 rpm) • Reduced energy consumption • Stable torque over wide operation range • Power factor is near to 1 • Lower specific heat release due to higher efficiency • High efficiency (90-94%) vs. asynchronous motors up to 86%
2018 Page 478
> Downhole Equipment > Permanent Magnet Motor
Parameters comparison for Permanent Magnet Motor and Asynchronous Motor of 744 series With PMM we receive greater horsepower 950hp vs. 545hp (increase by 74%) per length of motor. PMM and Asynchronous motor of 744 series Parameter
PMM, 744 series, 1 section
AM, 744 series, 1 section
Motor length, ft Motor weight, lb Number of sections Number of rotor packs, pcs Efficiency, % Power factor Rotation speed, prm Motor OD, in Rated power, HP Rated voltage, V Rated current, A Electromagnetic torque, N-m
27 3505 1 21 94.5 0.95 3000 7.44 950 4200 123 2230
27.2 3638 1 26 89.3 0.903 3000 7.44 545 3100 94 1505
To receive higher horse power in Permanent Magnet Motor we shall speed up to 6000rpm, in Asynchronous Motor we shall add two more sections with total length of 69 ft weight 7805 lb, thus 3 times higher than in Permanent Magnet Motor. PMM and Asynchronous Motor of 744 series Parameter
PMM, 744 series, 1 section
AM, 744 series, 1 section
Motor length, ft Motor weight, lb Number of sections Number of rotor packs, pcs Efficiency, % Power factor Rotation speed, prm Motor OD, in Rated power, HP Rated voltage, V Rated current, A Electromagnetic torque, N-m
18.5 2453 1 10 93 0.95 6000 7.44 1475 5300 158 1885
69 7805 3 57 89.9 0.88 3000 7.44 1341 4800 149 3300
2018 Page 479
> Downhole Equipment > Permanent Magnet Motor
Permanent Magnet Motor can be used either with Power Save™, thus leading to the following benefits of application:
Conventional pump
conventional
pump
or
with
Power Save™ pump
Permanent Magnet Motor Permanent Magnet Motor
Figure 1
Figure 2
Based on testing results, power consumption is reduced by 7-10% Based on testing results, power consumption is reduced by up to 25%. For further reference please see Power Save™ Section.
2018 Page 480
> Downhole Equipment > Permanent Magnet Motor
Motor shaft: involute splines allow to increase torque by 20%
Down thrust bearing: special coating provides increased reliability
Stator packs: special design and material reduce losses by 1.2 times
PMM rotor: enables significant power output of 545 hp (in 460 series) in one section
Radial bearings: special design allows high speed rotation up to 6000 rpm
Epoxy encapsulated stator ensures high temperature applications
2018 Page 481
> Downhole Equipment > Permanent Magnet Motor > 319 series
Performance Curve Permanent Magnet Motors 319 series 6000 rpm
319 series / OD 81 mm
The plot shows parameters dependence on motor load ratio: - Voltage, Current, Power factor – in relative units of their nominal values. To get actual values of each parameter multiply percentage in operation point by nominal value from the table below according to selected motor model; - Efficiency – in percentage of the average nominal Efficiency for the motors of 319 series at frequency 6000 RPM. The average nominal efficiency for Asynchronous motor of 319 series at 6000 RPM is 89.9%. To get actual nominal efficiency for all motors of 319 series see the table below.
2018 Page 482
kW
Volts
120
90
14
90
80
70
63
50
40
32
22
11
68
60
53
47
38
30
24
17
1620
1440
1340
1280
1090
1010
890
670
530
410
1240
1100
1020
970
830
770
680
510
38.0
38.1
35.7
33.6
31.2
27.0
24.5
22.7
18.5
Amps
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
Power factor, r.u.
90.2
90.1
90.0
89.8
89.5
88.9
88.6
88.0
86.7
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
Min.fluid Min.fluid Efficienvelocity, velocity, cy, % ft/s m/s
S
S
S
S
S
S
S
S
S
Type
169
188
214
241
268
N319PM170 3200V 6.0RPM DBL CR0 HT
N319PM190 3620V 6.0RPM DBL CR0 HT
N319PM215 3540V 6.0RPM DBL CR0 HT
N319PM240 3380V 6.0RPM DBL CR0 HT
N319PM270 3600V 6.0RPM DBL CR0 HT 134
134
121
121
107
107
94
94
84
84
200
180
160
140
125
100
100
90
90
80
80
70
70
63
63
55
55
110
74 74
50
67
3600
3380
3540
3620
3200
2960
2720
1800
1800
1690
1690
1770
1770
1810
1810
1600
1600
1480
1480
1360
1360
1360
1360
1280
1280
1340
1340
1380
1380
1210
1210
1120
1120
1030
1030
200Hz 200Hz 150Hz
Volts
39.5
37.6
31.9
27.0
27.5
26.2
25.8
Amps
0.95
0.95
0.95
0.95
0.95
0.95
0.95
Power factor, r.u.
91.5
91.5
91.1
91.1
90.9
90.8
90.7
0.66
0.66
0.66
0.66
0.49
0.49
0.49
Min.fluid Efficienvelocity, cy, % m/s
0.20
0.20
0.20
0.20
0.15
0.15
0.15
Min.fluid velocity, ft/s
LT
UT
LT
UT
LT
UT
LT
UT
LT
UT
LT
UT
LT
UT
Type
Unlike asynchronous motor a permanent magnet motor has 4 poles instead of 2 poles. Due to that VSD frequency should be doubled to obtain the same RPM. UT - Upper tandem LT - Lower tandem
147
N319PM145 2960V 6.0RPM DBL CR0 HT
50
100
67
134
Motor kW @ 200 Hz
Motor hp @ 200 Hz
N319PM135 2720V 6.0RPM DBL CR0 HT
Description
Unlike asynchronous motor a permanent magnet motor has 4 poles instead of 2 poles. Due to that VSD frequency should be doubled to obtain the same RPM. S - Single
N319PM120 1620V 6.0RPM SGL CR0 HT
80
70
94
105
N319PM94 1340V 6.0RPM SGL CR0 HT
50 63
67
84
N319PM67 1090V 6.0RPM SGL CR0 HT
N319PM84 1280V 6.0RPM SGL CR0 HT
N319PM105 1440V 6.0RPM SGL CR0 HT
32 40
43
54
N319PM43 890V 6.0RPM SGL CR0 HT
N319PM54 1010V 6.0RPM SGL CR0 HT
14 22
19
29
N319PM19 530V 6.0RPM SGL CR0 HT
200Hz 150Hz 200Hz 150Hz 200Hz 150Hz
Motor hp
N319PM29 670V 6.0RPM SGL CR0 HT
Description 6.9
2.1
6.2
5.6
5.4
5.1
4.5
3.9
3.3
2.7
23.6
21.3
22.7
20.4
21.7
19.4
20.7
18.4
18.8
16.5
17.8
15.5
16.9
14.6
ft
7.2
6.5
6.9
6.2
6.6
5.9
6.3
5.6
5.7
5.0
5.4
4.7
5.1
4.4
m
Length
20.4
18.5
17.6
16.6
14.7
12.7
10.8
8.9
m
Length ft
DESIGN DATA ON PERMANENT MAGNET 319 series (OD 81 mm)
110
208
185
174
163
140
118
95
73
50
501
509
476
485
452
461
428
437
379
388
355
364
331
340
lb
227
231
216
220
205
209
194
198
172
176
161
165
150
154
kg
Weight
459
408
384
359
309
260
209
161
kg
Weight lb
3005090348
3005090347
3005090346
3005090345
3005090344
3005090343
3005090342
Part Number
3005090333
3005090334
3005090335
3005090336
3005090337
3005090338
3005090339
3005090340
3005090341
Part Number
> Downhole Equipment > Permanent Magnet Motor > 319 series
2018 Page 483
Novomet can develop Adapter for any other type of DH Sensor
Motor additional length and weight due to Novomet DH Sensor of 319 series
2.0
ft
1.1
Description
16.5
999.191.0030_INSTALLATION PARTS KIT. Installation kit for SGL Motor of 319 series
lb
999.191.2030_INSTALLATION PARTS KIT. Adapter for Novomet DH Sensor of 319 series
Description
Extra length
Weight
0.6
m
0.5
7.5
kg
PERMANENT MAGNET Motor accessories 319 series
lb 37.5
kg 17.0
Extra weight
2138030205
2138030449
CRO HT
Part Number
> Downhole Equipment > Permanent Magnet Motor > 319 series
2018 Page 484
> Downhole Equipment > Permanent Magnet Motor > 406 series
Performance Curve Permanent Magnet Motors 406 series 6000 rpm
406 series / OD 103 mm
The plot shows parameters dependence on motor load ratio: - Voltage, Current, Power factor – in relative units of their nominal values. To get actual values of each parameter multiply percentage in operation point by nominal value from the table below according to selected motor model; - Efficiency – in percentage of the average nominal Efficiency for the motors of 406 series at frequency 6000 RPM. The average nominal efficiency for Asynchronous motor of 406 series at 6000 RPM is 93.1%. To get actual nominal efficiency for all motors of 406 series see the table below.
2018 Page 485
kW
Volts
43 54 67 80 94 107 121 134 147 161 174 188 201 228 241 255 268 281 295 308 322 335 348 362 375
N406PM43 1150V 6.0RPM SGL CR0 HT
N406PM54 1430V 6.0RPM SGL CR0 HT
N406PM67 1720V 6.0RPM SGL CR0 HT
N406PM80 2020V 6.0RPM SGL CR0 HT
N406PM94 2310V 6.0RPM SGL CR0 HT
N406PM110 2600V 6.0RPM SGL CR0 HT
N406PM120 2900V 6.0RPM SGL CR0 HT
N406PM135 3190V 6.0RPM SGL CR0 HT
N406PM145 3490V 6.0RPM SGL CR0 HT
N406PM160 3780V 6.0RPM SGL CR0 HT
N406PM175 4070V 6.0RPM SGL CR0 HT
N406PM190 3630V 6.0RPM SGL CR0 HT
N406PM200 3870V 6.0RPM SGL CR0 HT
N406PM230 3750V 6.0RPM SGL CR0 HT
N406PM240 3970V 6.0RPM SGL CR0 HT
N406PM255 3720V 6.0RPM SGL CR0 HT
N406PM270 3910V 6.0RPM SGL CR0 HT
N406PM280 4100V 6.0RPM SGL CR0 HT
N406PM295 3740V 6.0RPM SGL CR0 HT
N406PM310 3910V 6.0RPM SGL CR0 HT
N406PM320 4080V 6.0RPM SGL CR0 HT
N406PM340 3640V 6.0RPM SGL CR0 HT
N406PM350 3780V 6.0RPM SGL CR0 HT
N406PM360 3930V 6.0RPM SGL CR0 HT
N406PM380 4070V 6.0RPM SGL CR0 HT
12
281
272
261
252
241
232
221
212
201
192
181
172
151
141
131
121
111
101
91
80
71
60
51
40
32
24
12
280
270
260
250
240
230
220
210
200
190
180
170
150
140
130
120
110
100
90
80
70
60
50
40
32
24
9
210
203
195
188
180
173
165
158
150
143
135
128
113
105
98
90
83
75
68
60
53
45
38
30
24
18
4070
3930
3780
3640
4080
3910
3740
4100
3910
3720
3970
3750
3870
3630
4070
3780
3490
3190
2900
2600
2310
2020
1720
1430
1150
870
560
14.3
3100
2990
2880
2770
3110
46.4
46.4
46.4
46.4
39.6
39.6
39.6
2850 2980
34.6
34.6
34.6
30.7
30.7
25.9
25.8
21.4
21.3
21.1
21.0
20.8
20.5
20.2
19.1
19.3
18.6
18.6
18.6
3130
2980
2830
3020
2860
2950
2770
3110
2880
2660
2430
2210
1990
1760
1540
1320
1090
880
660
430
Amps
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
92.8
92.8
92.8
92.8
93.9
93.9
93.9
93.6
93.6
93.6
93.6
93.6
93.5
93.5
93.4
93.4
93.3
93.3
93.2
93.2
93.1
93.0
92.9
92.7
92.5
92.1
91.0
Power Effifactor, ciency, r.u. %
1.31
1.31
1.31
1.31
1.31
1.31
1.15
1.15
1.15
1.15
1.15
0.98
0.98
0.98
0.66
0.66
0.66
0.66
0.66
0.66
0.49
0.49
0.49
0.49
0.49
0.49
0.49
Min.fluid velocity, ft/s
0.40
0.40
0.40
0.40
0.40
0.40
0.35
0.35
0.35
0.35
0.35
0.30
0.30
0.30
0.20
0.20
0.20
0.20
0.20
0.20
0.15
0.15
0.15
0.15
0.15
0.15
0.15
Min.fluid velocity, m/s
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
Type
Unlike asynchronous motor a permanent magnet motor has 4 poles instead of 2 poles. Due to that VSD frequency should be doubled to obtain the same RPM. S - Single
16 32
N406PM32 870V 6.0RPM SGL CR0 HT
200Hz 150Hz 200Hz 150Hz 200Hz 150Hz
Motor hp
N406PM16 560V 6.0RPM SGL CR0 HT
Description
30.1
29.1
28.1
27.2
26.2
25.2
24.2
23.3
22.3
21.3
20.3
19.4
18.4
17.4
16.5
15.5
14.5
13.5
12.6
11.6
10.6
9.6
8.7
7.7
6.7
5.7
4.8
ft
444
427
410
391
376
359
342
325
308
291
274
257
240
223
206
189
172
155
138
121
104
kg
1017 461
979
942
904
862
829
792
754
717
679
642
604
567
529
492
454
417
379
342
304
267
229
lb
Weight
1166 529
1129 512
1091 495
9.2 1204 546
8.9
8.6
8.3
8.0 1054 478
7.7
7.4
7.1
6.8
6.5
6.2
5.9
5.6
5.3
5.0
4.7
4.4
4.1
3.8
3.5
3.2
2.9
2.6
2.3
2.0
1.7
1.5
m
Length
3005021754
3005021753
3005021752
3005021751
3005021750
3005021749
3005021748
3005021747
3005021746
3005021745
3005021744
3005021743
3005021742
3005021741
3005021740
3005021739
3005021738
3005021737
3005021736
3005021735
3005021734
3005021733
3005021732
3005021731
3005021730
3005021729
3005021728
Part Number
> Downhole Equipment > Permanent Magnet Motor > 406 series
2018 Page 486
> Downhole Equipment > Permanent Magnet Motor > 406 series
Performance Curve Permanent Magnet Motors 406 series 3600 rpm
406 series / OD 103 mm
The plot shows parameters dependence on motor load ratio: - Voltage, Current, Power factor – in relative units of their nominal values. To get actual values of each parameter multiply percentage in operation point by nominal value from the table below according to selected motor model; - Efficiency – in percentage of the average nominal Efficiency for the motors of 406 series at frequency 3600 RPM. The average nominal efficiency for Asynchronous motor of 406 series at 3600 RPM is 91.8%. To get actual nominal efficiency for all motors of 406 series see the table below.
2018 Page 487
kW
Volts
8
40 47
40 48
N406PM40 1050V 3.6RPM SGL CR0 HT
N406PM48 1230V 3.6RPM SGL CR0 HT
21
174 181
185
193
201
209
217
225
N406PM185 3430V 3.6RPM SGL CR0 HT
N406PM195 3580V 3.6RPM SGL CR0 HT
N406PM200 3720V 3.6RPM SGL CR0 HT
N406PM210 3870V 3.6RPM SGL CR0 HT
N406PM215 3610V 3.6RPM SGL CR0 HT
N406PM225 3740V 3.6RPM SGL CR0 HT
188
168
161
154
147
141
134
127
177
153
N406PM155 3410V 3.6RPM SGL CR0 HT
121
N406PM180 3280V 3.6RPM SGL CR0 HT
145
N406PM145 3230V 3.6RPM SGL CR0 HT
114
101
161
137
N406PM135 3060V 3.6RPM SGL CR0 HT
169
121
N406PM120 2840V 3.6RPM SGL CR0 HT
94
N406PM170 3130V 3.6RPM SGL CR0 HT
113
N406PM115 2660V 3.6RPM SGL CR0 HT
87
80
60
N406PM160 3590V 3.6RPM SGL CR0 HT
105
N406PM105 2480V 3.6RPM SGL CR0 HT
74
88 96
N406PM88 2120V 3.6RPM SGL CR0 HT
N406PM80 1940V 3.6RPM SGL CR0 HT
N406PM96 2300V 3.6RPM SGL CR0 HT
67
72 80
N406PM72 1770V 3.6RPM SGL CR0 HT
54
56 64
N406PM56 1410V 3.6RPM SGL CR0 HT
N406PM64 1590V 3.6RPM SGL CR0 HT
34
27
27 32
N406PM27 700V 3.6RPM SGL CR0 HT
16
N406PM32 870V 3.6RPM SGL CR0 HT
11 20
N406PM20 530V 3.6RPM SGL CR0 HT
168
162
156
150
144
138
132
126
120
114
108
102
90
84
78
72
66
60
54
48
42
36
30
24
20
15
8
140
135
130
125
120
115
110
105
100
95
90
85
75
70
65
60
55
50
45
40
35
30
25
20
16
12
6
3740
3610
3870
3720
3580
3430
3280
3130
3590
3410
3230
3060
2840
2660
2480
2300
2120
1940
1770
1590
1410
1230
1050
870
700
530
350
3160
3050
3270
3140
3020
30.3
30.3
27.2
27.2
27.2
27.2
27.2
2770 2890
27.2
22.6
22.6
22.6
22.6
21.3
21.2
21.1
20.9
20.8
20.6
20.4
20.2
19.9
19.5
19.0
18.3
18.3
18.4
14.0
Amps
2640
3030
2880
2730
2580
2400
2240
2090
1940
1790
1640
1490
1340
1190
1040
890
740
590
450
290
120Hz 100Hz 120Hz 100Hz 120Hz 100Hz
Motor hp
N406PM11 350V 3.6RPM SGL CR0 HT
Description
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
92.3
92.3
92.2
92.2
92.2
92.2
92.1
92.1
91.9
91.9
91.9
91.9
92.1
92.1
92.1
92.1
92.0
92.0
92.0
91.9
91.9
91.8
91.7
91.5
91.1
90.5
89.9
0.98
0.98
0.98
0.98
0.98
0.82
0.82
0.82
0.82
0.82
0.66
0.66
0.66
0.66
0.66
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.16
0.16
0.16
0.16
Power EffiMin.fluid factor, ciency, velocity, r.u. % ft/s
0.30
0.30
0.30
0.30
0.30
0.25
0.25
0.25
0.25
0.25
0.20
0.20
0.20
0.20
0.20
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.05
0.05
0.05
0.05
Min.fluid velocity, m/s
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
Type ft
29.9
28.9
27.9
26.9
26.0
25.0
24.0
23.0
22.1
21.1
20.1
19.1
18.2
17.2
16.2
15.2
14.3
13.3
12.3
11.3
10.4
9.4
8.4
7.5
6.5
5.5
9.1
8.8
8.5
8.2
7.9
7.6
7.3
7.0
6.7
6.4
6.1
5.8
5.5
5.2
4.9
4.6
4.4
4.1
3.8
3.5
3.2
2.9
2.6
2.3
2.0
1.7
1.4
m
Length
4.5
DESIGN DATA ON PERMANENT MAGNET 406 series (OD 103 mm)
1204
1166
1129
1091
1054
1017
979
942
904
862
829
792
754
717
679
642
604
567
529
492
454
417
379
342
304
267
229
lb
546
529
512
495
478
461
444
427
410
391
376
359
342
325
308
291
274
257
240
223
206
189
172
155
138
121
104
kg
Weight
3005021781
3005021780
3005021779
3005021778
3005021777
3005021776
3005021775
3005021774
3005021773
3005021772
3005021771
3005021770
3005021769
3005021768
3005021767
3005021766
3005021765
3005021764
3005021763
3005021762
3005021761
3005021760
3005021759
3005021758
3005021757
3005021756
3005021755
Part Number
> Downhole Equipment > Permanent Magnet Motor > 406 series
2018 Page 488
Novomet can develop Adapter for any other type of DH Sensor
Motor additional length and weight due to Novomet DH Sensor of 378 series
2.0
ft
1.1
Description
22.1
999.183.2030_INSTALLATION PARTS KIT Adapter for Novomet DH Sensor of 378 series
lb
999.193.0030_INSTALLATION PARTS KIT Installation kit for SGL Motor of 460 series
Description
Extra length
Weight
0.6
m
0.5
10.0
kg
PERMANENT MAGNET Motor accessories 406 series
lb 50.7
kg 23.0
Extra weight
2138030318
2138030168
CR0 HT
Part Number
> Downhole Equipment > Permanent Magnet Motor > 406 series
2018 Page 489
> Downhole Equipment > Permanent Magnet Motor > 460 series
Performance Curve Permanent Magnet Motors 460 series 6000 rpm
460 series / OD 117 mm
The plot shows parameters dependence on motor load ratio: - Voltage, Current, Power factor – in relative units of their nominal values. To get actual values of each parameter multiply percentage in operation point by nominal value from the table below according to selected motor model; - Efficiency – in percentage of the average nominal Efficiency for the motors of 460 series at frequency 6000 RPM. The average nominal efficiency for Asynchronous motor of 460 series at 6000 RPM is 93.4%. To get actual nominal efficiency for all motors of 460 series see the table below.
2018 Page 490
kW
Volts
168
188
214
N460PM170 3820V 6.0RPM SGL CR0 HT
N460PM190 3620V 6.0RPM SGL CR0 HT
N460PM215 3840V 6.0RPM SGL CR0 HT
429
469
503
536
N460PM430 3910V 6.0RPM SGL CR0 HT
N460PM470 4190V 6.0RPM SGL CR0 HT
N460PM500 3810V 6.0RPM SGL CR0 HT
N460PM540 4040V 6.0RPM SGL CR0 HT
362
402
N460PM360 3840V 6.0RPM SGL CR0 HT
N460PM400 4170V 6.0RPM SGL CR0 HT
295
335
N460PM295 4050V 6.0RPM SGL CR0 HT
N460PM330 4010V 6.0RPM SGL CR0 HT
241
134
268
107
N460PM105 2530V 6.0RPM SGL CR0 HT
N460PM135 3150V 6.0RPM SGL CR0 HT
N460PM240 3980V 6.0RPM SGL CR0 HT
84
N460PM270 4040V 6.0RPM SGL CR0 HT
54
N460PM84 1920V 6.0RPM SGL CR0 HT
402
378
352
322
302
272
252
221
201
181
161
141
126
101
80
64
40
400
375
350
320
300
270
250
220
200
180
160
140
125
100
80
63
40
300
282
263
240
225
203
188
165
150
135
120
105
94
75
60
48
30
4040
3810
4190
3910
4170
3840
4010
4050
4040
3980
3840
3620
3820
3150
2530
1920
1270
3070
2900
3190
2970
3170
2920
3050
3080
3070
3020
2920
2760
2910
2400
1920
1470
970
120Hz 100Hz 120Hz 100Hz 120Hz 100Hz
Motor hp
N460PM54 1270V 6.0RPM SGL CR0 HT
Description
67.6
67.2
56.9
55.6
48.7
47.3
42.1
36.3
33.9
30.2
27.9
25.9
22.2
21.3
21.3
21.3
22.4
Amps
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
93.4
93.4
93.4
93.4
93.4
93.4
93.4
93.4
93.4
93.4
93.4
93.4
93.4
93.4
93.4
93.3
93.2
1.97
1.97
1.97
1.80
1.64
1.48
1.48
1.31
1.15
1.15
1.15
1.15
1.15
0.98
0.98
0.98
0.82
Power EffiMin.fluid factor, ciency, velocity, r.u. % ft/s
0.60
0.60
0.60
0.55
0.50
0.45
0.45
0.40
0.35
0.35
0.35
0.35
0.35
0.30
0.30
0.30
0.25
Min.fluid velocity, m/s
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
Type
27.5
26.2
24.8
23.5
22.1
20.8
19.4
18.1
16.7
15.4
14.0
12.6
11.3
9.9
8.6
7.2
5.9
ft
8.4
8.0
7.6
7.2
6.7
6.3
5.9
5.5
5.1
4.7
4.3
3.9
3.4
3.0
2.6
2.2
1.8
m
Length
1400
1327
1252
1182
1109
1036
964
891
818
743
673
598
525
452
379
306
234
lb
635
602
568
536
503
470
437
404
371
337
305
271
238
205
172
139
106
kg
Weight
3005032476
3005032473
3005032471
3005032469
3005032468
3005032466
3005032464
3005032462
3005032460
3005032458
3005032456
3005032455
3005032453
3005032451
3005032449
3005032447
TBA
Part Number
> Downhole Equipment > Permanent Magnet Motor > 460 series
2018 Page 491
> Downhole Equipment > Permanent Magnet Motor > 460 series
Performance Curve Permanent Magnet Motors 460 series 3600 rpm
460 series / OD 117 mm
The plot shows parameters dependence on motor load ratio: - Voltage, Current, Power factor – in relative units of their nominal values. To get actual values of each parameter multiply percentage in operation point by nominal value from the table below according to selected motor model; - Efficiency – in percentage of the average nominal Efficiency for the motors of 460 series at frequency 3600 RPM. The average nominal efficiency for Asynchronous motor of 460 series at 3600 RPM is 92.8%. To get actual nominal efficiency for all motors of 460 series see the table below.
2018 Page 492
kW
Volts
135
241
257
289
322
338
362
N460PM240 4030V 3.6RPM SGL CR0 HT
N460PM255 3930V 3.6RPM SGL CR0 HT
N460PM290 3870V 3.6RPM SGL CR0 HT
N460PM320 4150V 3.6RPM SGL CR0 HT
N460PM340 3930V 3.6RPM SGL CR0 HT
N460PM360 4160V 3.6RPM SGL CR0 HT
201
225
N460PM200 4060V 3.6RPM SGL CR0 HT
N460PM225 4070V 3.6RPM SGL CR0 HT
161
145
185
129
N460PM130 3370V 3.6RPM SGL CR0 HT
N460PM145 3750V 3.6RPM SGL CR0 HT
N460PM160 4130V 3.6RPM SGL CR0 HT
113
N460PM185 3750V 3.6RPM SGL CR0 HT
120
101
N460PM100 2630V 3.6RPM SGL CR0 HT
300
280
270
240
215
200
190
170
155
105
94
84
67
N460PM115 2990V 3.6RPM SGL CR0 HT
54
64 80
N460PM64 1840V 3.6RPM SGL CR0 HT
N460PM80 2220V 3.6RPM SGL CR0 HT
29 43
36 52
N460PM35 1100V 3.6RPM SGL CR0 HT
270
252
240
216
192
180
168
150
138
120
108
96
84
76
60
48
39
27
225
210
200
180
160
150
140
125
115
100
90
80
70
63
50
40
32
22
4160
3930
4150
3870
3930
4030
4070
4060
3750
4130
3750
3370
2990
2630
2220
1840
1480
1100
3510
3320
3500
3260
3310
3390
3430
3420
3160
3480
3160
2840
2520
2220
1870
1550
1250
920
120Hz 100Hz 120Hz 100Hz 120Hz 100Hz
Motor hp
N460PM51 1480V 3.6RPM SGL CR0 HT
Description
44.8
44
39.6
37.9
32.4
29.7
29.7
27.5
24.4
19.1
18.9
18.7
18.4
18.9
17.5
16.9
16.9
15.6
Amps
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
93.0
93.0
93.0
93.0
93.0
93.0
93.0
93.0
93.0
93.0
93.0
93.0
92.8
92.8
92.6
92.6
92.2
91.8
1.31
1.31
1.31
1.31
1.31
1.31
1.31
0.98
0.98
0.98
0.98
0.98
0.66
0.66
0.66
0.49
0.49
0.33
Power EffiMin.fluid factor, ciency, velocity, r.u. % ft/s
0.40
0.40
0.40
0.40
0.40
0.40
0.40
0.30
0.30
0.30
0.30
0.30
0.20
0.20
0.20
0.15
0.15
0.10
Min.fluid velocity, m/s
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
Type
29.8
28.5
27.1
25.8
24.4
23.0
21.7
20.3
19.0
17.6
16.3
14.9
13.6
12.2
10.8
9.5
8.1
6.8
ft
9.1
8.7
8.3
7.8
7.4
7.0
6.6
6.2
5.8
5.4
5.0
4.5
4.1
3.7
3.3
2.9
2.5
2.1
m
Length
1327
1266
1204
1142
1080
1019
957
895
833
772
710
648
587
525
463
401
340
278
lb
602
574
546
518
490
462
434
406
378
350
322
294
266
238
210
182
154
126
kg
Weight
3005033685
3005033683
3005032075
3005032071
3005033679
3005033677
3005033675
3005033673
3005032388
3005033671
3005032393
3005033668
3005033583
3005033666
3005033665
3005032327
3005032326
3005033664
Part Number
> Downhole Equipment > Permanent Magnet Motor > 460 series
2018 Page 493
> Downhole Equipment > Permanent Magnet Motor > 460 series
Performance Curve Permanent Magnet Motors 460 series 1000 rpm
460 series / OD 117 mm
The plot shows parameters dependence on motor load ratio: - Voltage, Current, Power factor – in relative units of their nominal values. To get actual values of each parameter multiply percentage in operation point by nominal value from the table below according to selected motor model; - Efficiency – in percentage of the average nominal Efficiency for the motors of 460 series at frequency 1000 RPM. The average nominal efficiency for Asynchronous motor of 460 series at 1000 RPM is 90.9%. To get actual nominal efficiency for all motors of 460 series see the table below.
2018 Page 494
36
107
N460PM87 2520V 1.0RPM 621N-M SGL CR0 HT
N460PM107 3020V 1.0RPM 764N-M SGL CR0 HT
87
N460PM83 2420V 1.0RPM 592N-M SGL CR0 HT
103
83
N460PM79 2310V 1.0RPM 563N-M SGL CR0 HT
N460PM103 2940V 1.0RPM 735N-M SGL CR0 HT
79
N460PM75 2200V 1.0RPM 535N-M SGL CR0 HT
99
75
N460PM71 2100V 1.0RPM 506N-M SGL CR0 HT
N460PM99 2840V 1.0RPM 707N-M SGL CR0 HT
71
N460PM67 1990V 1.0RPM 478N-M SGL CR0 HT
91
67
N460PM64 1890V 1.0RPM 458N-M SGL CR0 HT
95
64
N460PM62 1810V 1.0RPM 439N-M SGL CR0 HT
N460PM95 2730V 1.0RPM 678N-M SGL CR0 HT
62
N460PM59 1710V 1.0RPM 420N-M SGL CR0 HT
N460PM91 2630V 1.0RPM 649N-M SGL CR0 HT
56 59
N460PM56 1620V 1.0RPM 401N-M SGL CR0 HT
48 54
N460PM48 1410V 1.0RPM 344N-M SGL CR0 HT
N460PM54 1530V 1.0RPM 382N-M SGL CR0 HT
34
46
N460PM46 1320V 1.0RPM 325N-M SGL CR0 HT
27
80
77
74
71
68
65
62
59
56
53
50
48
46
44
42
40
30
36 40
N460PM36 1090V 1.0RPM 258N-M SGL CR0 HT
24
21
12
N460PM40 1200V 1.0RPM 287N-M SGL CR0 HT
32
N460PM32 990V 1.0RPM 229N-M SGL CR0 HT
18
24 28
N460PM24 780V 1.0RPM 172N-M SGL CR0 HT
N460PM20 670V 1.0RPM 143N-M SGL CR0 HT
N460PM28 880V 1.0RPM 201N-M SGL CR0 HT
15
16 20
N460PM16 570V 1.0RPM 115N-M SGL CR0 HT
8
5
7 11
N460PM7 420V 1.0RPM 48N-M SGL CR0 HT
Motor hp kW 116Hz 116Hz
N460PM11 460V 1.0RPM 76N-M SGL CR0 HT
Description
PMM motor 460 series (OD 117 mm)
3020
2940
2840
2730
2630
2520
2420
2310
2200
2100
1990
1900
1810
1710
1620
1530
1410
1320
1200
1090
990
880
780
670
570
460
420
Volts 116Hz
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
Power factor, r.u.
90.9
91.0
91.0
91.0
91.0
91.0
91.0
91.0
91.0
91.0
91.0
91.0
90.9
90.9
90.8
90.8
90.8
90.8
90.9
90.9
90.9
90.9
90.9
90.8
90.8
90.6
89.6
19.7
18.9
18.8
18.7
18.6
18.5
18.4
18.2
18.1
17.9
17.8
18.0
18.2
18.4
18.7
19.0
18.3
18.6
17.8
17.5
17.1
16.6
16.1
15.3
14.3
11.5
7.9
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.03
0.03
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.01
0.01
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
Min.fluid Min.fluid Efficiency, Amps velocity, velocity, Type % ft/s m/s
31.7
30.8
29.8
28.8
27.9
26.9
26.0
25.0
24.0
23.1
22.1
21.1
20.2
19.2
18.2
17.3
16.3
15.4
14.4
13.5
12.5
11.5
10.6
9.6
8.7
7.7
6.7
ft
9.7
9.4
9.1
8.8
1623
1577
1530
1484
1438
1391
8.2 8.5
1345
1299
1252
1206
1160
1114
1067
1021
975
928
882
836
789
743
697
650
604
558
512
465
419
lb
736
715
694
673
652
631
610
589
568
547
526
505
484
463
442
421
400
379
358
337
316
295
274
253
232
211
190
kg
Weight
7.9
7.6
7.3
7.0
6.7
6.4
6.2
5.9
5.6
5.3
5.0
4.7
4.4
4.1
3.8
3.5
3.2
2.9
2.6
2.3
2.1
m
Length
764
735
707
678
649
621
592
563
535
506
478
458
439
420
401
382
344
325
287
258
229
201
172
143
115
76
48
N-m
563
542
521
500
479
458
437
416
394
373
352
338
324
310
296
282
254
239
211
190
169
148
127
106
85
56
35
lb-ft
Torque
3005035958
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
3005035960
3005035962
3005035964
3005035966
3005035968
3005035970
3005035972
3005035974
3005035977
3005035979
3005035981
3005035983
3005035985
3005035987
3005035989
3005035991
Part Number
> Downhole Equipment > Permanent Magnet Motor > 460 series
2018 Page 495
> Downhole Equipment > Permanent Magnet Motor > 460 series
Performance Curve Permanent Magnet Motors 460 series 500 rpm
460 series / OD 117 mm
The plot shows parameters dependence on motor load ratio: - Voltage, Current, Power factor – in relative units of their nominal values. To get actual values of each parameter multiply percentage in operation point by nominal value from the table below according to selected motor model; - Efficiency – in percentage of the average nominal Efficiency for the motors of 460 series at frequency 500 RPM. The average nominal efficiency for Asynchronous motor of 460 series at 500 RPM is 84.4%. To get actual nominal efficiency for all motors of 460 series see the table below.
2018 Page 496
12 13
12 13 16
N460PM12 420V 0.5RPM 172N-M SGL CR0 HT
N460PM13 470V 0.5RPM 191N-M SGL CR0 HT
N460PM16 530V 0.5RPM 229N-M SGL CR0 HT
6
17 18 20 21 22 23
23 24 27 28 29
N460PM23 710V 0.5RPM 325N-M SGL CR0 HT
N460PM24 750V 0.5RPM 344N-M SGL CR0 HT
N460PM27 820V 0.5RPM 382N-M SGL CR0 HT
N460PM28 870V 0.5RPM 401N-M SGL CR0 HT
N460PM29 920V 0.5RPM 420N-M SGL CR0 HT
42 44 46 48 50 52 54
N460PM42 1290V 0.5RPM 592N-M SGL CR0 HT
N460PM44 1350V 0.5RPM 630N-M SGL CR0 HT
N460PM46 1400V 0.5RPM 649N-M SGL CR0 HT
N460PM48 1460V 0.5RPM 688N-M SGL CR0 HT
N460PM50 1520V 0.5RPM 707N-M SGL CR0 HT
N460PM52 1570V 0.5RPM 745N-M SGL CR0 HT
N460PM54 1630V 0.5RPM 764N-M SGL CR0 HT
28
38 40
N460PM38 1180V 0.5RPM 535N-M SGL CR0 HT
N460PM36 1120V 0.5RPM 516N-M SGL CR0 HT
N460PM40 1230V 0.5RPM 573N-M SGL CR0 HT
27
34 36
N460PM34 1060V 0.5RPM 478N-M SGL CR0 HT
40
39
37
36
34
33
31
30
25
24
31 32
N460PM31 970V 0.5RPM 439N-M SGL CR0 HT
N460PM32 1020V 0.5RPM 458N-M SGL CR0 HT
15
17 20
N460PM17 580V 0.5RPM 248N-M SGL CR0 HT
N460PM20 640V 0.5RPM 287N-M SGL CR0 HT
10
9
7
8 9
N460PM8 310V 0.5RPM 115N-M SGL CR0 HT
N460PM9 350V 0.5RPM 134N-M SGL CR0 HT
2 4
3 5
58Hz
58Hz
N460PM5 240V 0.5RPM 76N-M SGL CR0 HT
kW
Motor hp
N460PM3 220V 0.5RPM 38N-M SGL CR0 HT
Description
1630
1570
1520
1460
1400
1350
1290
1230
1180
1120
1060
1020
970
920
870
820
750
710
640
580
530
470
420
350
310
240
220
58Hz
Volts
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
83.7
83.8
83.8
83.8
83.9
84.0
84.0
84.1
84.2
84.2
84.3
84.2
84.0
83.9
83.7
83.5
83.9
83.6
84.1
84.6
84.4
82.7
84.9
86.0
85.8
87.5
89.2
18.8
18.7
18.6
18.5
18.4
18.3
18.2
18.1
17.9
17.8
17.6
17.8
18.0
18.2
18.5
18.8
18.1
18.4
17.6
16.7
16.9
15.7
15.9
14.1
14.1
11.3
6.2
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.03
0.03
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.01
0.01
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
Power Min.fluid Min.fluid Efficiency, factor, Amps velocity, velocity, Type % r.u. ft/s m/s
31.7
30.8
29.8
28.8
27.9
9.7
9.4
9.1
8.8
8.5
7.9 8.2
26.9
7.6
7.3
7.0
6.7
6.4
6.2
5.9
5.6
5.3
5.0
4.7
4.4
4.1
3.8
3.5
3.2
2.9
2.6
2.3
2.1
m
26.0
25.0
24.0
23.1
22.1
21.1
20.2
19.2
18.3
17.3
16.3
15.4
14.4
13.5
12.5
11.5
10.6
9.6
8.7
7.7
6.7
ft
Length
1623
1577
1530
1484
1438
1391
1345
1299
1252
1206
1160
1114
1067
1021
975
928
882
836
789
743
697
650
604
558
512
465
419
lb
736
715
694
673
652
631
610
589
568
547
526
505
484
463
442
421
400
379
358
337
316
295
274
253
232
211
190
kg
Weight
DESIGN DATA ON PERMANENT MAGNET 460 series (OD 117 mm)
764
745
707
688
649
630
592
573
535
516
478
458
439
420
401
382
344
325
287
248
229
191
172
134
115
76
38
N-m
563
549
521
507
479
465
437
423
394
380
352
338
324
310
296
282
254
239
211
183
169
141
127
99
85
56
28
lb-ft
Torque
3005035993
3005035994
3005035995
3005035996
3005035997
3005035998
3005035999
3005036000
3005036001
3005036002
3005036003
3005036004
3005036005
3005036006
3005036007
3005036008
3005036009
3005036010
3005036011
3005036012
3005036013
3005036014
3005036015
3005036016
3005036017
3005036018
3005036019
Part Number
> Downhole Equipment > Permanent Magnet Motor > 460 series
2018 Page 497
Novomet can develop Adapter for any other type of DH Sensor
Motor additional length and weight due to Novomet DH Sensor of 378 series
2.0
ft
1.1
999.184.0030_INSTALLATION PARTS KIT Installation kit for SGL Motor of 512 series
Description
26.5
lb
999.184.2030_INSTALLATION PARTS KIT Adapter for Novomet DH Sensor of 378 series
Description
Extra length
Weight
0.6
m
0.5
12.0
kg
PERMANENT MAGNET Motor accessories 460 series
lb 50.7
kg 23.0
Extra weight
2138030034
2138030228
CRO HT
Part Number
> Downhole Equipment > Permanent Magnet Motor > 460 series
2018 Page 498
> Downhole Equipment > Permanent Magnet Motor > 512 series
Performance Curve Permanent Magnet Motors 512 series 6000 rpm
512 series / OD 130 mm
The plot shows parameters dependence on motor load ratio: - Voltage, Current, Power factor – in relative units of their nominal values. To get actual values of each parameter multiply percentage in operation point by nominal value from the table below according to selected motor model; - Efficiency – in percentage of the average nominal Efficiency for the motors of 512 series at frequency 6000 RPM. The average nominal efficiency for Asynchronous motor of 512 series at 6000 RPM is 92.6%. To get actual nominal efficiency for all motors of 512 series see the table below.
2018 Page 499
kW
Volts
308 355 395 429 482 529 576 623
N512PM310 3760V 6.0RPM SGL CR0 HT
N512PM355 3900V 6.0RPM SGL CR0 HT
N512PM395 3940V 6.0RPM SGL CR0 HT
N512PM430 3870V 6.0RPM SGL CR0 HT
N512PM480 3730V 6.0RPM SGL CR0 HT
N512PM530 4070V 6.0RPM SGL CR0 HT
N512PM575 3770V 6.0RPM SGL CR0 HT
N512PM620 4070V 6.0RPM SGL CR0 HT
467
430
400
360
320
295
265
230
200
165
130
96
60
465
430
395
360
320
295
265
230
200
165
130
95
60
349
323
296
270
240
221
199
173
150
124
98
72
45
1810
4070
3770
4070
3730
3870
3940
3900
3760
3980
3810
3640
2720
1380
3090
2870
3090
2830
2930
2990
2970
2860
3020
2890
2760
2070
74.6
74.3
63.2
57.6
53.7
48.8
44.3
39.9
32.9
28.3
23.4
22.8
21.7
Amps
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
92.8
92.8
92.9
92.8
92.8
92.8
92.8
92.7
92.6
92.6
92.4
92.2
91.8
1.97
1.97
1.97
1.64
1.64
1.64
1.31
1.31
1.31
1.31
0.98
0.98
0.82
0.60
0.60
0.60
0.50
0.50
0.50
0.40
0.40
0.40
0.40
0.30
0.30
0.25
S
S
S
S
S
S
S
S
S
S
S
S
S
Power Effi- Min.fluid Min.fluid factor, ciency, velocity, velocity, Type r.u. % ft/s m/s
23.0
21.6
20.2
18.8
17.4
16.0
14.6
13.2
11.8
10.4
9.0
7.6
6.2
ft
7.0
6.6
6.1
5.7
5.3
4.9
4.4
4.0
3.6
3.2
2.7
2.3
1.9
m
Length
Unlike asynchronous motor a permanent magnet motor has 4 poles instead of 2 poles. Due to that VSD frequency should be doubled to obtain the same RPM.
221 268
N512PM270 3980V 6.0RPM SGL CR0 HT
174
N512PM175 3640V 6.0RPM SGL CR0 HT
N512PM220 3810V 6.0RPM SGL CR0 HT
80 127
N512PM125 2720V 6.0RPM SGL CR0 HT
200Hz 150Hz 200Hz 150Hz 200Hz 150Hz
Motor hp
N512PM80 1810V 6.0RPM SGL CR0 HT
Description
DESIGN DATA ON PERMANENT MAGNET 512 series (OD 130 mm)
1440
1354
1266
1177
1091
1003
915
829
741
653
567
478
390
lb
653
614
574
534
495
455
415
376
336
296
257
217
177
kg
Weight
3005040592
3005040591
3005040590
3005040589
3005040588
3005040587
3005040586
3005040585
3005040584
3005040583
3005040582
3005040581
3005040580
Part Number
> Downhole Equipment > Permanent Magnet Motor > 512 series
2018 Page 500
> Downhole Equipment > Permanent Magnet Motor > 512 series
Performance Curve Permanent Magnet Motors 512 series 3600 rpm
512 series / OD 130 mm
The plot shows parameters dependence on motor load ratio: - Voltage, Current, Power factor – in relative units of their nominal values. To get actual values of each parameter multiply percentage in operation point by nominal value from the table below according to selected motor model; - Efficiency – in percentage of the average nominal Efficiency for the motors of 512 series at frequency 3600 RPM. The average nominal efficiency for Asynchronous motor of 512 series at 3600 RPM is 92.2%. To get actual nominal efficiency for all motors of 512 series see the table below.
2018 Page 501
260 295 320 345 370 400 425 450 480
N512PM260 4080V 3.6RPM SGL CR0 HT
N512PM295 3890V 3.6RPM SGL CR0 HT
N512PM320 3870V 3.6RPM SGL CR0 HT
N512PM345 4190V 3.6RPM SGL CR0 HT
N512PM370 4090V 3.6RPM SGL CR0 HT
N512PM400 3940V 3.6RPM SGL CR0 HT
N512PM425 4200V 3.6RPM SGL CR0 HT
N512PM450 3960V 3.6RPM SGL CR0 HT
N512PM480 4260V 3.6RPM SGL CR0 HT
400
375
355
335
310
290
270
250
215
195
170
145
120
105
84
67
43
360
336
318
300
276
258
240
222
192
174
150
132
108
96
76
60
39
300
280
265
250
230
215
200
185
160
145
125
110
90
80
63
50
32
4260
3960
4200
3940
4090
4190
3870
3890
4080
3950
4200
3680
3130
2640
2110
1600
1060
3580
3330
3520
3320
3440
3520
3260
3270
3430
3320
3530
3100
2630
2220
1780
1350
900
Volts
55.2
54.5
48.7
49.0
43.4
39.7
40.0
49.0
43.4
28.3
22.8
23.0
23.4
23.4
23.0
24.3
23.4
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
0.95
92.5
92.5
92.5
92.5
92.5
92.4
92.3
92.2
92.6
92.3
92.2
92.2
92.3
92.0
92.0
91.6
91.5
1.31
1.31
1.31
1.31
1.31
1.15
1.15
1.15
0.98
0.98
0.98
0.82
0.82
0.82
0.82
0.49
0.49
0.40
0.40
0.40
0.40
0.40
0.35
0.35
0.35
0.30
0.30
0.30
0.25
0.25
0.25
0.25
0.15
0.15
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
27.5
26.1
24.7
23.4
22.0
20.6
19.3
17.9
16.5
15.1
13.8
12.4
11.0
9.6
8.3
6.9
5.5
ft
8.4
8.0
7.5
7.1
6.7
6.3
5.9
5.4
5.0
4.6
4.2
3.8
3.4
2.9
2.5
2.1
1.7
m
Length
Unlike asynchronous motor a permanent magnet motor has 4 poles instead of 2 poles. Due to that VSD frequency should be doubled to obtain the same RPM.
235
N512PM235 3950V 3.6RPM SGL CR0 HT
145
N512PM145 3130V 3.6RPM SGL CR0 HT 175
130
N512PM130 2640V 3.6RPM SGL CR0 HT
200
100
N512PM100 2110V 3.6RPM SGL CR0 HT
N512PM200 4200V 3.6RPM SGL CR0 HT
80
N512PM175 3680V 3.6RPM SGL CR0 HT
52
N512PM80 1600V 3.6RPM SGL CR0 HT
kW
Power Effi- Min.fluid Min.fluid Amps factor, ciency, velocity, velocity, Type 120Hz 100Hz 120Hz 100Hz 120Hz 100Hz r.u. % ft/s m/s
Motor hp
N512PM51 1060V 3.6RPM SGL CR0 HT
Description
DESIGN DATA ON PERMANENT MAGNET 512 series (OD 130 mm)
1746
1660
1574
1488
1402
1316
1230
1144
1058
972
886
800
714
628
542
456
370
lb
792
753
714
675
636
597
558
519
480
441
402
363
324
285
246
207
168
kg
Weight
3005040509
3005040528
3005040502
3005040527
3005040526
3005040525
3005040508
3005040523
3005040522
3005040521
3005040520
3005040519
3005040518
3005040517
3005040516
3005040515
3005040514
Part Number
> Downhole Equipment > Permanent Magnet Motor > 512 series
2018 Page 502
> Downhole Equipment > Permanent Magnet Motor > 512 series
2018 Page 503
Description
Novomet can develop Adapter for any other type of DH Sensor
Motor additional length and weight due to Novomet DH Sensor of 378 series
Installation kit for SGL Motor of 744 series
Adapter for Novomet DH Sensor of 378 series
Description
2.0
ft
TBA
lb
Extra length
Weight
0.6
m
TBA
kg
PERMANENT MAGNET Motor accessories 512 series
lb 50.7
kg 23.0
Extra weight
TBA
CRO HT
Part Number
> Downhole Equipment > Permanent Magnet Motor > 512 series
2018 Page 504
> Downhole Equipment > Permanent Magnet Motor > 744 series
Performance Curve Permanent Magnet Motors 744 series 3600 rpm
744 series / OD 189 mm
The plot shows parameters dependence on motor load ratio: - Voltage, Current, Power factor – in relative units of their nominal values. To get actual values of each parameter multiply percentage in operation point by nominal value from the table below according to selected motor model; - Efficiency – in percentage of the average nominal Efficiency for the motors of 744 series at frequency 3600 RPM. The average nominal efficiency for Asynchronous motor of 744 series at 3600 RPM is 94.7%. To get actual nominal efficiency for all motors of 744 series see the table below.
2018 Page 505
kW
Volts
844
193
241
289
338
386
434
482
531
579
627
675
724
772
820
868
917
965
1013
N744PM195 3850V 3.6RPM SGL CR0 HT
N744PM240 3930V 3.6RPM SGL CR0 HT
N744PM290 3990V 3.6RPM SGL CR0 HT
N744PM340 4240V 3.6RPM SGL CR0 HT
N744PM390 4300V 3.6RPM SGL CR0 HT
N744PM430 4050V 3.6RPM SGL CR0 HT
N744PM480 4160V 3.6RPM SGL CR0 HT
N744PM530 3920V 3.6RPM SGL CR0 HT
N744PM580 3890V 3.6RPM SGL CR0 HT
N744PM630 4230V 3.6RPM SGL CR0 HT
N744PM680 4110V 3.6RPM SGL CR0 HT
N744PM720 3960V 3.6RPM SGL CR0 HT
N744PM770 4240V 3.6RPM SGL CR0 HT
N744PM820 3980V 3.6RPM SGL CR0 HT
N744PM870 4220V 3.6RPM SGL CR0 HT
N744PM920 3900V 3.6RPM SGL CR0 HT
N744PM970 4090V 3.6RPM SGL CR0 HT
N744PM1010 4300V 3.6RPM SGL CR0 HT
80
1045 1072
1158
1206
N744PM1160 4200V 3.6RPM SGL CR0 HT
N744PM1210 4400V 3.6RPM SGL CR0 HT
N744PM1250 4560V 3.6RPM SGL CR0 HT 1254
N744PM1290 4720V 3.6RPM SGL CR0 HT
72
960
936
900
864
828
792
756
720
684
648
612
576
540
504
468
432
396
360
324
288
252
216
180
144
108
800
780
750
720
690
660
630
600
570
540
510
480
450
420
390
360
330
300
270
240
210
180
150
120
90
60
4720
4560
4400
4200
4030
3850
4300
4090
3900
4220
3980
4240
3960
4110
4230
3890
3920
4160
4050
4300
4240
3990
3930
3850
3270
2200
3950
3820
3680
3510
3370
3220
3600
3420
3260
3530
3330
3550
3320
3440
3540
3260
3280
3480
3390
3600
3550
3350
3300
3230
2750
1850
131.6
133.2
133.2
133.2
0.91
0.91
0.91
0.91
0.91
0.91
133.2 133.2
0.91
0.91
0.91
0.91
0.91
0.91
0.91
0.91
0.91
0.91
0.91
0.91
0.91
0.91
0.91
0.91
0.91
0.91
0.91
0.91
95.1
95.1
95.1
95.1
95.1
95.1
94.8
94.8
94.8
94.9
94.9
95.1
95.1
95.0
94.9
94.9
94.8
94.6
94.9
94.9
94.8
94.6
94.3
94.1
93.8
93.3
1.31
1.31
1.31
1.31
1.31
1.31
1.31
1.31
1.31
1.31
1.15
1.15
1.15
1.15
1.15
0.98
0.98
0.98
0.98
0.98
0.82
0.82
0.82
0.82
0.66
0.66
0.40
0.40
0.40
0.40
0.40
0.40
0.40
0.40
0.40
0.40
0.35
0.35
0.35
0.35
0.35
0.30
0.30
0.30
0.30
0.30
0.25
0.25
0.25
0.25
0.20
0.20
Power Min.fluid Min.fluid Efficienfactor, velocity, velocity, cy, % r.u. ft/s m/s
113.8
113.8
113.8
99.4
99.4
88.2
88.2
79.2
72.0
72.0
65.9
56.4
52.6
43.8
39.4
35.8
30.3
25.4
22.5
22.5
Amps
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
Type
30.8
29.8
28.8
27.8
26.8
25.8
24.8
23.8
22.8
21.8
20.8
19.8
18.8
17.8
16.8
15.8
14.8
13.8
12.8
11.8
10.8
9.8
8.8
7.8
6.8
5.8
ft
9.4
9.1
8.8
8.5
8.2
7.9
7.6
7.3
7.0
6.7
6.3
6.0
5.7
5.4
5.1
4.8
4.5
4.2
3.9
3.6
3.3
3.0
2.7
2.4
2.1
1.8
m
Length
Unlike asynchronous motor a permanent magnet motor has 4 poles instead of 2 poles. Due to that VSD frequency should be doubled to obtain the same RPM. S - Single
1286
1005
1110 965
884 925
N744PM1060 3850V 3.6RPM SGL CR0 HT 1061
N744PM1110 4030V 3.6RPM SGL CR0 HT
804
764
724
683
643
603
563
523
482
442
402
362
322
281
241
201
161
121
96
145
N744PM145 3270V 3.6RPM SGL CR0 HT
120Hz 100Hz 120Hz 100Hz 120Hz 100Hz
Motor hp
N744PM96 2200V 3.6RPM SGL CR0 HT
Description
DESIGN DATA ON PERMANENT MAGNET 744 series (OD 189 mm)
3660
3550
3440
3330
3219
3109
2999
2889
2778
2668
2558
2448
2337
2227
2117
2007
1896
1786
1676
1566
1455
1345
1235
1125
1014
904
lb
3005050262
3005050261
3005050260
3005050259
3005050258
3005050257
3005050256
3005050255
3005050254
3005050253
3005050252
3005050251
Part Number
1660 3005050276
1610 3005050275
1560 3005050274
1510 3005050273
1460 3005050272
1410 3005050271
1360 3005050270
1310 3005050269
1260 3005050268
1210 3005050267
1160 3005050266
1110 3005050265
1060 3005050264
1010 3005050263
960
910
860
810
760
710
660
610
560
510
460
410
kg
Weight
> Downhole Equipment > Permanent Magnet Motor > 744 series
2018 Page 506
Description
Novomet can develop Adapter for any other type of DH Sensor
Motor additional length and weight due to Elekton DH Sensor of 378 series
Motor additional length and weight due to Zenith DH Sensor of 456 series
Motor additional length and weight due to Novomet DH Sensor of 378 series
Installation kit for SGL Motor of 744 series
Adapter for Elekton DH Sensor of 378 series
Adapter for Zenith DH Sensor of 456 series
Adapter for Novomet DH Sensor of 378 series
Description
ft
lb
TBA
Extra length
TBA
Weight
m
kg
PERMANENT MAGNET Motor accessories 744 series
lb
TBA
Extra weight
TBA
CRO HT
Part Number
kg
> Downhole Equipment > Permanent Magnet Motor > 744 series
2018 Page 507
> Downhole Equipment > Downhole Sensor System
GLOSSARY Downhole sensor N DSX
XXX
XXX
XXXXPSI
XXX
MODX
XXX
XX
XX Manufacturer (Novomet) Type of Downhole Sensor, (see Table 1) Series, (see Table 2) DES0 - Voltage insulation rating is DES1 - Voltage insulation rating is DES2 - Voltage insulation rating is 5.0 kV
1.0 2.5
kV kV
Maximum measured pressure, psi 5800PSI - (40 MPa) 8700PSI - (60 MPa) Corrosion resistance, (see Table 3) Modification, (see Table 4) Heat resistance: HT - up to 302 oF (150 oC) UHT - up to 356 oF (180 oC) empty - conventional design M1 - New Generation Novomet Downhole Sensor, (See Table 5) * if applicable 1.0 Special Design for NLS e.g., NDS2 378 DES1 5800PSI CR3 MOD0 HT
Table 1 - Type of downhole sensor
NDS1 NDS2 NDS3
Novomet Downhole Sensor, Type 1. Intake T & P, motor vibration X & Y, motor oil temperature Novomet Downhole Sensor, Type 2. Intake T & P, motor vibration X & Y, motor oil temperature + pump discharge pressure Novomet Downhole Sensor, Type 3. Intake T & P, motor vibration X & Y, motor oil temperature + connector for Novomet Pump Discharge Sensor with Flow meter (NPDSF)
Table 2 - Series
319
HSG OD, in 3.19
HSG OD, mm 81
378
3.78
96
406
4.06
103
512
5.12
130
Series
Table 3 - Corrosion resistance
Fluid
Max chemical content, g/l CO2 Cl H2S
Abbr.
Full name
pH
Description
CR0
Corrosion Resistant 0
Slightly aggressive 0.01 fluid
0.01
20
5.0..8.5
Carbon Steel
CR2
Corrosion Resistant 2
Highly aggressive fluid
1.25
1.45
200
3.0..9.0
Housing is coated with thermal spray coatings
CRM
Corrosion Resistant M
Highly aggressive fluid
1.25
1.45
200
3.0..9.0
Housing is from Carbon Steel and coated with Monel alloy thermal spray.
2018 Page 508
> Downhole Equipment > Downhole Sensor System
CR3
Corrosion Resistant 3
Highly aggressive fluid
1.25
1.45
200
3.0..9.0
Stainless Steel
UCR
Ultra Corrosion Resistant
Extremely aggressive fluid
>1.25
1.45
200
3.0..9.0
Materials resistant to Sulfide Stress Cracking are used.
Table 4 - Downhile Sensor modification NDS1
Modification
Description DH-sensor head with the hydraulic channel for control of oil pressure in the motor. Electrical connectors for remote motor winding temperature sensor that is located in the motor housing. DH-sensor head with the hydraulic channel for pump intake pressure control. Electrical connectors for remote motor winding temperature sensor that is located in the motor housing.
Mod0 Mod1
NDS2
Modification
Description DH-sensor head with the hydraulic channel for control of oil pressure in the motor. Electrical connectors for remote motor winding temperature sensor that is located in the motor housing.
Mod0
NDS3
Modification
Description
Mod0
DH-sensor head with the hydraulic channel for control of oil pressure in the motor. Electrical connectors for remote motor winding temperature sensor that is located in the motor housing.
Mod1
DH sensor is mounted between head and stator of the motor.
Table 5
Parameter
New Generation NDS (M1)
Conventional NDS
Total time required for data transmission
20 sec
56 sec
Time to update of intake pressure
12 sec
56 sec
Resolution for pressure
0.1 PSI
7 PSI
Measurement time for isolation resistance
5 sec
15 sec
Interfaces RS485/RS232
Two independent interfaces RS485 and RS232
Either RS485 or RS232
Telemetry data archiving
Archiving and unloading on flash drive
no
Software update for Surface Panel
Update with flash drive
Programming tool required
Display for data demonstration
Display – 4 lines and 20 symbols
no
Modbus RTU of Surface Panel
2018 Page 509
> Downhole Equipment > Downhole Sensor System
GLOSSARY PUMP DISCHARGE SENSOR WITH FLOW METER N
PDSF
XXX
XXX
XXXXPSI
XXXBPD
XXX Manufacturer (Novomet) Novomet Pump Discharge Sensor with Flow meter Series, (see Table 1) Tubing thread diameter, inches: 27/8 Maximum measured pressure, psi Flow Capacity, bpd: 500 Corrosion resistance, (see Table 2)
e.g., NPDSF 362 2-7/8" 5800PSI 500BPD CR3
Table 1 - Type of downhole sensor
NDS1 NDS2 NDS3
Novomet Downhole Sensor, Type 1. Intake T & P, motor vibration X & Y, motor oil temperature Novomet Downhole Sensor, Type 2. Intake T & P, motor vibration X & Y, motor oil temperature + pump discharge pressure Novomet Downhole Sensor, Type 3. Intake T & P, motor vibration X & Y, motor oil temperature + connector for Novomet Pump Discharge Sensor with Flow meter (NPDSF)
Table 2 - Series
Series
HSG OD, in
HSG OD, mm
362
3.62
92
Table 3 - Corrosion resistance
Abbr.
Full name
Fluid
CR3
Corrosion Resistant 3
Highly aggressive fluid
UCR
Max chemical content, g/l CO2 Cl H2S 1.25
Ultra Corrosion Extremely aggres>1.25 Resistant sive fluid
pH
Description
1.45
200
3.0..9.0
Stainless Steel
1.45
200
3.0..9.0
Materials resistant to Sulfide Stress Cracking are used.
2018 Page 510
> Downhole Equipment > Downhole Sensor System
GLOSSARY SURFACE PANEL NSP
-
XX/X
-
XX
XX
-
Novomet Surface Panel Version: NSP-04/B - operation in off-line mode and as part of VSD / Built-in - NEMA1 NSP-05/R - operation in off-line mode / Remote – NEMA4X" Modification: none - Standard AF - Advanced Features (analog inputs, relay outputs, Ethernet port) Customer's specification: 1.0 - Special Design for NLS e.g., NSP-05/R AF 1.0
GLOSSARY CHOKE UNIT N
CU Manufacturer (Novomet) Choke Unit
e.g., NCU
2018 Page 511
> Downhole Equipment > Downhole Sensor System
DOWNHOLE MONITORING SYSTEMS SPECIFICATION Housing OD Description
Weight
in
mm
lb
kg
NDS1 319 DES2 5800PSI CR0 MOD0 HT
3.19
81
52.9
NDS1 319 DES2 5800PSI CR3 MOD0 HT
3.19
81
52.9
Installation Length (Overall dimensions)
Vibration Vibration speed acceleration
Part Number
ft
m
24
2.90
0.884
3018030657
24
2.90
0.884
3018030659
NDS1 319 DES2 5800PSI CR2 MOD0 HT
3.19
81
52.9
24
2.90
0.884
3018030660
NDS1 406 DES2 5800PSI CR0 MOD1 HT
4.06
103
55.1
25
2.06
0.628
3018030546
NDS1 406 DES2 5800PSI CR2 MOD1 HT
4.06
103
55.1
25
2.06
0.628
3018030548
NDS2 319 DES2 5800PSI CR0 MOD0 HT
3.19
81
52.9
24
2.95
0.899
3018030680
NDS2 319 DES2 5800PSI CR3 MOD0 HT
3.19
81
52.9
24
2.95
0.899
3018030681
NDS2 319 DES2 5800PSI CR2 MOD0 HT
3.19
81
52.9
24
2.95
0.899
3018030682
NDS2 406 DES2 5800PSI CR0 MOD0 HT
4.06
103
54.0
24.5
2.11
0.642
3018030628
NDS2 406 DES2 5800PSI CR3 MOD0 HT
4.06
103
54.0
24.5
2.11
0.642
3018030629
NDS2 406 DES2 5800PSI CR2 MOD0 HT
4.06
103
54.0
24.5
2.11
0.642
3018030630
NDS2 406 DES2 5800PSI UCR MOD0 HT
4.06
103
55.1
25
2.11
0.642
3018030745
NDS3 406 DES2 5800PSI CR2 MOD0 HT
4.06
103
55.1
25
2.06
0.628
3018030625
NDS2 319 DES2 5800PSI CR0 MOD0 HT M1
3.19
81
52.9
24
2.95
0.899
3018030709
NDS2 319 DES2 5800PSI CR3 MOD0 HT M1
3.19
81
52.9
24
2.95
0.899
3018030710
NDS2 319 DES2 5800PSI CR2 MOD0 HT M1
3.19
81
52.9
24
2.95
0.899
3018030711
NDS2 406 DES2 5800PSI CR0 MOD0 HT M1 4.06
103
55.1
25
Range: 0-40 mm/s2
2.11
0.642
3018030718
NDS2 406 DES2 5800PSI CR3 MOD0 HT M1 4.06
103
55.1
25
0.642
3018030719
103
55.1
25
Resolution: 1 mm/s2
2.11
NDS2 406 DES2 5800PSI CR2 MOD0 HT M1 4.06
2.11
0.642
3018030720
NDS2 406 DES2 5800PSI UCR MOD0 HT M1 4.06
103
55.1
25
2.11
0.642
3018030760
NDS3 406 DES2 5800PSI UCR MOD0 HT
103
52.9
24
1.98
0.604
3018030691
(200 mm x 174 mm x 244 mm)
3018040013
(350 mm x 400 mm x 132 mm)
3018040022
4.06
Range: Range: 0-30 mm/s 0-30 mm/s2 Resolution: Resolution: 0.2 mm/s 1 mm/s2
-
NSР-04/B
-
-
13.23
6
-
-
(7.87" x 6.85" x 9.60")
NSP-05/R N4X
-
-
22.05
10
-
-
(13.78'' x 15.75'' x 5.20'')
DISCHARGE PRESSURE SUB SPECIFICATION Description
Installation length ft
m
Weight
Part Number
kg
in
mm
DISCHARGE PRESSURE SUB 2-7/8"-10RD NUE BOX - 2-7/8"-10RD NUE PIN SWAGELOK 1/4" CR0 0.768 0.234 15.9
7.2
3.19
92
2024010232
DISCHARGE PRESSURE SUB 4-1/2"-8RD EUE BOX - 4-1/2"-8RD EUE PIN SWAGELOK 1/4" CR0
0.709 0.216 24.3
11.0
6.38
162
2024010582
DISCHARGE PRESSURE SUB 2-7/8"-8RD EUE BOX - 2-7/8"-8RD EUE PIN SWAGELOK 1/4" CR0
0.768 0.234 15.5
7.0
3.67 93.2
2024010712
DISCHARGE PRESSURE SUB 3-1/2"-8RD EUE BOX - 3-1/2"-8RD EUE PIN SWAGELOK 1/4" CR0
0.742 0.226 20.2
9.1
4.49
114
2024010713
DISCHARGE PRESSURE SUB 4-1/2"-8RD NUE BOX - 4-1/2"-8RD NUE PIN SWAGELOK 1/4" CR0
0.709 0.216 33.1
15.0
6.38
162
2024010859
DISCHARGE PRESSURE SUB 4-1/2" VAM TOP BOX - 4-1/2" VAM TOP PIN SWAGELOK 1/4" CR0
0.735 0.224 35.3
16.0
5.35
136
2024010942
DISCHARGE PRESSURE SUB 2-3/8"-8RD EUE BOX - 2-3/8"-8RD EUE PIN SWAGELOK 1/4" CR0
0.623
4.2
3.19
81
2024011095
0.19
lb
Diameter
9.3
2018 Page 512
> Downhole Equipment > Cable Products > Motor Lead Extension
GLOSSARY MOTOR LEAD EXTENSION MLE
XXXX
TYPEX
XXXF
AWG#X
XKV
XX
XXXXX
XXXFT Motor Lead Extension Design: empty - standard 3-pin plug-in connector TAPE-IN - tape-in connection SPLIT - 3 separate 1-pin plug-in connectors PTFE - fluoropolymer insulation Plug type, (see Table 1) Temperature rating, oF AWG size (see Table 2) Voltage rating, kV Type of seal: RC - Radial and Conic seal RF - Radial and Face seal Armor material, (see Table 3) Length, ft
e.g., MLE TYPE3 450F AWG#6 4KV RC SS 82FT
Table 1 - Plug type
Plug size
Plug size
Type00 Type0 Type1
in 0.67 0.79 1.02
Type3
1.42
36
Type4
1.65
42
Type5
2.17
55
Motor OD, in
mm 2.17 3.19 3.78 4.06 4.60 5.12 17 20 26 X X
X
X
X
5.62
7.44
SGL
AM up to 250 KW (400HP @60Hz) PMM up to 330 KW (530HP @3600RPM)
DBL, TRP AM above 250 KW (400HP @60Hz) PMM above 330 KW (530HP @3600RPM)
Table 2 - Series
AWG# 2 3 4 5 6 7 8
mm2 35 25 21 16 13 10 8
Table 3 - Corrosion resistance
Max chemical content, g/l CO2 Cl H2S
Abbr.
Full name
Fluid
pH
Description
GSTA
Corrosion Resistant 1
Moderately aggressive fluid
0.01 1.25
1.45 0.01
200
4.0..8.5
Galvanized Steel Tape Armor
SS
Corrosion Resistant 3
Highly aggressive fluid
1.25
1.45
200
3.0..9.0
Stainless Steel Armor
Monel
Ultra Corrosion Resistant
Extremely aggressive fluid
>1.25
1.45
200
3.0..9.0
Monel armor
2018 Page 513
Plug diameter Overall dimensions
Length
3015010200 3015010210 3015010209 3015010211 3015010212 3015010180 3015010087 3015010136 3015010088 3015010151 3015010234 3015010089 3015010121 3015010133 3015010122 3015010239 3015010240 3015010120 3015010309 3015010286 3015010310 3015010287 3015010288 3015010311 3015010097 3015010245 3015010098 3015010246 3015010247 3015010099
13 13 13 13 13 13 16 16 16 16 16 16 21 21 21 21 21 21 35 35 35 35 35 35
Part Number
8 8 8 8 8 8
mm2
Conductor size
in mm in mm ft m AWG# MLE TYPE1 450F AWG#8 4KV GSTA for Motor series 319 MLE TYPE1 450F AWG#8 4KV RC GSTA 82FT 1.02 26 0.42 x 1.06 10.70 х 27.00 82 25 8 MLE TYPE1 450F AWG#8 4KV RC GSTA 98FT 1.02 26 0.42 x 1.06 10.70 х 27.00 98 30 8 MLE TYPE1 450F AWG#8 4KV RC GSTA 115FT 1.02 26 0.42 x 1.06 10.70 х 27.00 115 35 8 MLE TYPE1 450F AWG#8 4KV RC GSTA 131FT 1.02 26 0.42 x 1.06 10.70 х 27.00 131 40 8 MLE TYPE1 450F AWG#8 4KV RC GSTA 148FT 1.02 26 0.42 x 1.06 10.70 х 27.00 148 45 8 MLE TYPE1 450F AWG#8 4KV RC GSTA 164FT 1.02 26 0.42 x 1.06 10.70 х 27.00 164 50 8 MLE TYPE3 450F AWG#6 4KV RC GSTA for Motor series 378. 406. 460 and 512 MLE TYPE3 450F AWG#6 4KV RC GSTA 82FT 1.42 36 0.53 x 1.36 13.40 х 34.30 82 25 6 MLE TYPE3 450F AWG#6 4KV RC GSTA 98FT 1.42 36 0.53 x 1.36 13.20 х 33.50 98 30 6 MLE TYPE3 450F AWG#6 4KV RC GSTA 115FT 1.42 36 0.53 x 1.36 13.20 х 33.50 115 35 6 MLE TYPE3 450F AWG#6 4KV RC GSTA 131FT 1.42 36 0.53 x 1.36 13.20 х 33.50 131 40 6 MLE TYPE3 450F AWG#6 4KV RC GSTA 148FT 1.42 36 0.53 x 1.36 13.20 х 33.50 148 45 6 MLE TYPE3 450F AWG#6 4KV RC GSTA 164FT 1.42 36 0.53 x 1.36 13.20 х 33.50 164 50 6 MLE TYPE3 450F AWG#5 4KV RC GSTA for Motor series 378. 406. 460 and 512 MLE TYPE3 450F AWG#5 4KV RC GSTA 82FT 1.42 36 0.55 x 1.43 14.10 х 36.30 82 25 5 MLE TYPE3 450F AWG#5 4KV RC GSTA 98FT 1.42 36 0.55 x 1.43 14.10 х 36.30 98 30 5 MLE TYPE3 450F AWG#5 4KV RC GSTA 115FT 1.42 36 0.55 x 1.43 14.10 х 36.30 115 35 5 MLE TYPE3 450F AWG#5 4KV RC GSTA 131FT 1.42 36 0.55 x 1.43 14.10 х 36.30 131 40 5 MLE TYPE3 450F AWG#5 4KV RC GSTA 148FT 1.42 36 0.55 x 1.43 14.10 х 36.30 148 45 5 MLE TYPE3 450F AWG#5 4KV RC GSTA 164FT 1.42 36 0.55 x 1.43 14.10 х 36.30 164 50 5 MLE TYPE4 450F AWG#4 4KV RC GSTA for Motor series 562 MLE TYPE4 450F AWG#4 4KV RC GSTA 82FT 1.65 42 0.57 x 1.46 14.40 х 37.10 82 25 4 MLE TYPE4 450F AWG#4 4KV RC GSTA 98FT 1.65 42 0.57 x 1.46 14.40 х 37.10 98 30 4 MLE TYPE4 450F AWG#4 4KV RC GSTA 115FT 1.65 42 0.57 x 1.46 14.40 х 37.10 115 35 4 MLE TYPE4 450F AWG#4 4KV RC GSTA 131FT 1.65 42 0.57 x 1.46 14.40 х 37.10 131 40 4 MLE TYPE4 450F AWG#4 4KV RC GSTA 148FT 1.65 42 0.57 x 1.46 14.40 х 37.10 148 45 4 MLE TYPE4 450F AWG#4 4KV RC GSTA 164FT 1.65 42 0.57 x 1.46 14.40 х 37.10 164 50 4 MLE TYPE5 450F AWG#2 4KV RC GSTA for Motor series 744 MLE TYPE5 450F AWG#2 4KV RC GSTA 82FT 2.17 55 0.60 x 1.57 15.30 х 40.00 82 25 2 MLE TYPE5 450F AWG#2 4KV RC GSTA 98FT 2.17 55 0.60 x 1.57 15.30 х 39.50 98 30 2 MLE TYPE5 450F AWG#2 4KV RC GSTA 115FT 2.17 55 0.60 x 1.57 15.30 х 39.50 115 35 2 MLE TYPE5 450F AWG#2 4KV RC GSTA 131FT 2.17 55 0.60 x 1.57 15.30 х 39.50 131 40 2 MLE TYPE5 450F AWG#2 4KV RC GSTA 148FT 2.17 55 0.60 x 1.57 15.30 х 39.50 148 45 2 MLE TYPE5 450F AWG#2 4KV RC GSTA 164FT 2.17 55 0.60 x 1.57 15.30 х 39.50 164 50 2
Description
MLE SPECIFICATION > Downhole Equipment > Cable Products > Motor Lead Extension
2018 Page 514
Plug diameter Overall dimensions
Length
in mm in mm ft m MLE TYPE3 450F AWG#6 5KV RC for Motor series 378. 406. 460 and 512 MLE TYPE3 450F AWG#6 5KV RC GSTA 82FT 1.42 36 0.53 x 1.36 13.40 х 34.30 82 25 MLE TYPE3 450F AWG#6 5KV RC GSTA 98FT 1.42 36 0.53 x 1.36 13.20 х 33.50 98 30 MLE TYPE3 450F AWG#6 5KV RC GSTA 115FT 1.42 36 0.53 x 1.36 13.20 х 33.50 115 35 MLE TYPE3 450F AWG#6 5KV RC GSTA 131FT 1.42 36 0.53 x 1.36 13.20 х 33.50 131 40 MLE TYPE3 450F AWG#6 5KV RC GSTA 148FT 1.42 36 0.53 x 1.36 13.20 х 33.50 148 45 MLE TYPE3 450F AWG#6 5KV RC GSTA 164FT 1.42 36 0.53 x 1.36 13.20 х 33.50 164 50 MLE TYPE 3 450F AWG#5 5KV RC for Motor series 378. 406. 460 and 512 MLE TYPE3 450F AWG#5 5KV RC GSTA 82FT 1.42 36 0.55 x 1.43 14.10 х 36.30 82 25 MLE TYPE3 450F AWG#5 5KV RC GSTA 98FT 1.42 36 0.55 x 1.43 14.10 х 36.30 98 30 MLE TYPE3 450F AWG#5 5KV RC GSTA 115FT 1.42 36 0.55 x 1.43 14.10 х 36.30 115 35 MLE TYPE3 450F AWG#5 5KV RC GSTA 131FT 1.42 36 0.55 x 1.43 14.10 х 36.30 131 40 MLE TYPE3 450F AWG#5 5KV RC GSTA 148FT 1.42 36 0.55 x 1.43 14.10 х 36.30 148 45 MLE TYPE3 450F AWG#5 5KV RC GSTA 164FT 1.42 36 0.55 x 1.43 14.10 х 36.30 164 50 TYPE 4 450F AWG#4 5KV RC for Motor series 562 MLE TYPE4 450F AWG#4 5KV RC GSTA 82FT 1.65 42 0.57 x 1.46 14.40 х 37.10 82 25 MLE TYPE4 450F AWG#4 5KV RC GSTA 98FT 1.65 42 0.57 x 1.46 14.40 х 37.10 98 30 MLE TYPE4 450F AWG#4 5KV RC GSTA 115FT 1.65 42 0.57 x 1.46 14.40 х 37.10 115 35 MLE TYPE4 450F AWG#4 5KV RC GSTA 131FT 1.65 42 0.57 x 1.46 14.40 х 37.10 131 40 MLE TYPE4 450F AWG#4 5KV RC GSTA 148FT 1.65 42 0.57 x 1.46 14.40 х 37.10 148 45 MLE TYPE4 450F AWG#4 5KV RC GSTA 164FT 1.65 42 0.57 x 1.46 14.40 х 37.10 164 50
Description mm2 13 13 13 13 13 13 16 16 16 16 16 16 21 21 21 21 21 21
AWG# 6 6 6 6 6 6 5 5 5 5 5 5 4 4 4 4 4 4
Conductor size
3015010676 3015010687 3015010677 3015010688 3015010689 3015010678
3015010371 3015010379 3015010897 3015010924 3015010925 3015010898
3015010899 3015010905 3015010894 3015010907 3015010919 3015010391
Part Number
> Downhole Equipment > Cable Products > Motor Lead Extension
2018 Page 515
> Downhole Equipment > Cable Products > Surface Cable
GLOSSARY SURFACE CABLE SURFACE CABLE
XXXXX
XXXXX
XKV
XXXX Surface cable Model (original designation) Conductor number and size, XX mm2 Voltage rating, kV Shape (round/flat)
e.g., SURFACE CABLE KGHL 3X120MM2+1X35MM2 1KV ROUND
2018 Page 516
> Downhole Equipment > Cable Products > Surface Cable
FLEXIBLE CABLE FOR ESP SURFACE EQUIPMENT TIE-IN Flexible power cables are designed for connection of ESP Surface equipment (Step-down transformer, VSD and Step-up transformer) with A.C. voltage of 660 V up to 400 Hz or D.C. voltage of 1000 V. Standard Construction
1
2
3
4
5
1. Flexible copper conductor. 2. Separation layer - PETF tape. 3. Rubber insulation. 4. Separation layer - PETF tape. 5. Rubber outer sheath.
2018 Page 517
> Downhole Equipment > Cable Products > Surface Cable
SURFACE CABLE specification Weight Conductor size Current Conductor rate, amps AWG# mm2 lb/ft kg/m Surface cable, 1kV, round (temperature rating - 400 oF / 205 oC) by Kamkabel
Description
Part Number
Surface cable, KGHL, 3x35mm2+1x16mm2, 1kV, round, by Kamkabel
-
35
Solid
160
TBA
TBA
TBA
Surface cable, KGHL, 3x50mm2+1x16mm2, 1kV, round, by Kamkabel
-
50
Solid
250
TBA
TBA
TBA
Surface cable, KGHL, 3x70mm2+1x25mm2, 1kV, round, by Kamkabel
-
70
Solid
400
TBA
TBA
TBA
Surface cable, KGHL, 3x95mm2+1x35mm2, 1kV, round, by Kamkabel
-
95
Solid
630
TBA
TBA
TBA
Surface cable, KGHL, 3x120mm2+1x50mm2, 1kV, round, by Kamkabel
-
120
Solid
800
TBA
TBA
TBA
Surface cable, KGHL, 3x150mm2+1x70mm2, 1kV, round, by Kamkabel
-
150
Solid
1000
TBA
TBA
TBA
Surface cable, KGHL, 3x185mm2+1x95mm2, 1kV, round, by Kamkabel
-
185
Solid
1200
TBA
TBA
TBA
Surface cable, KGHL, 3x240mm2+1x120mm2, 1kV, round, by Kamkabel
-
240
Solid
1600
TBA
TBA
TBA
2018 Page 518
> Downhole Equipment > Cable Products > Carring Cable
GLOSSARY Carrying cable CARRYING CABLE
X.XX"
AWG#X
XXXF
XXXXX
XXXXFT Carrying cable OD, inches AWG size Temperature rating, oF Corrosion resistance Length, ft
e.g., CARRYING CABLE 1.73" AWG#8 8TON 302F CR0 3937FT
2018 Page 519
Surface Equipment
> Surface Equipment > VSD
GLOSSARY Variable Speed Drive N VSD
XXXKVA
XXXV
XXHZ
XXP
XX
XX
XXXX
NXX
XXX
XX Manufacturer (Novomet) Variable Speed Drive Total output power, kVA, (see Table 1 for available models) Rated input voltage, V Rated frequency, Hz Pulse number, P: 6, 12, 18 Input filter modification, if present IF - Input Filter, Built-in IC - Input Filter, with choke Output filter modification, if present SWF -Sine-Wave Filter, Built-in SWFR - Sine-Wave Filter, Built-in, with choke Surface Panel Modification: NSP-04/B - operation in off-line mode and as part of VSD / Built-in - NEMA1 NSP-05/R - operation in off-line mode / Remote – NEMA4X NEMA enclosure type (See Table 2) N3R - NEMA3R N4 - NEMA4 N4X - NEMA4X N1 - NEMA1 Climatic version (See Table3) T1 - for dry and moist tropical climate, open air T2 - for dry and moist tropical climate, under shelter O1 - for all climatic zones on shore, excluding Antarctic Climatic region with cold climate, open air TM1 - for tropical marine climate, open air TM2 - for tropical marine climate, under shelter Customer's specification: 1.0 - Technical requirements of NLS B.V 1.0 UL - Correspondance of VSD enclosure to UL requirements: UL 508А, CSA 22.2 No. 14-13
e.g., e.g., NVSD 200KVA 480V 60HZ 6P IF SWF NSP N3R T1
Table 1 - Nameplate power capacity
Total output power @480..500V, kVA 130
Output power capacity @480..500V/60Hz, kVA 133
Rated output current @480..500V/60Hz, A 150
200
200
240
300
300
360
490
490
590
605
605
730
Total output power @380V, kVA 115
Output power capacity @380V/50Hz, kVA 117
Rated output current @380V/50Hz, A 160
170
171
250
260
260
400
430
433
630
525
525
800
Total output power is shown for reference only.
2018 Page 521
> Surface Equipment > VSD
Table 2 - NEMA enclosure type:
Abbreviature
Description
N1
NEMA1
N3R
NEMA3R
N4
NEMA4
N4X
NEMA4X
Comments Indoor use. - protection to personnel against access to hazardous parts and - protection of the equipment inside the enclosure against ingress of solid foreign objects (falling dirt). Indoor or outdoor use. - protection to personnel against access to hazardous parts; - protection of the equipment inside the enclosure against ingress of solid foreign objects (falling dirt); - protection with respect to harmful effects on the equipment due to the ingress of water (rain, sleet, snow); additional level of protection against corrosionand that will be undamaged by the external formation of ice on the enclosure Indoor or outdoor use. - protection to personnel against access to hazardous parts; - protection of the equipment inside the enclosure against ingress of solid foreign objects (falling dirt and windblown dust); - protection with respect to harmful effects on the equipment due to the ingress of water (rain, sleet, snow, splashing water, and hose directed water); and that will be undamaged by the external formation of ice on the enclosure Indoor or outdoor use. - protection to personnel against access to hazardous parts; - protection of the equipment inside the enclosure against ingress of solid foreign objects (windblown dust); - protection with respect to harmful effects on the equipment due to the ingress of water (rain, sleet, snow, splashing water, and hose directed water); - protection against corrosion; and that will be undamaged by the external formation of ice on the enclosure.
Table 3 - Climatic version
Climatic version T1 - for dry and moist tropical climate, open air
Operating Atmospheric Temperature +1…+50
High-Limit Operating Atmospheric temperature +1..+60
T2 -for dry and moist tropical climate, under shelter O1 - аor all climatic zones on shore, excluding Antarctic Climatic region with cold climate, open air TM1 - for tropical marine climate, open air
+1…+50
+1..+60
-10..+50
-20..+50
+1..+45
+1..+55
TM2 - for tropical marine climate, under shelter
+1..+45
+1..+55
2018 Page 522
> Surface Equipment > VSD
Applications: • Control and protection of Asynchronous motor and PMM • Protection by electrical and technological problems • Receiving data from DH sensors • Registration of history/events data • Control and data transmission from remote control system Benefits: • Compatible with both Asynchronous and PMM motors • High efficiency 97…98 % • Optimizes production by adjusting operation parameters • Ensures great starting and commissioning characteristics • Increased monitoring and control capability • User-friendly display provides visibility of information during set up and operation • Modular design ensures easy maintenance and repair • Double-loop ventilation system • Heating/cooling systems depending on the weather conditions • Surface readout unit for downhole gauge or Insulation control unit • Built-in ligthning guard • Indication of voltage at IN/OUT terminals • Extended terminal blocks for external connections
VARIABLE SPEED DRIVE Variable Speed Drives (VSD) is a smart solution to easily adjust production parameters and outputs of the ESP system when downhole conditions change. VSD protects the system by sensing changing conditions that could potentially be harmful to the ESP. In order to control and optimize production operations, special alarms and user-set limits are programmed in the VSD. Currently, Novomet provides VSD systems in the range between 75 up to 315 KVA and more powerful systems with capacity up to 600 KVA shall be expected soon. One of the most important features of Novomet VSD is that it is compatible with both Asynchronous (induction) and Permanent Magnet Motor (PMM). Pump Control Methods: • Frequency Limit • Output Current Limit • Pump Intake Pressure Limit • Flow Range Limit Set points:
Features:
2018 Page 523
> Surface Equipment > VSD
• High-speed and accurate protection of inverter and motor from abnormal modes: overload or short circuit. No even one case of IGBT failure • Quality electronic components used in circuit boards from leading manufacturers • Strong and flexible control system realized on base of industrial computer-Miscrosoft is inside • Software update with USB port • Displays: • Input Voltage, Current and Unbalance • Output Voltage Current and Unbalance • ESP Surface Voltage (after step-up transformer) • Total Power, Active Power, Power Factor to motor • Insulation Resistance of Downhole System • Backspin Frequency • Logging of all parameters when out of normal range
• Operating Mode: HAND or AUTO • Output Frequency 10 to 75 Hz, and Rotation Direction • Trip Points for Input Voltage Too High, Too Low, Unbalanced • Trip Points for Motor Current Too High, Too Low, Unbalanced • Trip Point for Low Insulation Resistance • Time delays for all trip functions • Allowable number of restarts for each trip function • Soft Start with Frequency Synchronization • Output Voltage to Frequency Adjustment to optimize motor operating conditions • Pump Cycling On and Off time • Notes for Well Parameters: location, pump stages, motor rating, cable length, etc. Main Components: • Controller Designed to run control algorithm for all ESP components • Sine filter Designed for filtration of carrying frequency in PDM inverter. Reduces losses in line, step-up transformer and submersible motor
2018 Page 524
605
NVSD 605KVA 480V 60HZ 6P IF SWF NSP
NVSD 115KVA 380V 50HZ 6P NVSD 170KVA 380V 50HZ 6P NVSD 260KVA 380V 50HZ 6P NVSD 430KVA 380V 50HZ 6P NVSD 115KVA 380V 50HZ 6P SWF NVSD 170KVA 380V 50HZ 6P SWF NVSD 260KVA 380V 50HZ 6P SWF NVSD 115KVA 380V 50HZ 6P NSP NVSD 170KVA 380V 50HZ 6P NSP NVSD 260KVA 380V 50HZ 6P NSP NVSD 430KVA 380V 50HZ 6P NSP NVSD 525KVA 380V 50HZ 6P NSP NVSD 115KVA 380V 50HZ 6P SWF NSP NVSD 170KVA 380V 50HZ 6P SWF NSP NVSD 260KVA 380V 50HZ 6P SWF NSP NVSD 115KVA 500V 50HZ 6P SWF NSP NVSD 170KVA 500V 50HZ 6P SWF NSP NVSD 260KVA 500V 50HZ 6P SWF NSP NVSD 430KVA 500V 50HZ 6P NSP NVSD 525KVA 500V 50HZ 6P NSP
480
6
-15…+15
-15…+15
0…480
0…480
VSD with rated voltage 380V
480
117 171 260 433 117 171 260 117 171 260 433 525 117 171 260 117 171 260 433 525 380
380
380
380
500
6
6
6
6
6
-25…+25
-25…+25
-25…+25
-25…+25
-25…+25
0…500
0…380
0…380
0…380
0…380
160 250 400 630 160 250 400 160 250 400 630 800 160 250 400 160 250 400 630 800
2016 x 1130 x 1550
79 x 44 x 61
TBA
kg
TBA TBA
TBA TBA
TBA TBA
lb
Weight
lb 882 992 1058 1544 1191 1257 1477 882 992 1058 1544 1654 1147 1257 1477 882 992 1058 1544 1654
kg 400 450 480 700 540 570 670 400 450 480 700 750 520 570 670 400 450 480 700 750
Weight
2110 x 1820 x 1880 TBA TBA TBA
TBA
TBA
83 x 72 x 74
TBA
TBA
Overall dimensions, Height x Width x Depth in mm
Overall dimensions, Height x Width x Depth in mm 79 x 44 x 34 2000 x 1130 x 862 79 x 44 x 34 2000 x 1130 x 862 79 x 44 x 34 2000 x 1130 x 862 82 x 53 x 38 2085 x 1341 x 960 79 x 44 x 34 2000 x 1130 x 862 79 x 44 x 34 2000 x 1130 x 862 79 x 44 x 34 2000 x 1130 x 862 79 x 44 x 34 2000 x 1130 x 862 79 x 44 x 34 2000 x 1130 x 862 79 x 44 x 34 2000 x 1130 x 862 82 x 53 x 38 2085 x 1341 x 960 82 x 53 x 38 2085 x 1341 x 960 79 x 44 x 34 2000 x 1130 x 862 79 x 44 x 34 2000 x 1130 x 862 79 x 44 x 34 2000 x 1130 x 862 79 x 44 x 34 2000 x 1130 x 862 79 x 44 x 34 2000 x 1130 x 862 79 x 44 x 34 2000 x 1130 x 862 82 x 53 x 38 2085 x 1341 x 960 82 x 53 x 38 2085 x 1341 x 960
730
590
150 240 360 590 730 150 240 360
Rated Input Output Output input voltage voltage, amperage, A voltage, V deviation, % V
6
Input pulses
Output power Rated Input Output Input Output capacity @380V, input voltage voltage, pulses amperage, A 50/60Hz, kVA voltage, V deviation, % V
490
NVSD 490KVA 480V 60HZ 6P IF SWF NSP
Description
130 200 300 490 605 130 200 300
Output power capacity @480V, 50/60Hz, kVA
NVSD 130KVA 480V 60HZ 6P SWF NSP NVSD 200KVA 480V 60HZ 6P SWF NSP NVSD 300KVA 480V 60HZ 6P SWF NSP NVSD 490KVA 480V 60HZ 6P NSP NVSD 605KVA 480V 60HZ 6P NSP NVSD 130KVA 480V 60HZ 6P IF SWF NSP NVSD 200KVA 480V 60HZ 6P IF SWF NSP NVSD 300KVA 480V 60HZ 6P IF SWF NSP
Description
VSD with rated voltage 480V
VARIABLE SPEED DRIVE specification
3017010231 3017010236 3017010241 3017010246 3017010109 3017010111 3017010098 3017010227 3017010237 3017010242 3017010133 3017010267 3017010110 3017010103 3017010104 TBA TBA TBA TBA TBA
Part Number
TBA
3017010263
3017010255 3017010251 3017010252 TBA TBA 3017010260 3017010261 3017010262
Part Number
> Surface Equipment > VSD
2018 Page 525
> Surface Equipment > Skid-mounted VSD
GLOSSARY SKID-MOUNTED VSD N SMVSD XXXKVA
XXXKV / XXXKV
XXHZ
XXP
XXXX
XXXXX
XXXX Manufacturer (Novomet) Skid-Mounted Variable Speed Drive Nameplate power capacity, kVA, (see Table 1 for available models) Rated input voltage, kV Rated VSD voltage, kV Rated frequency, Hz Pulse number NIF-B (Novomet Input Filter Built-in, if present) NSWF-B (Novomet Sine-Wave Filter Built-in, if present) NSP-B (Novomet Surface Panel Built-in, if present)
e.g., NSMVSD 500KVA 11KV/0.48KV 50HZ 6P NIF-B NSWF-B NSP-B Design parameters are subject to discussion when placing an order
Table 1 - Nameplate power capacity
Nameplate power capacity @480V, kVA 360
Output power capacity @480V/50Hz, kVA 369
Output amperage @50Hz, A 440
2018 Page 526
> Surface Equipment > Skid-mounted VSD
Applications: • VSD for very hot and dust climate • For wellsites with poor infrastructure • Mobile applications • Offshore platforms Benefits: • Self-contained unit • Compatible with Asynchronous and PMM motors • Adaptive motor control modes • Operator compartment airconditioned for hot climates or heated for cold • Remote control and monitoring system • Transfer with standard 40 ft container
SKID-MOUNTED VSD This type of VSD is a fully integrated Skid Base, including the following components on one skid: • step-down transformer: 0.4 up to 33 input kV • VSD in a air-conditioned compartment • step-up transformer: 1...4 kV Skid has IP55 type of protection against dust, insects, water sprays and designed to fit into a 40 ft High Cube Container or 40 ft Open Top container. The most important features of Novomet Skid-mounted VSD is it’s self-contained design and 12-pulse input voltage rectifier scheme. A 12 pulse drive has two diode rectification bridges (12 rectifiers) and a 6 phase input. THD by current of a 12 pulse drive is usually significantly less than that of 6 pulse system.
Features: • Enclosure: IP55 • Twelve diode (12 pulse) input voltage rectifier scheme • Input filter (in DC circuit) • VSD built-in output sine filter • VSD built-in DH sensor system • Uninterrupted Power Supply for Controller • Electricity meter
2018 Page 527
360 250 800
NSMVSD 250KVA 33KV/0.48KV 50HZ 12P NSWF-B NSP-B
NSMVSD 800KVA 6.6KV/0.4KV 50HZ 6P NIF-B NSWF-B NSP-B
6
12
12 480
480
480 -15…+15
-15…+15
-15…+15 0…480
0…480
0…480 440
440
440
Output power Rated Input Output Output Input capacity @480V, input voltage voltage, amperage, pulses 50/60Hz, kVA voltage, V deviation, % V A
NSMVSD 360KVA 33KV/480V 50HZ 12P NSWF-B NSP-B
Description
TBA
TBA TBA
TBA TBA
TBA TBA
TBA
TBA
TBA
Overall dimensions, Weight Part Height x Width x Depth Number in mm lb kg 99 x 226 x 88 2520 x 5740 x 2240 19845 9000 3017010064
SKID-MOUNTED VSD specification > Surface Equipment > Skid-mounted VSD
2018 Page 528
Miscellaneoul equipment
> Miscellaneous Equipment > Check Valve
GLOSSARY CHECK VALVE N
XXX
X
XXX" -XX RD
XXX
XXXX
XXX Manufacturer (Novomet) CV - Check Valve CFV - Check&Flush Valve Design: B - ball type, with labyrinth D - disk type BX - ball type, without labyrinth Thread size, inches, (see Table 1) Pitch, threads per inch: 8 10 RD - round thread Thread type: EUE - External Upset Ends (for 8RD)* NUE - Non Upset Ends (for 10RD)* S - Short casing thread (51/2" and 53/4" are 8RD only) Max capacity, bpd, (see Table 2) Corrosion resistance, (see Table 3)
* - for 1.315", 1.660" and 1.900" threads both EUE and NUE options are 10RD only; for 41/2" thread both EUE and NUE options are 8RD only e.g., NCVBX 3-1/2"-10RD NUE6300 CR1
Table 2 - Max capacity
Table 1 - Thread size
in
mm
bpd
m3/day
2 /8
60
3500
550
7
2 /8
73
6300
1000
31/2
89
9500
1500
1
4 /2
114
25200
4000
51/2
140
37700
6000
5 /4
146
3
3
2018 Page 530
> Miscellaneous Equipment > Check Valve Table 3 - Corrosion resistance
Abbr.
Full name
Max chemical content, g/l
Fluid
Corrosion Slightly aggressive Resistant 0 fluid Corrosion Moderately agCR1 Resistant 1 gressive fluid Corrosion Highly aggressive CR3 Resistant 3 fluid Ultra Corrosion Extremely aggresUCR Resistant sive fluid CR0
pH
Description
20
5.0..8.5
Carbon Steel
1.45 0.01
200
4.0..8.5
Stainless Steel for internal parts. Housing, head and base are from Carbon Steel
1.25
1.45
200
3.0..9.0
Stainless Steel
>1.25
1.45
200
3.0..9.0
Materials resistant to Sulfide Stress Cracking are used
H2S
CO2
Cl
0.01
0.01
0.01 1.25
CHECK VALVE specification Description
Housing diameter
Installation Length
Weight
Part Number
in
mm
ft
m
lb
kg
NCVBX 2-3/8"-10RD NUE3500 CR1
2,87
73
0,755
0,230
9,3
4,2
3004020071
NCVBX 2-3/8"-10RD NUE3500 CR3
2,87
73
0,755
0,230
9,3
4,2
3004020072
NCVBX 2-3/8"-8RD EUE3500 CR1
3,07
78
0,755
0,230
11,0
5,0
3004020076
NCVBX 2-3/8"-8RD EUE3500 CR3
3,07
78
0,755
0,230
11,0
5,0
3004020077 3004020037
NCVBX 2-7/8"-10RD NUE3500 CR1
3,62
92
0,781
0,238
12,8
5,8
NCVBX 2-7/8"-10RD NUE3500 CR3
3,62
92
0,781
0,238
12,8
5,8
3004020051
NCVBX 2-7/8"-10RD NUE3500 UCR
3,62
92
0,781
0,238
12,8
5,8
3004020064
NCVBX 2-7/8"-10RD NUE6300 CR1
3,62
92
0,781
0,238
12,8
5,8
3004020061
NCVBX 2-7/8"-10RD NUE6300 CR3
3,62
92
0,781
0,238
12,8
5,8
3004020066
NCVBX 2-7/8"-8RD EUE3500 CR1
3,62
92
0,738
0,225
12,8
5,8
3004020052
NCVBX 2-7/8"-8RD EUE3500 CR3
3,62
92
0,738
0,225
12,8
5,8
3004020053 3004020082
NCVBX 2-7/8"-8RD EUE3500 UCR
3,62
92
0,738
0,225
12,8
5,8
NCVBX 2-7/8"-8RD EUE6300 CR1
3,62
92
0,738
0,225
14,6
6,6
3004020067
NCVBX 2-7/8"-8RD EUE6300 CR3
3,62
92
0,738
0,225
14,6
6,6
3004020068
NCVBX 2-7/8"-8RD EUE6300 UCR
3,62
92
0,738
0,225
14,6
6,6
3004020063
NCVBX 3-1/2"-10RD NUE6300 CR1
4,25
108
0,853
0,260
22,5
10,2
3004020058 3004020059
NCVBX 3-1/2"-10RD NUE6300 CR3
4,25
108
0,853
0,260
22,5
10,2
NCVBX 3-1/2"-10RD NUE6300 UCR
4,25
108
0,853
0,260
22,5
10,2
3004020081
NCVBX 3-1/2"-10RD NUE9500 CR1
4,25
108
0,853
0,260
39,7
18,0
3004020062
NCVBX 3-1/2"-10RD NUE9500 CR3
4,25
108
0,853
0,260
39,7
18,0
3004020069
NCVBX 3-1/2"-8RD EUE6300 CR1
4,49
114
0,853
0,260
45,2
20,5
3004020065
NCVBX 3-1/2"-8RD EUE6300 CR3
4,49
114
0,853
0,260
45,2
20,5
3004020070
NCVBX 3-1/2"-8RD EUE9500 CR1
4,49
114
0,853
0,260
45,2
20,5
3004020078
NCVBX 3-1/2"-8RD EUE9500 CR3
4,49
114
0,853
0,260
45,2
20,5
3004020080
NCVB 4-1/2"-10RD NUE25200 CR1
5,12
130
1,148
0,350
69,5
31,5
3004020025
NCVB 4-1/2"-10RD NUE25200 CR3
5,12
130
1,148
0,350
69,5
31,5
3004020038
NCVB 4-1/2"-8RD EUE25200 CR1
5,55
141
1,148
0,350
81,6
37,0
3004020050 3004020060
NCVB 4-1/2"-8RD EUE25200 CR3
5,55
141
1,148
0,350
81,6
37,0
NCVD 5-1/2"-8RD S37700 CR0
6,77
172
2,001
0,610
110,3
50,0
3004010006
NCVD 5-1/2"-8RD S37700 CR3
6,77
172
2,001
0,610
110,3
50,0
3004010008
NCVD 5-3/4"-8RD S37700 CR0
6,77
172
2,001
0,610
124,6
56,5
3004010009
NCVD 5-3/4"-8RD S37700 CR3
6,77
172
2,001
0,610
124,6
56,5
3004010010
NCFVB 2-7/8"-10RD NUE3500 CR1
3,62
92
1,844
0,562
38,8
17,6
3004110001
NCFVB 3-1/2"-8RD EUE6300 CR1
4,49
114
1,844
0,562
56,0
25,4
3004110002
NCFVB 3-1/2"-8RD EUE6300 CR3
4,49
114
1,844
0,562
56,0
25,4
3004110003
2018 Page 531
> Miscellaneous Equipment > Draine Valve
GLOSSARY DRAIN VALVE N DV
XXX" -XX RD
XXX
XXX Manufacturer (Novomet) Drain Valve Thread size, inches, (see Table 1) Pitch, threads per inch: 8 10 RD - round thread Thread type: EUE - External Upset Ends (for 8RD)* NUE - Non Upset Ends (for 10RD)* S - Short casing thread (51/2" and 53/4" are 8RD only) Corrosion resistance, (see Table 2)
* - for 1.315", 1.660" and 1.900" threads both EUE and NUE options are 10RD only; for 41/2" thread both EUE and NUE options are 8RD only e.g., NDV 3-1/2"-8RD EUE CR0 Table 1 - Thread size
in
mm
3
2 /8
60
27/8
73
1
3 /2
89
41/2
114
51/2
140
53/4
146
2018 Page 532
> Miscellaneous Equipment > Draine Valve
Table 2 - Corrosion resistance
Abbr.
Full name
Max chemical content, g/l CO2 Cl H2S
Fluid
pH
Description
CR0
Corrosion Re- Slightly aggressive 0.01 sistant 0 fluid
0.01
20
5.0..8.5
Carbon Steel
CR3
Corrosion Resistant 3
1.45
200
3.0..9.0
Stainless Steel
UCR
Ultra Corrosion Extremely aggres>1.25 Resistant sive fluid
1.45
200
3.0..9.0
Materials resistant to Sulfide Stress Cracking are used
Highly aggressive fluid
1.25
DRAIN VALVE specification Description NDV 2-3/8"-10RD NUE CR0
Housing diameter Installation Length in mm ft m 2.88 73 0.656 0.200
Weight lb kg 8.6 3.9
Part Number 3004040026
NDV 2-3/8"-10RD NUE CR3
3.19
81
0.656
0.200
11.0
5.0
3004040047
NDV 2-3/8"-10RD NUE UCR
3.19
81
0.656
0.200
11.0
5.0
3004040258
NDV 2-3/8"-8RD EUE CR0
3.07
78
0.656
0.200
11.0
5.0
3004040045
NDV 2-3/8"-8RD EUE CR3
3.07
78
0.656
0.200
11.0
5.0
3004040044
NDV 2-3/8"-8RD EUE UCR
3.07
78
0.656
0.200
11.0
5.0
3004040259
NDV 2-7/8"-10RD NUE CR0
3.51
89
0.591
0.180
7.5
3.4
3004040006
NDV 2-7/8"-10RD NUE CR3
3.51
89
0.591
0.180
7.5
3.4
3004040003
NDV 2-7/8"-10RD NUE UCR
3.51
89
0.591
0.180
7.5
3.4
3004040046
NDV 2-7/8"-8RD EUE CR0
3.66
93
0.705
0.215
11.7
5.3
3004040024
NDV 2-7/8"-8RD EUE CR3
3.66
93
0.705
0.215
11.7
5.3
3004040021
NDV 2-7/8"-8RD EUE UCR
3.66
93
0.705
0.215
11.7
5.3
3004040260
NDV 3-1/2"-10RD NUE CR0
4.25
108
0.656
0.200
14.6
6.6
3004040012
NDV 3-1/2"-10RD NUE CR3
4.25
108
0.656
0.200
15.2
6.9
3004040009
NDV 3-1/2"-10RD NUE UCR
4.25
108
0.656
0.200
15.2
6.9
3004040261
NDV 3-1/2"-8RD EUE CR0
4.49
114
0.656
0.200
14.6
6.6
3004040032
NDV 3-1/2"-8RD EUE CR3
4.49
114
0.656
0.200
15.2
6.9
3004040049
NDV 3-1/2"-8RD EUE UCR
4.49
114
0.656
0.200
15.2
6.9
3004040262
NDV 4-1/2"-8RD NUE CR0
5.20
132
0.919
0.280
28.4
12.9
3004040018
NDV 4-1/2"-8RD NUE CR3
5.20
132
0.919
0.280
28.4
12.9
3004040015
NDV 4-1/2"-8RD NUE UCR
5.20
132
0.919
0.280
28.4
12.9
3004040263
NDV 4-1/2"-8RD EUE CR0
5.55
141
0.919
0.280
28.4
12.9
3004040057
NDV 4-1/2"-8RD EUE CR3
5.55
141
0.919
0.280
28.4
12.9
3004040050
NDV 4-1/2"-8RD EUE UCR
5.55
141
0.919
0.280
28.4
12.9
3004040264
NDV 5-1/2"-8RD S CR0
6.07
154
1.148
0.350
55.1
25.0
3004040030
NDV 5-1/2"-8RD S CR3
6.07
154
1.148
0.350
55.1
25.0
3004040031
NDV 5-3/4"-8RD S CR0
6.54
166
1.148
0.350
78.9
35.8
3004040029
NDV 5-3/4"-8RD S CR3
6.54
166
1.148
0.350
78.9
35.8
3004040037
2018 Page 533
> Miscellaneous Equipment > Bolt-on-head
GLOSSARY BOLT-ON HEAD BOH
XX" -XX RD
XXX -XXXSERIES
XXX
FJX
Bolt-On Head Thread size, inches, (see Table 1) Pitch, threads per inch: 8 10 RD - round thread Thread type: EUE - External Upset Ends (for 8RD)* NUE - Non Upset Ends (for 10RD)* Pump series Corrosion resistance, (see Table 2) Flange connection design: empty - standard flange-to-housing FJI - Flush joint inserted FJT - Flush joint threaded
* - for 1.315", 1.660" and 1.900" threads both EUE and NUE options are 10RD only; for 41/2" thread both EUE and NUE options are 8RD only e.g., BOH 2-7/8"-8RD EUE-406SERIES CR0
Table 1 - Thread size
in
mm
23/8
60
7
2 /8
73
31/2
89
41/2
114
51/2
140
53/4
146
2018 Page 534
> Miscellaneous Equipment > Bolt-on-head Table 2 - Corrosion resistance
Abbr.
Full name
Fluid
Max chemical content, g/l H2S
CR0 CR3 UCR
Corrosion Re- Slightly aggressive 0.01 sistant 0 fluid Corrosion Re- Highly aggressive 1.25 sistant 3 fluid Ultra Corrosion Extremely aggres>1.25 Resistant sive fluid
pH
Description
20
5.0..8.5
Carbon Steel
1.45
200
3.0..9.0
Stainless Steel
1.45
200
3.0..9.0
Materials resistant to Sulfide Stress Cracking are used for housing, head and base.
CO2
Cl
0.01
2018 Page 535
> Miscellaneous Equipment > Bolt-on-head
BOLT-ON HEAD specification Description
Installation Length ft m
Weight lb
kg
Part Number
BOH 1.900"-10RD NUE-272SERIES CR0 FJI
TBA
TBA
TBA
TBA
2013070164
BOH 1.900"-10RD NUE-272SERIES CR0
TBA
TBA
TBA
TBA
2013070129
BOH 2-3/8"-10RD NUE-272SERIES CR0 FJI
0.69
0.21
9.7
4.4
TBA
BOH 2-3/8"-8RD EUE-272SERIES CR0
0.66
0.20
9.7
4.4
2013070035
BOH 2-3/8"-10RD NUE-319SERIES CR0
0.51
0.16
7.7
3.5
2013070122
BOH 2-3/8"-8RD EUE-319SERIES CR0
0.66
0.20
7.7
3.5
2013070036
BOH 2-3/8"-10RD NUE-319SERIES CR0 FJT
0.38
0.12
7.7
3.5
2013070134
BOH 2-3/8"-8RD EUE-319SERIES CR0 FJT
0.52
0.16
5.7
2.6
2013070138
BOH 2-7/8"-8RD EUE-319SERIES CR0
0.56
0.17
10.4
4.7
2013070064
BOH 2-7/8"-8RD EUE-319SERIES CR0 FJT
0.38
0.12
5.4
2.45
2013070139
BOH 2-7/8"-10RD NUE-338SERIES CR0
0.62
0.19
7.1
3.2
2013070058
BOH 2-7/8"-8RD EUE-338SERIES CR0
0.69
0.21
9.7
4.4
2013070037
BOH 2-3/8"-8RD EUE-362SERIES CR0
0.59
0.18
11.9
5.4
2013070149
BOH 2-7/8"-8RD EUE-362SERIES CR0 FJI
0.66
0.20
7.0
3.17
2013070103
BOH 2-7/8"-10D NUE-362SERIES CR0
0.52
0.16
9.1
4.12
2013070041
BOH 2-7/8"-8RD EUE-362SERIES CR0
0.69
0.21
10.1
4.6
2013070049
BOH 3-1/2"-8RD EUE-362SERIES CR0
0.72
0.22
14.8
6.7
2013070073
BOH 3-1/2"-8RD EUE-362SERIES CR0
0.62
0.19
7.9
3.6
2013070017
BOH 2-3/8"-8RD EUE-406SERIES CR0
TBA
TBA
TBA
TBA
2013070142
BOH 2-7/8"-8RD EUE-406SERIES CR0
0.69
0.210
10.8
4.900
2013070055
BOH 2-7/8"-10RD NUE-406SERIES CR0
0.52
0.16
7.7
3.5
2013070043
BOH 3-1/2"-10RD NUE-406SERIES CR0
0.62
0.19
7.7
3.5
2013070069.1
BOH 3-1/2"-8RD EUE-406SERIES CR0
0.72
0.22
11.7
5.3
2013070059
BOH 2-7/8"-8RD EUE-449SERIES CR0
0.72
0.22
19.0
8.6
2013070086
BOH 3-1/2"-10RD NUE-449SERIES CR0
0.62
0.19
13.2
6
2013070100
BOH 3-1/2"-8RD EUE-449SERIES CR0
0.72
0.22
15.4
7
2013070038
BOH 4-1/2"-8RD EUE-449SERIES CR0
0.66
0.20
14.3
6.5
2013070039
BOH 3-1/2"-8RD EUE-484SERIES CR0
0.66
0.20
18.7
8.5
2013070135
BOH 2-7/8"-8RD EUE-535SERIES CR0
0.66
0.20
21.7
9.85
2013070051
BOH 3-1/2"-10RD NUE-535SERIES CR0
0.66
0.20
18.5
8.4
2013070161
BOH 3-1/2"-8RD EUE-535SERIES CR0
0.66
0.20
18.5
8.4
2013070056
BOH 4-1/2"-8RD EUE-535SERIES CR0
0.66
0.20
15.2
6.9
2013070050
BOH 3-1/2"-8RD EUE-677SERIES CR0
0.90
0.28
43.9
19.9
2013070076
BOH 4-1/2"-8RD NUE-677SERIES CR0
0.90
0.28
38.1
17.3
2013070068
BOH 4-1/2"-8RD EUE-677SERIES CR0
0.90
0.28
42.8
19.4
2013070045
BOH 4-1/2"-8RD NUE-740SERIES CR0
0.98
0.30
47.0
21.3
2013070099
All '-8rd EUE' Bolt-On Heads are available in '-10rd NUE' modification Appropriate Bolt-On Heads are specified for each pump type in Pump section
2018 Page 536
> Miscellaneous Equipment > Bolt-on-head
Description DISCHARGE PRESSURE SUB 2-3/8"10RD NUE BOX - 2-3/8"-10RD NUE PIN SWAGELOK 1/4" CR0 DISCHARGE PRESSURE SUB 2-7/8"10RD NUE BOX - 2-7/8"-10RD NUE PIN SWAGELOK 1/4" CR0 DISCHARGE PRESSURE SUB 2-7/8"8RD EUE BOX - 2-7/8"-8RD EUE PIN SWAGELOK 1/4" CR0 DISCHARGE PRESSURE SUB 3-1/2"8RD EUE BOX - 3-1/2"-8RD EUE PIN SWAGELOK 1/4" CR0 DISCHARGE PRESSURE SUB 4-1/2"8RD NUE BOX - 4-1/2"-8RD NUE PIN SWAGELOK 1/4" CR0 DISCHARGE PRESSURE SUB 4-1/2"8RD EUE BOX - 4-1/2"-8RD EUE PIN SWAGELOK 1/4" CR0 DISCHARGE PRESSURE SUB 4-1/2" VAM TOP BOX - 4-1/2" VAM TOP PIN SWAGELOK 1/4" CR0
Installation Length ft m
Weight lb
kg
Part Number
0.69
0.21
15.9
7.2
2024010425
0.92
0.28
15.9
7.2
2024010232
0.92
0.28
15.9
7.2
2024010712
0.89
0.27
15.9
7.2
2024010713
0.89
0.27
33.1
15.0
2024010859
0.89
0.27
24.3
11.0
2024010582
0.92
0.28
24.3
11.0
2024010942
2018 Page 537
> Miscellaneous Equipment > SUB
GLOSSARY SUB SUB
XXX'' -XX RD
XXX
XXX
-
XXX'' -XX RD
XXX
XXX
XXX
Sub Top Thread size, inches, (see Table 1) Pitch, threads per inch: 8 10 RD - round thread Thread type: EUE - external upset (for 8RD) NUE - non-upset (for 10RD) Type of connection: box (inside thread) pin (outside thread) Bottom Thread size, inches, (see Table 1) Pitch, threads per inch: 8 10 RD - round thread Thread type: EUE - External Upset Ends (for 8RD)* NUE - Non Upset Ends (for 10RD)* 1 3 S - Short casing thread (5 /2" and 5 /4" are 8RD only) Type of connection: BOX (inside thread) PIN (outside thread) Corrosion resistance, (see Table 2)
* - for 1.315", 1.660" and 1.900" threads both EUE and NUE options are 10rd only; for 41/2" thread both EUE and NUE options are 8RD only e.g., SUB 3-1/2"-8RD EUE BOX - 2-7/8"-8RD EUE PIN CR3
Table 1 - Thread size
in
mm
23/8
60
7
2 /8
73
31/2
89
41/2
114
51/2
140
53/4
146
Table 2 - Corrosion resistance
Abbr.
Full name
Fluid
Max chemical content, g/l CO2 Cl H2S
pH
Description
CR0
Corrosion Re- Slightly aggressive 0.01 sistant 0 fluid
0.01
20
5.0..8.5
Carbon Steel
CR3
Corrosion Resistant 3
1.45
200
3.0..9.0
Stainless Steel
Highly aggressive fluid
1.25
2018 Page 538
> Miscellaneous Equipment > SUB
SUB specification Description
Housing diameter in
mm
SUB 2-3/8"-8RD EUE BOX - 2-3/8"-10RD NUE PIN CR1
3.15
80
Installation Length ft
m
Weight
Top thread Bottom dia thread dia
Part Number
lb
kg
0.253 0.077
4.2
1.9
2 3/8"
2 3/8"
2079030111
SUB 2-3/8"-8RD EUE BOX - 2-3/8"-10RD NUE PIN CR3
3.15
80
0.253 0.077
4.2
1.9
2 /8"
2 /8"
2079030150
SUB 2-3/8"-8RD EUE BOX - 2-7/8"-10RD NUE PIN CR3
3.15
80
0.253 0.077
4.2
1.9
2 3/8"
2 7/8"
2079030136
SUB 2-3/8"-10RD NUE BOX - 2-3/8"-8RD EUE PIN CR3
3.15
80
0.253 0.077
4.2
1.9
2 /8"
2 /8"
2079030142
SUB 2-7/8"-8RD EUE BOX - 2-7/8"-10RD NUE PIN CR1
3.62
92
0.351 0.107
5.1
2.3
2 7/8"
2 7/8"
2079030139
SUB 2-7/8"-8RD EUE BOX - 2-7/8"-10RD NUE PIN CR3
3.62
92
0.351 0.107
5.1
2.3
2 /8"
2 /8"
2079030140
SUB 2-7/8"-10RD NUE BOX - 2-3/8"-8RD EUE PIN CR3
3.62
92
0.351 0.107
5.1
2.3
2 7/8"
2 3/8"
2079030107
3
3
7
3
3
7
SUB 2-7/8"-10RD NUE BOX - 2-7/8"-8RD EUE PIN CR1
3.62
92
0.351 0.107
5.1
2.3
2 /8"
2 /8"
2079030148
SUB 2-7/8"-10RD NUE BOX - 2-7/8"-8RD EUE PIN CR3
3.62
92
0.351 0.107
5.1
2.3
2 7/8"
2 7/8"
2079030147
7
7
SUB 2-7/8"-10RD NUE BOX - 3-1/2"-8RD EUE PIN CR3
3.50
89
0.482 0.147
9.1
4.1
2 /8"
3 /2"
2079030106
SUB 2-7/8"-10RD NUE BOX - 4-1/2"-8RD EUE PIN CR1
3.50
89
0.482 0.147
9.1
4.1
2 7/8"
4 1/2"
2079030108
SUB 3-1/2"-8RD EUE BOX - 2-7/8"-10RD NUE PIN CR3
4.49
114
0.417 0.127
11.6
5.3
3 /2"
2 /8"
2079030105
SUB 3-1/2"-8RD EUE BOX - 3-1/2"-10RD NUE PIN CR3
4.49
114
0.417 0.127
11.6
5.3
3 /2"
3 /2"
2079030162
SUB 3-1/2"-10RD NUE BOX - 2-7/8"-10RD NUE PIN CR1
4.49
114
0.417 0.127
11.6
5.3
3 1/2"
2 7/8"
2079030135
7
1 1
1
7 1
SUB 3-1/2"-10RD NUE BOX - 3-1/2"-8RD EUE PIN CR3
4.49
114
0.417 0.127
11.6
5.3
3 /2"
3 /2"
2079030152
SUB 4-1/2"-10RD NUE BOX - 4-1/2"-8RD EUE PIN CR1
5.55
141
0.499 0.152
14.7
6.7
4 1/2"
4 1/2"
2079030109
SUB 4-1/2"-VAM TOP BOX - 3-1/2"-10RD NUE PIN CR3
5.55
141
0.499 0.152
14.7
6.7
4 /2"
3 /2"
2079030114
SUB 4-1/2"-VAM TOP BOX - 4-1/2"-8RD EUE PIN CR3
5.55
141
0.499 0.152
14.7
6.7
4 1/2"
4 1/2"
2079030104
1
1
1
1
2018 Page 539
> Miscellaneous Equipment > Filters
> Downhole Slotted Filter
GLOSSARY DOWNHOLE SLOTTED FILTER N
XXX
SFD
XXXBPD
XXXMCM
XXX
X-X/X"
-XXRD XUE
DX Manufacturer (Novomet) Series, (see Table 1) Slotted Filter (Downhole) Max capacity, bpd Filtration rating, mcm 100 200 Corrosion resistance, (see Table 2) Thread size, (see Table 3) Thread type: -10RD NUE, 10 threads per inch, Non Upset Ends Design, (see Table 4)
e.g., N433SFD 1000BPD 200MCM CR1 2-7/8"-10RD NUE D0
*To choose the most suitable filtration rating please specify type and size of solids.
Table 1 - Series
Series
HSG OD, in
HSG OD, mm
319
3.19
81
433
4.33
110
677
6.77
172
Table 2 - Corrosion resistance
Max chemical content, g/l CO2 Cl H2S
Abbr.
Full name
Fluid
CR1
Corrosion Resistant 1
Moderately aggressive fluid
1.25 0.01
0.01 1.45
CR3
Corrosion Resistant 3
Highly aggressive fluid
1.25
1.45
pH
Description
20
4.0..8.5
Carbon Steel
200
3.0..9.0
Stainless Steel
Table 3 - Thread size
in
mm
23/8
60
7
2 /8
73
41/2
114
Table 4 - Design
Design 0 2
Standard With safety valve
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2018 Page 540
> Miscellaneous Equipment > Filters
> Downhole Slotted Filter
DOWNHOLE SLOTTED FILTER specification Description
Capacity
Filtration rating
Installation Length
Weight
Part Number
bpd
m /day
N319SFD 250BPD 100MCM CR0 2-3/8"-10RD NUE
250
40
22,03 6,715 185
N319SFD 380BPD 100MCM CR0 2-3/8"-10RD NUE
380
60
32,64 9,95
N319SFD 500BPD 100MCM CR0 2-3/8"-10RD NUE
500
80
43,26 13,185 362 164 3010020468
N319SFD 190BPD 150MCM CR0 2-3/8"-10RD NUE
190
30
11,42 3,48
97
44 3010020460
N319SFD 380BPD 150MCM CR0 2-3/8"-10RD NUE
380
60
22,03 6,715 185
84 3010020463
N319SFD 570BPD 150MCM CR0 2-3/8"-10RD NUE
570
90
N319SFD 760BPD 150MCM CR0 2-3/8"-10RD NUE
760
120
43,26 13,185 362 164 3010020469
N319SFD 250BPD 200MCM CR0 2-3/8"-10RD NUE
250
40
11,42 3,48
N319SFD 500BPD 200MCM CR0 2-3/8"-10RD NUE
500
80
N319SFD 760BPD 200MCM CR0 2-3/8"-10RD NUE
760
120
N319SFD 1000BPD 200MCM CR0 2-3/8"-10RD NUE
1000
160
43,26 13,185 362 164 3010020470
N433SFD 380BPD 100MCM CR0 2-7/8"-10RD NUE
380
60
10,97 3,345 141
N433SFD 500BPD 100MCM CR0 2-7/8"-10RD NUE
500
80
N433SFD 630BPD 100MCM CR0 2-7/8"-10RD NUE
630
100
N433SFD 760BPD 100MCM CR0 2-7/8"-10RD NUE
760
120
3
mcm
150
200
100
ft
m
32,64 9,95
lb
kg
84 3010020462
273 124 3010020465
273 124 3010020466 97
44 3010020461
22,03 6,715 185
84 3010020464
32,64 9,95
273 124 3010020467 64 3010020129
14,26 4,345 183
83 3010020130
17,54 5,345 217
98 3010020131
20,82 6,345 254 115 3010020132
N433SFD 760BPD 200MCM CR0 2-7/8"-10RD NUE
760
120
200
10,97 3,345 138
63 3010020133
N433SFD 1000BPD 200MCM CR0 2-7/8"-10RD NUE
1000
160
200
14,26 4,345 179
81 3010020134
N433SFD 1250BPD 200MCM CR0 2-7/8"-10RD NUE
1250
200
200
17,54 5,345 211
96 3010020135
N433SFD 1500BPD 200MCM CR0 2-7/8"-10RD NUE
1500
240
200
20,82 6,345 247 112 3010020136
N677SFD 6300BPD 100MCM CR0 4-1/2"-8RD NUE
6300
1000
11,15 3,400 326 148 3010020137
N677SFD 8800BPD 100MCM CR0 4-1/2"-8RD NUE
8800
1400
14,44 4,400 404 183 3010020138
N677SFD 10700BPD 100MCM CR0 4-1/2"-8RD NUE
10700
1700
N677SFD 12600BPD 100MCM CR0 4-1/2"-8RD NUE
12600
2000
N677SFD 12600BPD 200MCM CR0 4-1/2"-8RD NUE
12600
2000
200
11,15 3,400 326 148 3010020141
N677SFD 17000BPD 200MCM CR0 4-1/2"-8RD NUE
17000
2700
200
14,44 4,400 404 183 3010020142
N677SFD 21400BPD 200MCM CR0 4-1/2"-8RD NUE
21400
3400
200
17,72 5,400 483 219 3010020143
N677SFD 25200BPD 200MCM CR0 4-1/2"-8RD NUE
25200
4000
200
20,99 6,400 560 254 3010020144
100
17,72 5,400 483 219 3010020139 20,99 6,400 560 254 3010020140
2018 Page 541
> Miscellaneous Equipment > Filters
> Downhole Gravitation Filter
GLOSSARY DOWNHOLE GRAVITATION FILTER N XXX DGF
XXXBPD
XXXMCM
XXX
X-X/X" -XXRD XUE
DX Manufacturer (Novomet) Series, (see Table 1) Downhole Gravitation Filter Max capacity, bpd Filtration rating, mcm 100 Corrosion resistance, (see Table 2) Thread size, (see Table 3) Thread type: -10RD NUE, 10 threads per inch, Non Upset Ends Design, (see Table 4)
e.g., N449DGF 1900BPD 100MCM CR1 2-7/8"-10RD NUE D0 Table 1 - Series
Series
HSG OD, in
HSG OD, mm
449
4.49
114
Table 2 - Corrosion resistance
Max chemical content, g/l CO2 Cl H2S
Abbr.
Full name
Fluid
CR1
Corrosion Resistant 1
Moderately aggressive fluid
1.25 0.01
0.01 1.45
CR3
Corrosion Resistant 3
Highly aggressive fluid
1.25
1.45
pH
Description
20
4.0..8.5
Carbon Steel
200
3.0..9.0
Stainless Steel
2018 Page 542
> Miscellaneous Equipment > Filters
> Downhole Gravitation Filter
Table 3 - Thread size
in
mm
23/8
60
Table 4 - Design
0 1
Design With tail pipe and sealing unit for 53/4" casing With container and sealing unit for 53/4" casing
DOWNHOLE GRAVITATION FILTER specification Description
Installation Length
Weight
Series
Nominal capacity
Filtration rating
Part Number
ft
m
lb
kg
in
mm
bpd
m /day
mcm
N449DGF 1900BPD 100MCM CR1 2-7/8"-10RD NUE D0
48.5
14.793
227
103
4.49
114
1900
300
100
3010030020
N449DGF 1900BPD 100MCM CR1 2-7/8"-10RD NUE D1
70.9
21.600 1098
498
4.49
114
1900
300
100
3010030021
3
2018 Page 543
> Miscellaneous Equipment > Filters
> Downhole Disk Filter
GLOSSARY Downhole Disk Filter N XXX DDF
XXXBPD
XXXMCM
XXX
X-X/X"
-XXRD XUE
DX Manufacturer (Novomet) Series, (see Table 1) Downhole Disk Filter Max capacity, bpd Filtration rating, mcm 100 200 300 Corrosion resistance, (see Table 2) Thread size, (see Table 3) Thread type: -10RD NUE, 10 threads per inch, Non Upset Ends Design, (see Table 4)
e.g., N443DDF 190BPD 100MCM CR1 2-7/8"-10RD NUE D2
Table 1 - Series
Series
HSG OD, in
HSG OD, mm
433
4.33
110
Table 2 - Corrosion resistance
Max chemical content, g/l CO2 Cl H2S
Abbr.
Full name
Fluid
CR1
Corrosion Resistant 1
Moderately aggressive fluid
0.01 1.25
1.45 0.01
200
pH
Description
Stainless Steel for internal parts and 4.0..8.5 core. Head and base are from Carbon Steel
Table 3 - Thread size
in
mm
2 /8
73
7
Table 4 - Design
Design 0 2
Standard With bypass valve
2018 Page 544
> Miscellaneous Equipment > Filters
> Downhole Disk Filter
Downhole Disk Filter specification Capacity Description bpd
m3/day
N433DDF 190BPD 100MCM CR1 2-7/8"-10RD NUE D2
190
N433DDF 380BPD 100MCM CR1 2-7/8"-10RD NUE D2
380
N433DDF 570BPD 100MCM CR1 2-7/8"-10RD NUE D2
570
90
N433DDF 760BPD 100MCM CR1 2-7/8"-10RD NUE D2
760
120
Filtration rating mcm
Installation Length
Weight Part Number
ft
m
lb
kg
30
4.4
1.3
53
24
3010030064
60
8.0
2.4
93
42
3010030065
100
11.6
3.6
132
60
3010030066
15.3
4.7
172
78
3010030067
N433DDF 940BPD 100MCM CR1 2-7/8"-10RD NUE D2
940
150
18.9
5.8
212
96
3010030068
N433DDF 1150BPD 100MCM CR1 2-7/8"-10RD NUE D2
1150
180
22.5
6.9
251
114
3010030069
N433DDF 380BPD 200MCM CR1 2-7/8"-10RD NUE D2
380
60
4.4
1.3
53
24
3010030070
N433DDF 760BPD 200MCM CR1 2-7/8"-10RD NUE D2
760
120
8.0
2.4
93
42
3010030071
N433DDF 1150BPD 200MCM CR1 2-7/8"-10RD NUE D2
1150
180
11.6
3.6
132
60
3010030072
N433DDF 1500BPD 200MCM CR1 2-7/8"-10RD NUE D2
1500
240
15.3
4.7
172
78
3010030073
200
N433DDF 1900BPD 200MCM CR1 2-7/8"-10RD NUE D2
1900
300
18.9
5.8
212
96
3010030074
N433DDF 2260BPD 200MCM CR1 2-7/8"-10RD NUE D2
2260
360
22.5
6.9
251
114
3010030075
N433DDF 630BPD 300MCM CR1 2-7/8"-10RD NUE D2
630
100
4.4
1.3
53
24
3010030076
N433DDF 1250BPD 300MCM CR1 2-7/8"-10RD NUE D2
1250
200
8.0
2.4
93
42
3010030062
N433DDF 1900BPD 300MCM CR1 2-7/8"-10RD NUE D2
1900
300
11.6
3.6
132
60
3010030061
300
N433DDF 2510BPD 300MCM CR1 2-7/8"-10RD NUE D2
2510
400
15.3
4.7
172
78
3010030063
N433DDF 3150BPD 300MCM CR1 2-7/8"-10RD NUE D2
3150
500
18.9
5.8
212
96
3010030077
N433DDF 3770BPD 300MCM CR1 2-7/8"-10RD NUE D2
3770
600
22.5
6.9
251
114
3010030078
2018 Page 545
> Miscellaneous Equipment > Filters
> Downhole Cascade Filter
GLOSSARY Downhole Cascade Filter N XXX DCF
XXXBPD
XXXMCM
XXX
X-X/X"
-XXRD XUE
DX Manufacturer (Novomet) Series, (see Table 1) Downhole Cascade Filter Max capacity, bpd 315 630 1250 Filtration rating, mcm 100 200 Corrosion resistance, (see Table 2) Thread size, (see Table 3) Thread type: -10RD NUE, 10 threads per inch, Non Upset Ends Design, (see Table 4)
e.g., N362DCF 630BPD 100MCM CR1 2-3/8"-10RD NUE D0
Table 1 - Series
Series
HSG OD, in
362
3.62
ФСК92-60.0-100-100/00
HSG OD, mm 92
Table 2 - Corrosion resistance
Max chemical content, g/l CO2 Cl H2S
Abbr.
Full name
Fluid
CR1
Corrosion Resistant 1
Moderately aggressive fluid
0.01 1.25
1.45 0.01
200
pH
Description
Stainless Steel for internal parts and 4.0..8.5 housing. Head and base are from Carbon Steel
Table 3 - Thread size
in
mm
2 /8
60
3
Table 4 - Design
0 2
Design 1st cascade - Hydrocyclone separator 2nd cascade - Slotted filter with bypass valve 1st cascade - Hydrocyclone separator with bypass valve 2nd cascade - Slotted filter with bypass valve
2018 Page 546
> Miscellaneous Equipment > Filters
> Downhole Cascade Filter
Downhole Cascade Filter specification Capacity
Filtration rating
bpd m3/day
mcm
Description
N362DCF 315BPD 100MCM CR1 2-3/8"-10RD NUE D0
315
50
N362DCF 315BPD 100MCM CR1 2-3/8"-10RD NUE D2
315
50
N362DCF 630BPD 100MCM CR1 2-3/8"-10RD NUE D0
630
100
Installation Length
Part Number ft
m
lb
kg
602±93
273±42
3010030028
84.3±14.8 25.7±4.5
615±93
279±42
3010030029
93.4±14.8 28.5±4.5
701±93
318±42
3010030030
83.6±14.8 25.5±4.5 100
Weight
N362DCF 630BPD 100MCM CR1 2-3/8"-10RD NUE D2
630
100
94.1±14.8 28.7±4.5
714±93
324±42
3010030031
N362DCF 630BPD 200MCM CR1 2-3/8"-10RD NUE D0
630
100
83.6±14.8 25.5±4.5
600±93
272±42
3010030032
84.3±14.8 25.7±4.5
613±93
278±42
3010030033
93.4±14.8 28.5±4.5
699±93
317±42
3010030034
94.1±14.8 28.7±4.5
712±93
323±42
3010030035
N362DCF 630BPD 200MCM CR1 2-3/8"-10RD NUE D2
630
100
N362DCF 1250BPD 200MCM CR1 2-3/8"-10RD NUE D0
1250
200
N362DCF 1250BPD 200MCM CR1 2-3/8"-10RD NUE D2
1250
200
200
2018 Page 547
> Miscellaneous Equipment > Filters
> Downhole Slotted Gravitation Filter
GLOSSARY DOWNHOLE SLOTTED GRAVITATION FILTER N XXX SGFD XXXBPD
XXXMCM
XXX
X-X/X" -XXRD XUE
DX Manufacturer (Novomet) Series, (see Table 1) Slotted Gravitation Filter (Downhole) Max capacity, bpd Filtration rating, mcm 100 Corrosion resistance, (see Table 2) Thread size, (see Table 3) Thread type: -10RD NUE, 10 threads per inch, Non Upset Ends Design, (see Table 4)
e.g., N449SGFD 1900BPD 100MCM CR1 2-3/8"-10RD NUE D1 Table 1 - Series
Series
HSG OD, in
HSG OD, mm
449
4.49
114
Table 2 - Corrosion resistance
Max chemical content, g/l CO2 Cl H2S
Abbr.
Full name
Fluid
CR1
Corrosion Resistant 1
Moderately aggressive fluid
1.25 0.01
0.01 1.45
CR3
Corrosion Resistant 3
Highly aggressive fluid
1.25
1.45
pH
Description
20
4.0..8.5
Carbon Steel
200
3.0..9.0
Stainless Steel
Table 3 - Thread size
in
mm
2 /8
60
3
2018 Page 548
> Miscellaneous Equipment > Filters
> Downhole Slotted Gravitation Filter
Table 4 - Design
0 1 2 3 4 5 6
Design With tail pipe and sealing unit for 53/4" casing With container and sealing unit for 53/4" casing With bypass valve With tail pipe and sealing unit for 7" casing With container and sealing unit for 7" casing With tail pipe and sealing unit for 65/8" casing With container and sealing unit for 65/8" casing
DOWNHOLE SLOTTED GRAVITATION FILTER specification Description
Installation Length ft
m
Capacity bpd
Filtration rating
Weight
m3/day
mcm
lb
kg
Part Number
N449SGFD 630BPD 100MСM CR1 2-3/8"-10RD NUE D0
70.9
21.6
630
100
100
525
238
3010030023
N449SGFD 1250BPD 100MСM CR1 2-3/8"-10RD NUE D0
88.3
26.9
1250
200
100
741
336
3010030022
N449SGFD 1900BPD 100MСM CR1 2-3/8"-10RD NUE D0 105.6
32.2
1900
300
100
957
434
3010030018
N449SGFD 630BPD 100MСM CR1 2-3/8"-10RD NUE D1
93.2
28.4
630
100
100
1374
623
3010030024
N449SGFD 1250BPD 100MСM CR1 2-3/8"-10RD NUE D1 110.6
33.7
1250
200
100
1590
721
3010030019
N449SGFD 1900BPD 100MСM CR1 2-3/8"-10RD NUE D1 128.0
39.0
1900
300
100
1806
819
3010030025
N449SGFD 630BPD 100MСM CR1 2-3/8"-10RD NUE D3
71.5
21.8
630
100
100
613
278
3010030040
N449SGFD 1250BPD 100MСM CR1 2-3/8"-10RD NUE D3
88.9
27.1
1250
200
100
829
376
3010030042
N449SGFD 1900BPD 100MСM CR1 2-3/8"-10RD NUE D3 106.3
32.4
1900
300
100
1045
474
3010030044
N449SGFD 4400BPD 200MСM CR1 2-3/8"-10RD NUE D3 116.1 N449SGFD 630BPD 100MСM CR1 2-3/8"-10RD NUE D4
35.4
4400
700
200
1158
525
3010030045
93.9
28.6
630
100
100
1462
663
3010030041
N449SGFD 1250BPD 100MСM CR1 2-3/8"-10RD NUE D4 111.3
33.9
1250
200
100
1678
761
3010030043
N449SGFD 1900BPD 100MСM CR1 2-3/8"-10RD NUE D4 128.6
39.2
1900
300
100
1894
859
3010030036
N449SGFD 4400BPD 200MСM CR1 2-3/8"-10RD NUE D4 138.5
42.2
4400
700
200
2007
910
3010030046
N449SGFD 630BPD 100MСM CR1 2-3/8"-10RD NUE D5
72.0
22.0
630
100
100
617
280
3010030054
N449SGFD 1250BPD 100MСM CR1 2-3/8"-10RD NUE D5
89.4
27.3
1250
200
100
833
378
3010030056
N449SGFD 1900BPD 100MСM CR1 2-3/8"-10RD NUE D5 106.8
32.5
1900
300
100
1050
476
3010030057
N449SGFD 4400BPD 200MСM CR1 2-3/8"-10RD NUE D5 116.6
35.5
4400
700
200
1162
527
3010030059
94.4
28.8
630
100
100
1466
665
3010030055
N449SGFD 1250BPD 100MСM CR1 2-3/8"-10RD NUE D6 111.7
N449SGFD 630BPD 100MСM CR1 2-3/8"-10RD NUE D6
34.1
1250
200
100
1682
763
3010030039
N449SGFD 1900BPD 100MСM CR1 2-3/8"-10RD NUE D6 129.1
39.4
1900
300
100
1899
861
3010030058
N449SGFD 4400BPD 200MСM CR1 2-3/8"-10RD NUE D6 139.0
42.4
4400
700
200
2011
912
3010030060
2018 Page 549
> Miscellaneous Equipment > Filters
> Slotted Screen Pump Intake
GLOSSARY SLOTTED SCREEN PUMP INTAKE N
XXX
SSPI
XXXBPD
XXXMCM
XXX
X.XX"
XXX
XXX Manufacturer (Novomet) Series, (see Table 1) Slotted Screen Pump Intake Max capacity, bpd Filtration rating, mcm* 100 200 Corrosion resistance, (see Table 2) Shaft diameter, inches Shaft material and yield strength: S13 - Stainless steel (1275 MPa) S14 - Stainless steel (1370 MPa) I13 - Inconel alloy (1275 MPa) Flange connection design: empty - standard flange-to-housing FJI - Flush Joint Inserted
e.g., N406SSPI 1000BPD 100MCM CR3 0.67" S14 *To choose the most suitable filtration rating please specify type and size of solids.
Table 1 - Series
Series
HSG OD, in
HSG OD, mm
362
3.62
92
406
4.06
103
Table 2 - Corrosion resistance
Fluid
Max chemical content, g/l CO2 Cl H2S
Abbr.
Full name
pH
Description
CR0
Corrosion Resistant 0
Slightly aggressive 0.01 fluid
0.01
20
5.0..8.5
Carbon Steel
CR3
Corrosion Resistant 3
Highly aggressive fluid
1.25
1.45
200
3.0..9.0
Stainless Steel
UCR
Ultra Corrosion Resistant
Extremely aggressive fluid
>1.25
1.45
200
3.0..9.0
Materials resistant to Sulfide Stress Cracking are used for housing, head and base.
2018 Page 550
11.47
37.6 40.9 11.4 14.7 18.0
N406SSPI 1820BPD 100MCM CR1 0.87'' S14
N406SSPI 2010BPD 100MCM CR1 0.87'' S14
N406SSPI 760BPD 200MCM CR1 0.87'' S14
N406SSPI 1000BPD 200MCM CR1 0.87'' S14
N406SSPI 1260BPD 200MCM CR1 0.87'' S14
31.1 34.4
N406SSPI 1630BPD 100MCM CR1 0.87'' S14
27.8
N406SSPI 1320BPD 100MCM CR1 0.87'' S14
N406SSPI 1480BPD 100MCM CR1 0.87'' S14
21.2 24.5
N406SSPI 1010BPD 100MCM CR1 0.87'' S14
18.0
N406SSPI 820BPD 100MCM CR1 0.87'' S14
N406SSPI 1160BPD 100MCM CR1 0.87'' S14
11.4 14.7
N406SSPI 500BPD 100MCM CR1 0.87'' S14
N406SSPI 660BPD 100MCM CR1 0.87'' S14
37.6 40.9
N362SSPI 2770BPD 200MCM CR1 0.79'' S14
N362SSPI 2260BPD 200MCM CR1 0.79'' S14
N362SSPI 2510BPD 200MCM CR1 0.79'' S14
31.1 34.4
N362SSPI 2070BPD 200MCM CR1 0.79'' S14
27.8
N362SSPI 1890BPD 200MCM CR1 0.79'' S14
6.47
21.2 24.5
N362SSPI 1390BPD 200MCM CR1 0.79'' S14
N362SSPI 1630BPD 200MCM CR1 0.79'' S14
5.47
18.0
N362SSPI 1130BPD 200MCM CR1 0.79'' S14
5.47
4.47
3.47
12.47
11.47
10.47
9.47
8.47
7.47
6.47
5.47
4.47
3.47
12.47
11.47
10.47
9.47
8.47
7.47
4.47
3.47
11.4 14.7
12.47
N362SSPI 940BPD 200MCM CR1 0.79'' S14
N362SSPI 1820BPD 100MCM CR1 0.79'' S14
10.47
9.47
8.47
5.47
N362SSPI 720BPD 200MCM CR1 0.79'' S14
37.6 40.9
N362SSPI 1660BPD 100MCM CR1 0.79'' S14
31.1
27.8 34.4
24.5
N362SSPI 1070BPD 100MCM CR1 0.79'' S14
N362SSPI 1260BPD 100MCM CR1 0.79'' S14
N362SSPI 1380BPD 100MCM CR1 0.79'' S14
7.47
21.2
N362SSPI 1510BPD 100MCM CR1 0.79'' S14
6.47
18.0
N362SSPI 760BPD 100MCM CR1 0.79'' S14
N362SSPI 910BPD 100MCM CR1 0.79'' S14
4.47
14.7
N362SSPI 630BPD 100MCM CR1 0.79'' S14
3.47
m
11.4
ft
Installation Length
N362SSPI 470BPD 100MCM CR1 0.79'' S14
Description
318
254
190
763
699
635
571
507
443
381
318
254
190
666
609
551
496
441
386
333
276
221
165
666
609
551
496
441
386
333
276
221
165
lb
144
115
86
346
317
288
259
230
201
173
144
115
86
302
276
250
225
200
175
151
125
100
75
302
276
250
225
200
175
151
125
100
75
kg
Weight
4.06
4.06
4.06
4.06
4.06
4.06
4.06
4.06
4.06
4.06
4.06
4.06
4.06
3.62
3.62
3.62
3.62
3.62
3.62
3.62
3.62
3.62
3.62
3.62
3.62
3.62
3.62
3.62
3.62
3.62
3.62
3.62
103
103
103
103
103
103
103
103
103
103
103
103
103
92
92
92
92
92
92
92
92
92
92
92
92
92
92
92
92
92
92
92
92
mm
Series 3.62
in
1260
1000
760
2010
1820
1630
1480
1320
1160
1010
820
660
500
2770
2510
2260
2070
1890
1630
1390
1130
940
720
1820
1660
1510
1380
1260
1070
910
760
630
470
bpd
200
160
120
320
290
260
235
210
185
160
130
105
80
440
400
360
330
300
260
220
180
150
115
290
265
240
220
200
170
145
120
100
75
m3/day
Nominal capacity
200
200
200
100
100
100
100
100
100
100
100
100
100
200
200
200
200
200
200
200
200
200
200
100
100
100
100
100
100
100
100
100
100
mcm
Filtration rating
SLOTTED SCREEN PUMP INTAKE specification
0.87
0.87
0.87
0.87
0.87
0.87
0.87
0.87
0.87
0.87
0.87
0.87
0.87
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
in
22
22
22
22
22
22
22
22
22
22
22
22
22
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
mm
Shaft diameter
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
TBA
S14 shaft
Part Number
> Miscellaneous Equipment > Filters > Slotted Screen Pump Intake
2018 Page 551
10.47 11.47
27.8 31.1 34.4 37.6 40.9
N406SSPI 2010BPD 200MCM CR1 0.87'' S14
N406SSPI 2260BPD 200MCM CR1 0.87'' S14
N406SSPI 2520BPD 200MCM CR1 0.87'' S14
N406SSPI 2770BPD 200MCM CR1 0.87'' S14
N406SSPI 3020BPD 200MCM CR1 0.87'' S14
12.47
9.47
8.47
7.47
24.5
N406SSPI 1760BPD 200MCM CR1 0.87'' S14
6.47
m
21.2
ft
Installation Length
N406SSPI 1510BPD 200MCM CR1 0.87'' S14
Description
763
699
635
571
507
443
381
346
317
288
259
230
201
173
kg
Weight lb
4.06
4.06
4.06
4.06
4.06
4.06
103
103
103
103
103
103
103
mm
Series 4.06
in
3020
2770
2520
2260
2010
1760
1510
bpd
480
440
400
360
320
280
240
m3/day
Nominal capacity
200
200
200
200
200
200
200
mcm
Filtration rating
0.87
0.87
0.87
0.87
0.87
0.87
0.87
in
22
22
22
22
22
22
22
mm
Shaft diameter
TBA
TBA
TBA
TBA
TBA
TBA
TBA
S14 shaft
Part Number
SLOTTED SCREEN PUMP INTAKE specification continued
> Miscellaneous Equipment > Filters > Slotted Screen Pump Intake
2018 Page 552
> Miscellaneous Equipment > Upper Sand Trap
GLOSSARY UPPER SAND TRAP UST
X-X/X" -XX RD
XXX
XXX Upper Sand Trap Thread size, inches, (see Table 1) Pitch, threads per inch: 8 10 rd - round thread Thread type: EUE - External Upset Ends (for 8rd)* NUE - Non Upset Ends (for 10rd)* S - Short casing thread (51/2" and 53/4" are 8rd only) Corrosion resistance, (see Table 2)
* - for 1.315", 1.660" and 1.900" threads both EUE and NUE options are 10rd only; for 41/2" thread both EUE and NUE options are 8rd only e.g., UST 2-3/8"-8RD EUE UCR Table 1 - Thread size
in
mm
23/8
60
7
2 /8
73
31/2
89
41/2
114
51/2
140
53/4
146
2018 Page 553
> Miscellaneous Equipment > Upper Sand Trap
Table 2 - Corrosion resistance
Abbr.
Full name
Max chemical content, g/l CO2 Cl H2S
Fluid
pH
Description
CR0
Corrosion Re- Slightly aggressive 0.01 sistant 0 fluid
0.01
20
5.0..8.5
Carbon Steel
CR3
Corrosion Resistant 3
1.45
200
3.0..9.0
Stainless Steel
UCR
Ultra Corrosion Extremely aggres>1.25 Resistant sive fluid
1.45
200
3.0..9.0
Materials resistant to Sulfide Stress Cracking are used
Highly aggressive fluid
1.25
UPPER SAND TRAP specification Description
Housing OD in
mm
Installation Length ft
m
Weight lb
kg
Part Number
UST 2-3/8"-10RD NUE CR0
3,15
80
2,76
0,842
14,1
6,4
3012020011
UST 2-3/8"-10RD NUE CR3
3,15
80
2,76
0,842
14,1
6,4
3012020012
UST 2-3/8"-10RD NUE UCR
3,15
80
2,76
0,842
14,1
6,4
3012020021
UST 2-3/8"-8RD EUE CR0
3,15
80
2,76
0,842
14,3
6,5
3012020010
UST 2-3/8"-8RD EUE CR3
3,15
80
2,76
0,842
14,3
6,5
3012020009
UST 2-3/8"-8RD EUE UCR
TBA
TBA
TBA
TBA
TBA
TBA
3012020022
UST 2-7/8"-10RD NUE CR0
3,51
89
2,73
0,831
21,8
9,9
3012010020
UST 2-7/8"-10RD NUE CR3
3,51
89
2,73
0,831
21,8
9,9
3012020004
UST 2-7/8"-10RD NUE UCR
3,51
89
2,73
0,833
21,9
9,9
3012020039
UST 2-7/8"-8RD EUE CR0
3,54
90
2,74
0,836
21,8
9,9
3012010019
UST 2-7/8"-8RD EUE CR3
3,54
90
2,74
0,836
21,8
9,9
3012020007
UST 2-7/8"-8RD EUE UCR
3,54
90
2,73
0,831
21,9
9,9
3012020023
UST 3-1/2"-10RD NUE CR0
4,25
108
3,42
1,041
24,9
11,3
3012020005
UST 3-1/2"-10RD NUE CR3
4,25
108
3,42
1,041
24,9
11,3
3012020008
UST 3-1/2"-10RD NUE UCR
4,25
108
3,42
1,042
27,5
12,5
3012020024
UST 3-1/2"-8RD EUE CR0
4,53
115
3,42
1,041
27,3
12,4
3012020019
UST 3-1/2"-8RD EUE CR3
4,50
114,3
3,42
1,041
27,3
12,4
3012020020
UST 3-1/2"-8RD EUE UCR
TBA
TBA
TBA
TBA
TBA
TBA
3012020025
UST 4-1/2"-8RD NUE CR0
TBA
TBA
TBA
TBA
TBA
TBA
3012020006
UST 4-1/2"-8RD NUE CR3
5,20
132
5,17
1,575
42,1
19,1
3012020026
UST 4-1/2"-8RD NUE UCR
TBA
TBA
TBA
TBA
TBA
TBA
3012020027
UST 4-1/2"-8RD EUE CR0
5,59
142
5,17
1,575
42,6
19,3
3012020028
UST 4-1/2"-8RD EUE CR3
5,55
141
5,17
1,575
46,7
21,2
3012020029
UST 5-3/4"-8RD S CR0
6,54
166
9,22
2,811
329,0
149,2
3050090007
UST 5-3/4"-8RD S CR3
TBA
TBA
TBA
TBA
TBA
TBA
3012020030
2018 Page 554
> Miscellaneous Equipment > Sand Catcher
GLOSSARY SAND catcher N
XXX
SC
XXXX
XXX
XXX
XXX Manufacturer (Novomet) Series, (see Table 1) Sand Catcher Nominal capacity, bpd @60Hz Abrasion resistance, (see Table 2) Corrosion resistance, (see Table 3) Design, (see Table 4)
e.g., N460SC1000 AR3 CR3 D2 Table 1 - Series
Series
HSG OD, in
HSG OD, mm
460
4.60
117
Table 2 - Abrasion resistance
Abbr.
Full name
Description
AR3
Abrasion Resistant 3
For fluid containing solids up to 1050 ptb (3000 mg/l)
Table 3 - Corrosion resistance
Abbr.
Full name
Fluid
CR3
Corrosion Resistant 3
Highly aggressive fluid
Max chemical content, g/l CO2 Cl H2S 1.25
1.45
200
pH
Description
3.0..9.0 Stainless Steel housing, head and base.
Table 4 - Design
Design 0
Standard design
1
With container
2
With tail pipe
3
With container and tail pipe
2018 Page 555
> Miscellaneous Equipment > Sand Catcher
SAND Catcher specification Installation Length
Weight
Housing diameter
Shaft diameter
lb
kg
in
mm
in
40.0
Nomenclature ft
m
N460SC1000 AR3 CR3 D0
2.80
4.60
117
0.79
N460SC1000 AR3 CR3 D4
43.66 13.309 452.0 205.0 4.60
0.854 88.2
117
0.79
Nominal pump flow rate Part bpd m3/day Number mm @ @ 60 Hz 50 Hz 20 1000 125 3031010006 20
1000
125
3031010007
2018 Page 556
> Miscellaneous Equipment > Scale Preventer
GLOSSARY SCALE PREVENTER SP
XXX
XX/X" -XX RD
X
XXX
XXXXBPD
XXX Scale Preventer Series 315 350 449 Type: S - Solid E - Encapsulated D - Displacing Thread size, inches Pitch, threads per inch: 10 RD - round thread Thread type: NUE - Non Upset Ends (for 10rd) Water component in fluid, bpd Corrosion resistance, (see Table 1)
e.g., SP350S 2-3/8"-10RD NUE 160BPD CR0
Table 1 - Thread size
in
mm
3
2 /8
60
27/8
73
1
3 /2
89
41/2
114
51/2
140
53/4
146
2018 Page 557
> Miscellaneous Equipment > Scale Preventer
Table 2 - Corrosion resistance
Max chemical content, g/l CO2 Cl H 2S
Abbr.
Full name
Fluid
pH
Description
CR0
Corrosion Resistant 0
Slightly aggressive fluid
0.01
0.01
20
5.0..8.5
Carbon Steel
CR1
Corrosion Resistant 1
Moderately aggressive fluid
1.25 0.01
0.01 1.45
200
4.0..8.5
Carbon Steel
CR3
Corrosion Resistant 3
Highly aggressive fluid
1.25
1.45
200
3.0..9.0 Stainless Steel
SCALE PREVENTER specification Description
Housing diameters in
mm
Weight lb
kg
Part Number
SP350S 2-3/8"-10RD NUE 95BPD CR0
3.50
89
399
181
3013010011
SP350S 2-3/8"-10RD NUE 160BPD CR0
3.50
89
560
254
3013010002
SP350S 2-3/8"-10RD NUE 315BPD CR0
3.50
89
721
327
3013010004
SP350S 2-3/8"-10RD NUE 500BPD CR0
3.50
89
1063
482
3013010006
SP350S 2-3/8"-10RD NUE 630BPD CR0
3.50
89
1224
555
3013010008
SP350S 2-3/8"-10RD NUE 790BPD CR0
3.50
89
1385
628
3013010010
SP350S 2-3/8"-10RD NUE 95BPD CR0
3.50
89
399
181
3013010024
SP350S 2-3/8"-10RD NUE 160BPD CR0
3.50
89
560
254
3013010021
SP350S 2-3/8"-10RD NUE 315BPD CR0
3.50
89
721
327
3013010015
SP350S 2-3/8"-10RD NUE 500BPD CR0
3.50
89
1063
482
3013010016
SP350S 2-3/8"-10RD NUE 630BPD CR0
3.50
89
1224
555
3013010022
SP350S 2-3/8"-10RD NUE 790BPD CR0
3.50
89
1385
628
3013010023
SP315E 2-3/8"-10RD NUE 250BPD CR0
3.15
80
1715
778
3013010038
SP315E 2-3/8"-10RD NUE 380BPD CR0
3.15
80
2287
1037
3013010039
SP449E 2-3/8"-10RD NUE 160BPD CR0
4.50
114
553
251
3013010028
SP449E 2-3/8"-10RD NUE 315BPD CR0
4.50
114
1087
493
3013010029
SP449E 2-3/8"-10RD NUE 630BPD CR0
4.50
114
2154
977
3013010030
SP449E 2-3/8"-10RD NUE 940BPD CR0
4.50
114
3222
1461
3013010031
23/8" -10rd NUE thread is used for Novomet motor base. Other thread sizes are available on Customer request. CR1 and CR3 modifications are available on Customer request.
2018 Page 558
> Miscellaneous Equipment > Shroud
GLOSSARY SHROUD SHROUD
XXXI/XXXM
XXX
XXXFT
XXX
X/X" Motor Shroud Intake/Motor series Single and Tandem shrouds: SGL - Single DBL - Double TRP - Triple UT - Upper Tandem CT - Center Tandem LT - Lower Tandem Shroud length, ft Corrosion resistance, (see Table 1) Size of slot for capillary tube, inches, if required
e.g., SHROUD 362-406I/406M SGL 23FT CR0 1/4"
Table 1 - Corrosion resistance
Abbr.
Full name
Fluid
Max chemical content, g/l CO2 Cl H2S
pH
Description
CR0
Corrosion Re- Slightly aggressive 0.01 sistant 0 fluid
0.01
20
5.0..8.5
Carbon Steel
CR3
Corrosion Resistant 3
1.45
200
3.0..9.0
Stainless Steel
Highly aggressive fluid
1.25
2018 Page 559
> Miscellaneous Equipment > Shroud
Shroud specification single section Description
Intake series
Motor series
Housing OD Housing ID in
mm
in
mm
Installation Length
Part Number
ft
m
SHROUD 272INTAKE/319MOTOR SGL 9.8FT CR0
9 .84
3 .00
3014040211
SHROUD 272INTAKE/319MOTOR SGL 13.1FT CR0
13 .12
4 .00
3014040180
SHROUD 272INTAKE/319MOTOR SGL 16.4FT CR0
16 .41
5 .00
3014040185
SHROUD 272INTAKE/319MOTOR SGL 19.7FT CR0
19 .69
6 .00
3014040190
SHROUD 272INTAKE/319MOTOR SGL 23FT CR0
272
319
4 .21
107
3 .94
100
22 .97
7 .00
3014040195
SHROUD 272INTAKE/319MOTOR SGL 26.2FT CR0
26 .25
8 .00
3014040200
SHROUD 272INTAKE/319MOTOR SGL 29.5FT CR0
29 .53
9 .00
3014040205
SHROUD 272INTAKE/319MOTOR SGL 32.8FT CR0
32 .81 10 .00
3014040210
SHROUD 319INTAKE/319MOTOR SGL 9.8FT CR0
9 .84
3 .00
3014040247
SHROUD 319INTAKE/319MOTOR SGL 13.1FT CR0
13 .12
4 .00
3014040242
SHROUD 319INTAKE/319MOTOR SGL 16.4FT CR0
16 .41
5 .00
3014040237
SHROUD 319INTAKE/319MOTOR SGL 19.7FT CR0
19 .69
6 .00
3014040232
22 .97
7 .00
3014040227 3014040222
SHROUD 319INTAKE/319MOTOR SGL 23FT CR0
319
319
4 .33
110
4 .08
103 .5
SHROUD 319INTAKE/319MOTOR SGL 26.2FT CR0
26 .25
8 .00
SHROUD 319INTAKE/319MOTOR SGL 29.5FT CR0
29 .53
9 .00
3014040217
SHROUD 319INTAKE/319MOTOR SGL 32.8FT CR0
32 .81 10 .00
3014040212
SHROUD 338INTAKE/378MOTOR SGL 9.8FT CR0
9 .84
3 .00
3014030177
SHROUD 338INTAKE/378MOTOR SGL 13.1FT CR0
13 .12
4 .00
3014030182
SHROUD 338INTAKE/378MOTOR SGL 16.4FT CR0
16 .41
5 .00
3014030187 3014030192
SHROUD 338INTAKE/378MOTOR SGL 19.7FT CR0
19 .69
6 .00
22 .97
7 .00
3014030197
SHROUD 338INTAKE/378MOTOR SGL 26.2FT CR0
26 .25
8 .00
3014030203
SHROUD 338INTAKE/378MOTOR SGL 23FT CR0
338
338
4 .65
118
TBA
TBA
SHROUD 338INTAKE/378MOTOR SGL 29.5FT CR0
29 .53
9 .00
3014030208
SHROUD 338INTAKE/378MOTOR SGL 32.8FT CR0
32 .81 10 .00
3014030213
SHROUD 362INTAKE/406MOTOR SGL 9.8FT CR0
9 .84
3 .00
3014010275 3014010280
SHROUD 362INTAKE/406MOTOR SGL 13.1FT CR0
13 .12
4 .00
SHROUD 362INTAKE/406MOTOR SGL 17.1FT CR0
16 .41
5 .00
3014010285
SHROUD 362INTAKE/406MOTOR SGL 19.7FT CR0
19 .69
6 .00
3014010290
SHROUD 362INTAKE/406MOTOR SGL 23FT CR0
362
406
4 .86
123 .5
TBA
TBA
22 .97
7 .00
3014010295
SHROUD 362INTAKE/406MOTOR SGL 26.2FT CR0
26 .25
8 .00
3014010300
SHROUD 362INTAKE/406MOTOR SGL 29.5FT CR0
29 .53
9 .00
3014010305
SHROUD 362INTAKE/406MOTOR SGL 32.8FT CR0
32 .81 10 .00
3014010310
SHROUD 362INTAKE/460MOTOR SGL 9.8FT CR0 1/4"
9 .84
3 .00
3014020785
SHROUD 362INTAKE/460MOTOR SGL 13.1FT CR0 1/4"
13 .12
4 .00
3014020790
SHROUD 362INTAKE/460MOTOR SGL 17.1FT CR0 1/4"
16 .41
5 .00
3014020795
SHROUD 362INTAKE/460MOTOR SGL 19.7FT CR0 1/4"
19 .69
6 .00
3014020800
22 .97
7 .00
3014020805
SHROUD 362INTAKE/460MOTOR SGL 26.2FT CR0 1/4"
26 .25
8 .00
3014020810
SHROUD 362INTAKE/460MOTOR SGL 29.5FT CR0 1/4"
29 .53
9 .00
3014020815
SHROUD 362INTAKE/460MOTOR SGL 32.8FT CR0 1/4"
32 .81 10 .00
3014020820
SHROUD 362INTAKE/460MOTOR SGL 23FT CR0 1/4"
362
460
5 .59
142
4 .88
124
2018 Page 560
> Miscellaneous Equipment > Shroud
Intake series
Description
Motor series
Housing OD Housing ID in
mm
in
mm
Installation Length ft
m
Part Number
SHROUD 406INTAKE/460MOTOR SGL 9.8FT CR0
9 .84
3 .00
SHROUD 406INTAKE/460MOTOR SGL 13.1FT CR0
13 .12
4 .00
3014020874
SHROUD 406INTAKE/460MOTOR SGL 17.1FT CR0
16 .41
5 .00
3014020879
SHROUD 406INTAKE/460MOTOR SGL 19.7FT CR0
3014020869
19 .69
6 .00
3014020884
22 .97
7 .00
3014020889
SHROUD 406INTAKE/460MOTOR SGL 26.2FT CR0
26 .25
8 .00
3014020894
406
SHROUD 406INTAKE/460MOTOR SGL 23FT CR0
460
5 .59
142
4 .88
124
SHROUD 406INTAKE/460MOTOR SGL 29.5FT CR0
29 .53
9 .00
3014020899
SHROUD 406INTAKE/460MOTOR SGL 32.8FT CR0
32 .81 10 .00
3014020904
SHROUD 449INTAKE/512MOTOR SGL 9.8FT CR0 1/4"
9 .84
3 .00
3014050248 3014050243
SHROUD 449INTAKE/512MOTOR SGL 13.1FT CR0 1/4"
13 .12
4 .00
SHROUD 449INTAKE/512MOTOR SGL 16.4FT CR0 1/4"
16 .41
5 .00
3014050238
SHROUD 449INTAKE/512MOTOR SGL 19.7FT CR0 1/4"
19 .69
6 .00
3014050233
449
SHROUD 449INTAKE/512MOTOR SGL 23FT CR0 1/4"
512
5 .91
150
5 .28
134
22 .97
7 .00
3014050228
SHROUD 449INTAKE/512MOTOR SGL 26.2FT CR0 1/4"
26 .25
8 .00
3014050223
SHROUD 449INTAKE/512MOTOR SGL 29.5FT CR0 1/4"
29 .53
9 .00
3014050218
SHROUD 449INTAKE/512MOTOR SGL 32.8FT CR0 1/4"
32 .81 10 .00
3014050213
SHROUD 535INTAKE/562MOTOR SGL 9.8FT CR0 1/4"
9 .84
3 .00
3014060142
SHROUD 535INTAKE/562MOTOR SGL 13.1FT CR0 1/4"
13 .12
4 .00
3014060137
SHROUD 535INTAKE/562MOTOR SGL 16.4FT CR0 1/4"
16 .41
5 .00
3014060132
SHROUD 535INTAKE/562MOTOR SGL 19.7FT CR0 1/4"
19 .69
6 .00
3014060127
22 .97
7 .00
3014060122
SHROUD 535INTAKE/562MOTOR SGL 26.2FT CR0 1/4"
26 .25
8 .00
3014060117
SHROUD 535INTAKE/562MOTOR SGL 29.5FT CR0 1/4"
29 .53
9 .00
3014060112
SHROUD 535INTAKE/562MOTOR SGL 32.8FT CR0 1/4"
32 .81 10 .00
3014060107
449
SHROUD 535INTAKE/562MOTOR SGL 23FT CR0 1/4"
512
5 .91
150
5 .28
134
double section Description
Intake series
Motor series
Housing OD Housing ID
m
SHROUD 319INTAKE/319MOTOR DBL 29.5FT CR0 1/4"
29 .53
9 .00
SHROUD 319INTAKE/319MOTOR DBL 32.8FT CR0 1/4"
32 .81 10 .00
3014040135
SHROUD 319INTAKE/319MOTOR DBL 36.1FT CR0 1/4"
36 .09 11 .00
3014040140
SHROUD 319INTAKE/319MOTOR DBL 39.4FT CR0 1/4"
39 .37 12 .00
3014040145
SHROUD 319INTAKE/319MOTOR DBL 42 .6FT CR0 1/4"
SHROUD 319INTAKE/319MOTOR DBL 49.2FT CR0 1/4"
319
319
4 .33
mm
110
in
3 .94
mm
Part Number
ft
SHROUD 319INTAKE/319MOTOR DBL 46FT CR0 1/4"
in
Installation Length
100
3014040130
42 .65 13 .00
3014040150
45 .93 14 .00
3014040155
49 .22 15 .00
3014040160
SHROUD 319INTAKE/319MOTOR DBL 52.5FT CR0 1/4"
52 .50 16 .00
3014040165
SHROUD 319INTAKE/319MOTOR DBL 55.8FT CR0 1/4"
55 .78 17 .00
3014040170
SHROUD 319INTAKE/319MOTOR DBL 59.1FT CR0 1/4"
59 .06 18 .00
3014040175
2018 Page 561
> Miscellaneous Equipment > Shroud
Description
Intake series
Motor series
Housing OD Housing ID in
mm
in
mm
Installation Length
Part Number
ft
m
SHROUD 338INTAKE/378MOTOR DBL 29.5FT CR0 1/4"
29 .53
9 .00
3014030304
SHROUD 338INTAKE/378MOTOR DBL 32.8FT CR0 1/4"
32 .81 10 .00
3014030299
SHROUD 338INTAKE/378MOTOR DBL 36.1FT CR0 1/4"
36 .09 11 .00
3014030294
SHROUD 338INTAKE/378MOTOR DBL 39.4FT CR0 1/4"
39 .37 12 .00
3014030289
SHROUD 338INTAKE/378MOTOR DBL 42.6FT CR0 1/4"
42 .65 13 .00
3014030284
45 .93 14 .00
3014030279
SHROUD 338INTAKE/378MOTOR DBL 46FT CR0 1/4"
338
338
4 .88
124
4 .65
118
SHROUD 338INTAKE/378MOTOR DBL 49.2FT CR0 1/4"
49 .22 15 .00
3014030274
SHROUD 338INTAKE/378MOTOR DBL 52.5FT CR0 1/4"
52 .50 16 .00
3014030269
SHROUD 338INTAKE/378MOTOR DBL 55.8FT CR0 1/4"
55 .78 17 .00
3014030264 3014030259
SHROUD 338INTAKE/378MOTOR DBL 59.1FT CR0 1/4"
59 .06 18 .00
SHROUD 362INTAKE/406MOTOR DBL 29.5FT CR0 1/4"
29 .53
9 .00
3014010401
SHROUD 362INTAKE/406MOTOR DBL 33.5FT CR0 1/4"
32 .81 10 .00
3014010396
SHROUD 362INTAKE/406MOTOR DBL 36.7FT CR0 1/4"
36 .09 11 .00
3014010390
SHROUD 362INTAKE/406MOTOR DBL 40.7FT CR0 1/4"
39 .37 12 .00
3014010384
SHROUD 362INTAKE/406MOTOR DBL 42.6FT CR0 1/4"
42 .65 13 .00
3014010381
45 .93 14 .00
3014010376
SHROUD 362INTAKE/406MOTOR DBL 46FT CR0 1/4"
362
406
4 .86
123 .5
4 .45
113
SHROUD 362INTAKE/406MOTOR DBL 48.6FT CR0 1/4"
49 .22 15 .00
3014010372
SHROUD 362INTAKE/406MOTOR DBL 51.8FT CR0 1/4"
52 .50 16 .00
3014010367
SHROUD 362INTAKE/406MOTOR DBL 55.8FT CR0 1/4"
55 .78 17 .00
3014010361
SHROUD 362INTAKE/406MOTOR DBL 59.1FT CR0 1/4"
59 .06 18 .00
3014010356
SHROUD 362INTAKE/460MOTOR DBL 29.5FT CR0 1/4"
29 .53
3014020536
9 .00
SHROUD 362INTAKE/460MOTOR DBL 32.8FT CR0 1/4"
32 .81 10 .00
3014020541
SHROUD 362INTAKE/460MOTOR DBL 36.1FT CR0 1/4"
36 .09 11 .00
3014020546
SHROUD 362INTAKE/460MOTOR DBL 39.4FT CR0 1/4"
39 .37 12 .00
3014020535
SHROUD 362INTAKE/460MOTOR DBL 42.6FT CR0 1/4"
42 .65 13 .00
3014020555
45 .93 14 .00
3014020560
SHROUD 362INTAKE/460MOTOR DBL 49.2FT CR0 1/4"
49 .22 15 .00
3014020565 3014020570
SHROUD 362INTAKE/460MOTOR DBL 46FT CR0 1/4"
362
460
5 .88
149 .4
5 .51
140
SHROUD 362INTAKE/460MOTOR DBL 52.5FT CR0 1/4"
52 .50 16 .00
SHROUD 362INTAKE/460MOTOR DBL 55.8FT CR0 1/4"
55 .78 17 .00
3014020575
SHROUD 362INTAKE/460MOTOR DBL 59.1FT CR0 1/4"
59 .06 18 .00
3014020580
SHROUD 406INTAKE/460MOTOR DBL 29.5FT CR0 1/4"
29 .53
9 .00
3014020365
SHROUD 406INTAKE/460MOTOR DBL 32.8FT CR0 1/4"
32 .81 10 .00
3014020370
SHROUD 406INTAKE/460MOTOR DBL 36.1FT CR0 1/4"
36 .09 11 .00
3014020375
SHROUD 406INTAKE/460MOTOR DBL 39.4FT CR0 1/4"
39 .37 12 .00
3014020380
SHROUD 406INTAKE/460MOTOR DBL 42.6FT CR0 1/4"
42 .65 13 .00
3014020385
45 .93 14 .00
3014020389
SHROUD 406INTAKE/460MOTOR DBL 46FT CR0 1/4"
406
460
5 .88
149 .4
5 .51
140
SHROUD 406INTAKE/460MOTOR DBL 49.2FT CR0 1/4"
49 .22 15 .00
3014020394
SHROUD 406INTAKE/460MOTOR DBL 52.5FT CR0 1/4"
52 .50 16 .00
3014020399
SHROUD 406INTAKE/460MOTOR DBL 55.8FT CR0 1/4"
55 .78 17 .00
3014020404
SHROUD 406INTAKE/460MOTOR DBL 59.1FT CR0 1/4"
59 .06 18 .00
3014020409
2018 Page 562
> Miscellaneous Equipment > Shroud
Description
Intake series
Motor series
Housing OD Housing ID
m
SHROUD 449INTAKE/512MOTOR DBL 29.5FT CR0 1/4"
29 .53
9 .00
SHROUD 449INTAKE/512MOTOR DBL 32.8FT CR0 1/4"
32 .81 10 .00
3014050172
SHROUD 449INTAKE/512MOTOR DBL 36.1FT CR0 1/4"
36 .09 11 .00
3014050177
SHROUD 449INTAKE/512MOTOR DBL 39.4FT CR0 1/4"
39 .37 12 .00
3014050182
SHROUD 449INTAKE/512MOTOR DBL 42.6FT CR0 1/4"
42 .65 13 .00
3014050187
45 .93 14 .00
3014050192
449
512
6 .28
mm
159 .4
in
5 .91
mm
Part Number
ft
SHROUD 449INTAKE/512MOTOR DBL 46FT CR0 1/4"
in
Installation Length
150
3014050167
SHROUD 449INTAKE/512MOTOR DBL 49.2FT CR0 1/4"
49 .22 15 .00
3014050197
SHROUD 449INTAKE/512MOTOR DBL 52.5FT CR0 1/4"
52 .50 16 .00
3014050202
SHROUD 449INTAKE/512MOTOR DBL 55.8FT CR0 1/4"
55 .78 17 .00
3014050207
SHROUD 449INTAKE/512MOTOR DBL 59.1FT CR0 1/4"
59 .06 18 .00
3014050212
SHROUD 535INTAKE/562MOTOR DBL 29.5FT CR0 1/4"
29 .53
9 .00
3014060020
SHROUD 535INTAKE/562MOTOR DBL 32.8FT CR0 1/4"
32 .81 10 .00
3014060025
SHROUD 535INTAKE/562MOTOR DBL 36.1FT CR0 1/4"
36 .09 11 .00
3014060030
SHROUD 535INTAKE/562MOTOR DBL 39.4FT CR0 1/4"
39 .37 12 .00
3014060035
42 .65 13 .00
3014060040
45 .93 14 .00
3014060045
SHROUD 535INTAKE/562MOTOR DBL 42.6FT CR0 1/4" SHROUD 535INTAKE/562MOTOR DBL 46FT CR0 1/4"
535
562
6 .93
176
6 .61
168
SHROUD 535INTAKE/562MOTOR DBL 49.2FT CR0 1/4"
49 .22 15 .00
3014060018
SHROUD 535INTAKE/562MOTOR DBL 52.5FT CR0 1/4"
52 .50 16 .00
3014060052
SHROUD 535INTAKE/562MOTOR DBL 55.8FT CR0 1/4"
55 .78 17 .00
3014060057
SHROUD 535INTAKE/562MOTOR DBL 59.1FT CR0 1/4"
59 .06 18 .00
3014060062
triple section Description
Intake series
Motor series
Housing OD Housing ID in
mm
in
mm
SHROUD 338INTAKE/378MOTOR TRP 59.7FT CR0 1/4"
Installation Length ft
m
59 .71 18 .20
Part Number 3014030214
SHROUD 338INTAKE/378MOTOR TRP 62.3FT CR0 1/4"
62 .34 19 .00
3014030218
SHROUD 338INTAKE/378MOTOR TRP 65.6FT CR0 1/4"
64 .96 19 .80
3014030223
SHROUD 338INTAKE/378MOTOR TRP 68.9FT CR0 1/4"
68 .90 21 .00
3014030228
SHROUD 338INTAKE/378MOTOR TRP 72.2FT CR0 1/4"
72 .18 22 .00
3014030233
75 .46 23 .00
3014030238
SHROUD 338INTAKE/378MOTOR TRP 75.5FT CR0 1/4"
338
378
TBA
TBA
TBA
TBA
SHROUD 338INTAKE/378MOTOR TRP 78.7FT CR0 1/4"
78 .74 24 .00
3014030243
SHROUD 338INTAKE/378MOTOR TRP 82FT CR0 1/4"
82 .03 25 .00
3014030248
SHROUD 338INTAKE/378MOTOR TRP 85.3FT CR0 1/4"
85 .31 26 .00
3014030253
SHROUD 338INTAKE/378MOTOR TRP 88.6FT CR0 1/4"
88 .59 27 .00
3014030258
SHROUD 362INTAKE/406MOTOR TRP 59.7FT CR0 1/4"
59 .71 18 .20
3014010355
SHROUD 362INTAKE/406MOTOR TRP 62.3FT CR0 1/4"
62 .34 19 .00
3014010351
SHROUD 362INTAKE/406MOTOR TRP 65FT CR0 1/4"
64 .96 19 .80
3014010347
SHROUD 362INTAKE/406MOTOR TRP 68.9FT CR0 1/4"
68 .90 21 .00
3014010341
SHROUD 362INTAKE/406MOTOR TRP 72.2FT CR0 1/4"
72 .18 22 .00
3014010336
SHROUD 362INTAKE/406MOTOR TRP 75.5FT CR0 1/4"
362
406
5 .24
133
4 .86
123 .5
75 .46 23 .00
3014010331
SHROUD 362INTAKE/406MOTOR TRP 78.7FT CR0 1/4"
78 .74 24 .00
3014010326
SHROUD 362INTAKE/406MOTOR TRP 82FT CR0 1/4"
82 .03 25 .00
3014010321
SHROUD 362INTAKE/406MOTOR TRP 85.3FT CR0 1/4"
85 .31 26 .00
3014010316
SHROUD 362INTAKE/406MOTOR TRP 88.6FT CR0 1/4"
88 .59 27 .00
3014010311
2018 Page 563
> Miscellaneous Equipment > Shroud
Description
Intake series
Motor series
Housing OD Housing ID in
mm
in
mm
Installation Length ft
m
Part Number
SHROUD 362INTAKE/460MOTOR TRP 59.7FT CR0 1/4"
59 .71 18 .20
3014021042
SHROUD 362INTAKE/460MOTOR TRP 62.3FT CR0 1/4"
62 .34 19 .00
3014021038
SHROUD 362INTAKE/460MOTOR TRP 65.6FT CR0 1/4"
64 .96 19 .80
3014021033
SHROUD 362INTAKE/460MOTOR TRP 68.9FT CR0 1/4"
68 .90 21 .00
3014021028
72 .18 22 .00
3014021023
75 .46 23 .00
3014021018
SHROUD 362INTAKE/460MOTOR TRP 72.2FT CR0 1/4" SHROUD 362INTAKE/460MOTOR TRP 75.5FT CR0 1/4"
362
460
5 .88
149 .4
5 .51
140
SHROUD 362INTAKE/460MOTOR TRP 78.7FT CR0 1/4"
78 .74 24 .00
3014021013
SHROUD 362INTAKE/460MOTOR TRP 82FT CR0 1/4"
82 .03 25 .00
3014021008
SHROUD 362INTAKE/460MOTOR TRP 85.3FT CR0 1/4"
85 .31 26 .00
3014021003
SHROUD 362INTAKE/460MOTOR TRP 88.6FT CR0 1/4"
88 .59 27 .00
3014020998
SHROUD 406INTAKE/460MOTOR TRP 59.7FT CR0 1/4"
59 .71 18 .20
3014020581
SHROUD 406INTAKE/460MOTOR TRP 62.3FT CR0 1/4"
62 .34 19 .00
3014020585
SHROUD 406INTAKE/460MOTOR TRP 65.6FT CR0 1/4"
64 .96 19 .80
3014020590
SHROUD 406INTAKE/460MOTOR TRP 68.9FT CR0 1/4"
68 .90 21 .00
3014020594
72 .18 22 .00
3014020598
SHROUD 406INTAKE/460MOTOR TRP 72.2FT CR0 1/4" SHROUD 406INTAKE/460MOTOR TRP 75.5FT CR0 1/4"
406
460
TBA
TBA
TBA
TBA
75 .46 23 .00
3014020603
SHROUD 406INTAKE/460MOTOR TRP 78.7FT CR0 1/4"
78 .74 24 .00
3014020608
SHROUD 406INTAKE/460MOTOR TRP 82FT CR0 1/4"
82 .03 25 .00
3014020613
SHROUD 406INTAKE/460MOTOR TRP 85.3FT CR0 1/4"
85 .31 26 .00
3014020618
SHROUD 406INTAKE/460MOTOR TRP 88.6FT CR0 1/4"
88 .59 27 .00
3014020623
SHROUD 449INTAKE/512MOTOR TRP 59.7FT CR0 1/4"
59 .71 18 .20
3014050122
SHROUD 449INTAKE/512MOTOR TRP 62.3FT CR0 1/4"
62 .34 19 .00
3014050126
SHROUD 449INTAKE/512MOTOR TRP 65.6FT CR0 1/4"
64 .96 19 .80
3014050131
SHROUD 449INTAKE/512MOTOR TRP 68.9FT CR0 1/4"
68 .90 21 .00
3014050136
SHROUD 449INTAKE/512MOTOR TRP 72.2FT CR0 1/4" SHROUD 449INTAKE/512MOTOR TRP 75.5FT CR0 1/4"
449
512
6 .28
159 .4
5 .91
150
72 .18 22 .00
3014050141
75 .46 23 .00
3014050146
SHROUD 449INTAKE/512MOTOR TRP 78.7FT CR0 1/4"
78 .74 24 .00
3014050151
SHROUD 449INTAKE/512MOTOR TRP 82FT CR0 1/4"
82 .03 25 .00
3014050156
SHROUD 449INTAKE/512MOTOR TRP 85.3FT CR0 1/4"
85 .31 26 .00
3014050161
SHROUD 449INTAKE/512MOTOR TRP 88.6FT CR0 1/4"
88 .59 27 .00
3014050166
SHROUD 535INTAKE/562MOTOR TRP 59.7FT CR0 1/4"
59 .71 18 .20
3014060065 3014060069
SHROUD 535INTAKE/562MOTOR TRP 62.3FT CR0 1/4"
62 .34 19 .00
SHROUD 535INTAKE/562MOTOR TRP 65.6FT CR0 1/4"
64 .96 19 .80
3014060017
SHROUD 535INTAKE/562MOTOR TRP 68.9FT CR0 1/4"
68 .90 21 .00
3014060078
SHROUD 535INTAKE/562MOTOR TRP 72.2FT CR0 1/4" SHROUD 535INTAKE/562MOTOR TRP 75.5FT CR0 1/4"
535
562
TBA
TBA
TBA
TBA
72 .18 22 .00
3014060064
75 .46 23 .00
3014060086
SHROUD 535INTAKE/562MOTOR TRP 78.7FT CR0 1/4"
78 .74 24 .00
3014060091
SHROUD 535INTAKE/562MOTOR TRP 82FT CR0 1/4"
82 .03 25 .00
3014060096
SHROUD 535INTAKE/562MOTOR TRP 85.3FT CR0 1/4"
85 .31 26 .00
3014060101
SHROUD 535INTAKE/562MOTOR TRP 88.6FT CR0 1/4"
88 .59 27 .00
3014060106
2018 Page 564
> Miscellaneous Equipment > Pump/Motor Clamp
GLOSSARY PUMP/MOTOR CLAMP PUMP/MOTOR CLAMP
XXX..XXX SERIES
XTON Pump/Motor Clamp Range of Pump/Motor series Load capacity, ton
e.g., PUMP/MOTOR CLAMP 338..449SERIES 5TON
PUMP/MOTOR CLAMP specification Description
Enclosed diameters
Load capacity
Application
Part Number
3000
Pump, Gas separator and Protector of 272 series, Motor of 319 series
2059010164
3000
Pump, Gas separator and Protector of 272 and 319 series, Motor of 319 series
3020010011
Pump, Gas separator, Protector and Motor of 319 series
3020010019
Pump and Gas separator of 338, 362, 406 and 449 series. Protector of 338, 362 and 406 series. Motor of 378 and 406 series.
3020010007
Pump and Protector of 362, 406 and 449 series. Motor of 378, 406 and 460 series.
3020010015
3000
Shroud for Motor of 406 series.
3020010006
11025
5000
Pump and Gas separator of 449, 484 and 512 series. Protector of 449 and 484 series. Motor of 512 series.
3020020002
140
6615
3000
Shroud for Motor of 460 series.
3020010003
5.35 - 5.62
136 - 143
11025
5000
Pump of 535 series. Protector of 535 series. Motor of 562 series.
3020010009
5.35 - 5.62
136 - 143
33075 15000
Pump and Gas Separator of 535 series. Protector of 535 series. Motor of 562 series.
3020010018
6.02
153
Shroud for Motor of 512 series.
3020010012
in
mm
lb
kg
PUMP/MOTOR CLAMP 276 SERIES 3TON
2.72 - 3.19
69 - 81
6615
PUMP/MOTOR CLAMP 272..319SERIES 3TON
2.72 - 3.19
69 - 81
6615
PUMP/MOTOR CLAMP 319SERIES 15TON
3.19 - 3.70
81 - 94
33075 15000
PUMP/MOTOR CLAMP 338..449SERIES 5TON
3.38 - 4.49
86 - 114
11025
PUMP/MOTOR CLAMP 460SERIES 10TON*
3.62 - 4.60
92 - 117
22050 10000
4.06
103
6615
4.49 - 5.12
114 - 130
5.51
PUMP/MOTOR CLAMP 535..562SERIES 5TON
PUMP/MOTOR CLAMP 535..562SERIES 15TON
SHROUD ELEVATOR 406SERIES 3TON
PUMP/MOTOR CLAMP 449..512SERIES 5TON
SHROUD ELEVATOR 551SERIES 3TON
SHROUD ELEVATOR 600SERIES 3TON
6615
5000
3000
2018 Page 565
> Miscellaneous Equipment > Pump/Motor Clamp
Description
Enclosed diameters
Load capacity
Application
Part Number
7000
Pump of 677 series. Protector of 677 series.
3020020001
5000
Pump of 740 series. Motor of 744 series.
3020010001
33075 15000
Pump of 740 series. Motor of 744 series.
3020010017
Pump and Gas separator of 362 and 406. Protector of 362 and 406 series. Motor of 406 and 460 series.
3020010002
in
mm
lb
kg
PUMP/MOTOR CLAMP 677SERIES 7TON
6.77
172
15435
PUMP/MOTOR CLAMP 744SERIES 5TON
7.40 - 7.44
188 - 189
11025
PUMP/MOTOR CLAMP 744SERIES 15TON
7.44
189
3.62 - 4.60
92 - 117
EUTI546.000 PUMP/MOTOR CLAMP HEU-3
6615
3000
*PUMP/MOTOR CLAMP 460SERIES 10TON is used instead of EUTI546.000 PUMP/MOTOR CLAMP HEU-3 * Quantity of PUMP-MOTOR CLAMPS depends on type of equipment: 2 pcs for Pumps, 1 pcs for single motors and shrouds, 2 pcs for tandem motors and shrouds
2018 Page 566
> Miscellaneous Equipment > Cable Band
GLOSSARY CABLE BAND CABLE BAND
XX"
XXX Cable band Length, inches, (see Table 1) Corrosion resistance, (see Table 2)
e.g., CABLE BAND 12" CR0 Table 1
Length in
mm
8
210
12
300
14
350
16
400
18
450
20
500
24
600
33
850
Table 2 - Corrosion resistance
Fluid
Max chemical content, g/l CO2 Cl H2S
Abbr.
Full name
pH
Description
CR0
Corrosion Resistant 0
Slightly aggressive 0.01 fluid
0.01
20
5.0..8.5
Carbon Steel
CR3
Corrosion Resistant 3
Highly aggressive fluid
1.25
1.45
200
3.0..9.0
Stainless Steel
UCR
Ultra Corrosion Resistant
Extremely aggressive fluid
>1.25
1.45
200
3.0..9.0
Monel
2018 Page 567
> Miscellaneous Equipment > Cable Band
CABLE BAND specification Tubing OD
Description
in
ESP Component OD*
mm
in
mm
Length in
mm
Weight oz
kg
Part Number
CABLE BAND 8" CR0
11/2
48
2.72
69
8.3
210
2.12
0.06
2118010015
CABLE BAND 12" CR0
23/8; 27/8
60; 73
3.19
81
11.8
300
2.82
0.08
2118010006
CABLE BAND 14" CR0
31/2
89
3.19; 3.38
81; 86
13.8
350
3.17
0.09
2118010001
CABLE BAND 16" CR0
4
102
3.62; 4.06
92; 103
15.7
400
3.53
0.10
2118010002
CABLE BAND 18" CR0
41/2
114
4.49; 4.84
114; 123
17.7
450
3.88
0.11
2118010004
CABLE BAND 20" CR0
5; 5 /2
127; 140
5.35
136
19.7
500
4.59
0.13
2118010007
CABLE BAND 24" CR0
53/4
146
6.77
172
23.6
600
4.94
0.14
2118010003
1
CABLE BAND 8" CR3
11/2
48
2.72
69
8.3
210
2.12
0.06
2118010016
CABLE BAND 12" CR3
2 /8; 27/8
60; 73
3.19
81
11.8
300
2.82
0.08
2118010009
CABLE BAND 14" CR3
31/2
89
3.19; 3.38
81; 86
13.8
350
3.17
0.09
2118010010
CABLE BAND 16" CR3
4
102
3.62; 4.06
92; 103
15.7
400
3.53
0.10
2118010011
CABLE BAND 18" CR3
1
4 /2
114
4.49; 4.84
114; 123
17.7
450
3.88
0.11
2118010013
CABLE BAND 20" CR3
5; 51/2
127; 140
5.35
136
19.7
500
4.59
0.13
2118010014
CABLE BAND 24" CR3
53/4
146
6.77
172
23.6
600
4.94
0.14
2118010012
CABLE BAND 8" UCR
11/2
48
2.72
69
8.3
210
2.12
0.06
2118010023
CABLE BAND 12" UCR
23/8; 27/8
60; 73
3.19
81
11.8
300
2.82
0.08
2118010017
CABLE BAND 14" UCR
31/2
89
3.19; 3.38
81; 86
13.8
350
3.17
0.09
2118010018
CABLE BAND 16" UCR
4
102
3.62; 4.06
92; 103
15.7
400
3.53
0.10
2118010019
CABLE BAND 18" UCR
1
4 /2
114
4.49; 4.84
114; 123
17.7
450
3.88
0.11
2118010021
CABLE BAND 20" UCR
5; 51/2
127; 140
5.35
136
19.7
500
4.59
0.13
2118010022
CABLE BAND 24" UCR
53/4
146
6.77
172
23.6
600
4.94
0.14
2118010020
CABLE PROTECTOR 73B/2
11/2
48
2.72
69
8.3
210
2.12
0.06
3035010005
3
* - In case MLE Guard is not available, Cable bands shall be used. To make accurate design, please refer to the above table, column "ESP Component OD". To calculate the number of Cable bands (type is based on tubing OD) the here below order shall be followed: Divide Pump setting depth (in ft) by 13, then add extra 15%. E.g., for 449 series pump Cable band of 18" to be used.
2018 Page 568
> Miscellaneous Equipment > MLE Guard
GLOSSARY MLE GUARD MLE GUARD
XXXX
XXX
MODX MLE GUARD Type: Pump XXX series Protector XXX series Corrosion resistance, (see Table 1) Modification, (see Table 2)
e.g., MLE GUARD PUMP338SERIES CR3 MOD1 Table 1 - Corrosion resistance
Max chemical content, g/l CO2 Cl H2S
Abbr.
Full name
Fluid
CR3
Corrosion Resistant 3
Highly aggressive fluid
UCR
Ultra Corrosion Extremely aggres>1.25 Resistant sive fluid
1.25
pH
Description
1.45
200
3.0..9.0
Stainless Steel
1.45
200
3.0..9.0
Materials resistant to Sulfide Stress Cracking are used
2018 Page 569
> Miscellaneous Equipment > MLE Guard
MLE GUARD specification Protector Description MLE GUARD PROTECTOR272SERIES CR3
Protector series
Motor series
Part Number
272
319
3019040003
MLE GUARD PUMP/PROTECTOR319SERIES CR3
319
319
3019080003
MLE GUARD PROTECTOR362SERIES CR3
362
406
3019010002
MLE GUARD PROTECTOR362SERIES CR3 1/4"
362
406
3019010009
MLE GUARD PROTECTOR362SERIES CR3
362
406
3019010016
MLE GUARD PROTECTOR406SERIES CR3
406
460
3019020002
MLE GUARD PROTECTOR406SERIES CR3 1/4"
406
460
3019020011
MLE GUARD PROTECTOR406SERIES CR3
406
460
3019020017
MLE GUARD PROTECTOR449SERIES CR3
449
512
3019060003
MLE GUARD PROTECTOR535SERIES CR3, for MLE AWG#4
535
535
3019050006
MLE GUARD PROTECTOR677SERIES CR3
677
744
3019030002
The number of MLE Guards of 'Protector type' is equal to one.
Pump Description
Pump series
Part Number
272
3019040005
MLE GUARD PUMP319SERIES CR3
319
3019080003
MLE GUARD PUMP362SERIES CR3
362
3019010001
MLE GUARD PUMP362SERIES CR3 1/4"
362
3019010007
MLE GUARD PUMP362SERIES CR3
362
3019010015
MLE GUARD PUMP272SERIES CR3
MLE GUARD PUMP406SERIES CR3
406
3019020001
MLE GUARD PUMP406SERIES CR3 1/4"
406
3019020008
MLE GUARD PUMP406SERIES CR3
406
3019020016
MLE GUARD PUMP449SERIES CR3
449
3019060002
MLE GUARD PUMP535SERIES CR3, for MLE AWG#4
535
3019050005
MLE GUARD PUMP677SERIES CR3
677
3019030001
The number of MLE Guards of ‘Pump type’ is equal to the number of pump sections.
2018 Page 570
> Miscellaneous Equipment > Centralizer
GLOSSARY Centralizer CENTRALIZER
XXX"
XXX" -XX RD
XXX
XXX
MODX Centralizer Casing OD, inches Thread size, inches Pitch, threads per inch: 10 RD - round thread Thread type: EUE - External Upset Ends (for 8rd) NUE - Non Upset Ends (for 10rd) Corrosion resistance, (see Table 1) Modification, (see Table 2)
e.g., CENTRALIZER 7" 2-3/8"-10RD NUE CR3 MOD2
Table 1 - Corrosion resistance
Abbr.
Full name
Fluid
Max chemical content, g/l CO2 Cl H2S
pH
Description
CR0
Corrosion Re- Slightly aggressive 0.01 sistant 0 fluid
0.01
20
5.0..8.5
Carbon Steel
CR3
Corrosion Resistant 3
1.45
200
3.0..9.0
Stainless Steel
UCR
Ultra Corrosion Extremely aggres>1.25 Resistant sive fluid
1.45
200
3.0..9.0
Materials resistant to Sulfide Stress Cracking are used
Highly aggressive fluid
1.25
Table 2 - Modification
0
Standard design
1
Cylindrical springs and shoes
2
Supporting ribs
3
Hinged spring connection and movable supporting sleeve
2018 Page 571
> Miscellaneous Equipment > Centralizer
Centralizer specification Description
Part Number
CENTRALIZER 4" 2-3/8"-10RD NUE CR3 MOD0
3034010002
CENTRALIZER 4-1/2" 2-3/8"-10RD NUE CR3 MOD0
3034010003
CENTRALIZER 5-3/4" 2-7/8"-10RD NUE CR3 MOD1
3034010005
CENTRALIZER 6-5/8" 3-1/2"-10RD NUE CR3 MOD1
3034010008
CENTRALIZER 7" 2-3/8"-10RD NUE CR3 MOD2
3034010009
CENTRALIZER 7" 3-1/2"-10RD NUE CR3 MOD1
3034010006
CENTRALIZER (4''-4.5") 2-3/8"-10RD NUE CR3 MOD3
3034010011
2018 Page 572
> Miscellaneous Equipment > Flexible coupling
GLOSSARY Flexible coupling FLEXIBLE COUPLING
XXXSER
XXX''
- XXRD
XXX
XXX - XXRD
XXX
CRX
XX Flexible coupling series Thread size of upper part, inches Pitch, threads per inch Thread type of upper part Thread size of lower part, inches Pitch, threads per inch Thread type of lower part Corrosion resistance CR0 - Carbon steel CR3 - Stainless steel Heat resistance MT - ambient temperature is up to 250°F (120°C)
e.g., FLEXIBLE COUPLING 272SER 1.890"-10RD NUE BOX – 1.890"-10RD NUE PIN CR0 MT
2018 Page 573
> Miscellaneous Equipment > Flexible coupling
Flexible coupling specification Length
Weight
mm
lb
kg
Part Number
FLEXIBLE COUPLING 217SER 1.890"-10RD NUE BOX – 1.890"-10RD NUE PIN CR3 MT 1.02
0.31
8.16
3.70
2024011041
FLEXIBLE COUPLING 319SER 2-3/8"-10RD NUE BOX - 2-3/8"-10RD NUE PIN CR0 MT 1.02
0.31 17.49 7.93
TBA
FLEXIBLE COUPLING 362SER 2-7/8"-10RD NUE BOX - 2-7/8"-10RD NUE PIN CR0 MT TBA
TBA
TBA
FLEXIBLE COUPLING 406SER 2-7/8"-10RD NUE BOX - 2-7/8"-10RD NUE PIN CR0
1.32
0.40 31.97 14.50 2024011479
FLEXIBLE COUPLING 449SER 3-1/2"-10RD NUE BOX - 3-1/2"-10RD NUE PIN CR0
TBA
TBA
Description
ft
TBA TBA
TBA TBA
TBA
2018 Page 574
> Miscellaneous Equipment > Spline Coupling
GLOSSARY Spline Coupling X.XX'' XXX - X.XX'' XXX
XXX
XXX
Upper mating shaft diameter, inches, (see Table 1) STR - Straight-sided splines empty - involute splines Lower mating shaft diameter, inches, (see Table 1) STR - Straight-sided splines empty - involute splines Application: PMP - axial thrust bearing in a pump PRT - axial thrust bearing in a protector CMP1 - compression design, conventional CMP coupling CMP2 - compression design, "precise" CMP coupling empty - the rest applications Corrosion resistance, (see Table 2)
e.g., SPLINE COUPLING 0.87"-0.98" PRT CR3 Table 1 - Mating shaft diameters
in
mm
0.39
10
0.50
12.8
0.55
14
0.67
17
0.79
20
0.87
22
0.98
25
1.10
28
1.18
30
1.26
32
1.34
34
1.38
35
1.50
38
1.65
42
1.69
43
Table 1 - Corrosion resistance
Abbr.
Full name
Fluid
CR3
Corrosion Resistant 3
Highly aggressive fluid
UCR
Ultra Corrosion Resistant
Extremely aggressive fluid
Max chemical content, g/l CO2 Cl H2S 1.25
pH
Description
1.45
200
3.0..9.0
Stainless Steel
> 1.25 1.45
200
3.0..9.0
Materials resistant to Sulfide Stress Cracking are used
2018 Page 575
> Miscellaneous Equipment > Spline Coupling
Pump section - Pump section Series
Pump stage NAV(130-250)H
272
338
Designation of the coupling
Part Number
Floater
0.50
SPLINE COUPLING 0.50"-0.50" PRT CR3
2024010353
Semi-Compression
0.50
SPLINE COUPLING 0.50"-0.50" PRT CR3
2024010353
Semi-Compression
0.50
SPLINE COUPLING 0.50"-0.50" PRT CR3
2024010353
NAV(440-630)H
Semi-Compression
0.50
SPLINE COUPLING 0.50"-0.50" PRT CR3
2024010353
NA(630-1300)H
Сompression
0.50
SPLINE COUPLING 0.50"-0.50" CR3
2024010458
Floater
0.55
SPLINE COUPLING 0.55"-0.55" PRT CR3
2024010117
Semi-Compression
0.55
SPLINE COUPLING 0.55"-0.55" PRT CR3
2024010117
NB(630-1000)H
Сompression
0.55
SPLINE COUPLING 0.55"-0.55" CMP CR3
2024010416
NB(1100-1800)H
Сompression
0.67
SPLINE COUPLING 0.67"-0.67" CMP CR3
2024010897
NDV150
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
NDV230
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
ND470
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
ND600
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
NDV1500
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Floater
0.55
SPLINE COUPLING 0.55"-0.55" PRT CR3
2024010117
Semi-Compression
0.55
SPLINE COUPLING 0.55"-0.55" PRT CR3
2024010117
NFV150
Floater
0.55
SPLINE COUPLING 0.55"-0.55" PRT CR3
2024010117
NFV(130-250)H
Сompression
0.50
SPLINE COUPLING 0.50"-0.50" CR3
2024010458
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Semi-Compression
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Semi-Compression
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Semi-Compression
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
NFV110
NFV190
NFV230
NFV260
NFV330 362
Pump shaft diameter, inches
NAV(190-380)H
NBV(250-500)H 319
Pump assembly design
Semi-Compression
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
NFV380
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
NFV(310-630)H
Compression
0.55
SPLINE COUPLING 0.55"-0.55" PRT CR3
2024010117
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Semi-Compression
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
NFV600
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
NFV760
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
NFV450
NFV940 NF(900-1300)H NF(1300-2000)H NFV3800
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Semi-Compression
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Сompression
0.55
SPLINE COUPLING 0.55"-0.55" CMP CR3
2024010416
Сompression
0.79
SPLINE COUPLING 0.79"-0.79" CMP CR3
2024010333 2024010570
Floater
0.79
SPLINE COUPLING 0.79"-0.79" PRT CR3
2024010119
Semi-Compression
0.79
SPLINE COUPLING 0.79"-0.79" PRT CR3
2024010119
2018 Page 576
> Miscellaneous Equipment > Spline Coupling
Series
Pump stage NHV200
NHV250
NHV260
NHV380
NHV760 NHV(790-1000)Н NHV940
406
NHV1200
Pump shaft diameter, inches
Designation of the coupling
Part Number
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Semi-Compression
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Semi-Compression
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Semi-Compression
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Floater
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Semi-Compression
0.67
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
Floater
0.79
SPLINE COUPLING 0.79"-0.79" PRT CR3
2024010119
Semi-Compression
0.79
SPLINE COUPLING 0.79"-0.79" PRT CR3
2024010119
Сompression
0.55
SPLINE COUPLING 0.55"-0.55" CMP CR3
2024010416
Floater
0.79
SPLINE COUPLING 0.79"-0.79" PRT CR3
2024010119
Semi-Compression
0.79
SPLINE COUPLING 0.79"-0.79" PRT CR3
2024010119 2024010119
Floater
0.79
SPLINE COUPLING 0.79"-0.79" PRT CR3
Semi-Compression
0.79
SPLINE COUPLING 0.79"-0.79" PRT CR3
2024010119
NH(1000-1600)Н
Сompression
0.67
SPLINE COUPLING 0.67"-0.67" CMP CR3
2024010575 2024010579
NH(1600-2300)Н
Сompression
0.67
SPLINE COUPLING 0.67"-0.67" CMP CR3
2024010575 2024010579
NH(2500-3100)Н
Сompression
0.79
SPLINE COUPLING 0.79"-0.79" CMP CR3
2024010333 2024010570
NH(2500-3800)Н
Сompression
0.79
SPLINE COUPLING 0.79"-0.79" CMP CR3
2024010333 2024010570
NH3000
NHV3800
NH(4400-5000)H NHV5300
NJV6000 449
Pump assembly design
NJV7600 NJ9400 NLV1000
484 NLV1900
Floater
0.87
SPLINE COUPLING 0.87"-0.87" PRT CR3
2024010186
Semi-Compression
0.87
SPLINE COUPLING 0.87"-0.87" PRT CR3
2024010186
Floater
0.87
SPLINE COUPLING 0.87"-0.87" PRT CR3
2024010186
Semi-Compression
0.87
SPLINE COUPLING 0.87"-0.87" PRT CR3
2024010186
Сompression
0.87
SPLINE COUPLING 0.87"-0.87" CMP CR3
2024010340
Сompression
0.87
SPLINE COUPLING 0.87"-0.87" CMP CR3
2024010340 2024010569
Floater
0.98
SPLINE COUPLING 0.98"-0.98" PRT CR3
2024010243
Semi-Compression
0.98
SPLINE COUPLING 0.98"-0.98" PRT CR3
2024010243
Floater
0.98
SPLINE COUPLING 0.98"-0.98" PRT CR3
2024010243
Semi-Compression
0.98
SPLINE COUPLING 0.98"-0.98" PRT CR3
2024010243
Floater
0.98
SPLINE COUPLING 0.98"-0.98" PRT CR3
2024010243
Semi-Compression
0.98
SPLINE COUPLING 0.98"-0.98" PRT CR3
2024010243
Floater
1.18
SPLINE COUPLING 1.18"-1.18" PRT CR3
2024010417
Floater
0.98
SPLINE COUPLING 0.98"-0.98" PRT CR3
2024010243
Semi-Compression
0.98
SPLINE COUPLING 0.98"-0.98" PRT CR3
2024010243
Floater
0.98
SPLINE COUPLING 0.98"-0.98" PRT CR3
2024010243
Semi-Compression
0.98
SPLINE COUPLING 0.98"-0.98" PRT CR3
2024010243
2018 Page 577
> Miscellaneous Equipment > Spline Coupling
Series
535
677
740
Pump stage
Pump assembly design
Pump shaft diameter, inches
Designation of the coupling
Part Number
NP(1900-2500)H
Сompression
0.87
SPLINE COUPLING 0.87"-0.87" CMP CR3
2024010340 2024010569
NP(3100-4400)H
Сompression
0.87
SPLINE COUPLING 0.87"-0.87" CMP CR3
2024010340 2024010569
NP(4400-5700)Н
Сompression
1.18
SPLINE COUPLING 1.18"-1.18" CMP CR3
2024010543
NP(4700-6300)Н
Сompression
0.87
SPLINE COUPLING 0.87"-0.87" CMP CR3
2024010340
NP(7900-10100)Н
Сompression
0.98
SPLINE COUPLING 0.98"-0.98" CR3
2024010535
NP(11300-15100)Н
Сompression
1.18
SPLINE COUPLING 1.18"-1.18" CMP CR3
2024010543
NRV3800
Semi-Compression
1.18
SPLINE COUPLING 1.18"-1.18" PRT CR3
2024010417
NRV7600
Floater
1.50
SPLINE COUPLING 1.50"-1.50" CR3
2024010581
NR12000
Сompression
1.50
SPLINE COUPLING 1.50"-1.50" CR3
2024010581
NR(10000-11300)Н
Сompression
1.18
SPLINE COUPLING 1.18"-1.18" CMP CR3
2024010543
NRV15000
Сompression
1.65
SPLINE COUPLING 1.65"-1.65" CR3
2024010597
NR(12600-15700)Н
Сompression
1.38
SPLINE COUPLING 1.38"-1.38" CR3
2024010503
NRV19000
Сompression
1.65
SPLINE COUPLING 1.65"-1.65" CR3
2024010597
NR(15700-19000)Н
Сompression
1.38
SPLINE COUPLING 1.38"-1.38" CR3
2024010503
NRV22500
Сompression
1.65
SPLINE COUPLING 1.65"-1.65" CR3
2024010597
NR30000
Сompression
1.65
SPLINE COUPLING 1.65"-1.65" CR3
2024010597
NТ38000
Сompression
1.65
SPLINE COUPLING 1.65"-1.65" CR3
2024010597
2018 Page 578
> Miscellaneous Equipment > Spline Coupling
Pump section - Multiphase Pump Series
Pump assembly design
Pump shaft diameter, inches
Floater
0.50
SemiCompression
0.50
NAV(190-380)H
SemiCompression
0.50
NAV(440-630)H
SemiCompression
0.50
NA(630-1300)H
Сompression
0.50
Pump stage
NAV(130-250)H
272
Multiphase Pump
N272MPP940
Designation of the coupling
Part Number
SPLINE COUPLING 0.50"-0.50" PRT CR3
2024010353
SPLINE COUPLING 0.50"-0.50" CR3
2024010458
SPLINE COUPLING 0.55"-0.67" PRT CR3
2024010290
Floater
0.55
NBV(250-500)H
SemiCompression
0.55
NB(630-1000)H
Сompression
0.55
SPLINE COUPLING 0.55"-0.67" CMP CR3
2024010607
0.67
SPLINE COUPLING 0.67"-0.67" CMP CR3
2024010897
SPLINE COUPLING 0.55"-0.79" PRT CR3
2024010339
SPLINE COUPLING 0.50"-0.79" CMP CR3
TBA
SPLINE COUPLING 0.67"-0.79" PRT CR3
2024010306
SPLINE COUPLING 0.55"-0.79" PRT CR3
2024010339
SPLINE COUPLING 0.67"-0.79" PRT CR3
2024010306
319
NB(1100-1800)H Сompression Floater
0.55
NFV110
SemiCompression
0.55
NFV150
Floater
0.55
NFV(130-250)H
Сompression
0.50
Floater
0.67
SemiCompression
0.67
Floater
0.67
SemiCompression
0.67
Floater
0.67
SemiCompression
0.67
NFV190
NFV230
NFV260
Floater
0.67
NFV330
SemiCompression
0.67
NFV380
Floater
0.67
NFV(310-630)H
Compression
0.55
362
Floater
0.67
NFV450
SemiCompression
0.67
NFV600
Floater
0.67
NFV760
Floater
0.67
N319MPP940
N362MPP1500
Floater
0.67
NFV940
SemiCompression
0.67
NF(900-1300)H
Сompression
0.55
SPLINE COUPLING 0.55"-0.79" CMP CR3
2024010701
NF(1300-2000)H Сompression
0.79
SPLINE COUPLING 0.79"-0.79" CMP CR3
2024010333
SPLINE COUPLING 0.79"-0.79" PRT CR3
2024010119
NFV3800
Floater
0.79
SemiCompression
0.79
2018 Page 579
> Miscellaneous Equipment > Spline Coupling
Series
Pump assembly design
Pump shaft diameter, inches
Floater
0.67
SemiCompression
0.67
Floater
0.67
SemiCompression
0.67
Floater
0.67
SemiCompression
0.67
Floater
0.67
SemiCompression
0.67
Floater
0.79
SemiCompression
0.79
NHV(790-1000)Н Сompression
0.55
Pump stage
NHV200
NHV250
NHV260
NHV380
NHV760
406
Designation of the coupling
Part Number
SPLINE COUPLING 0.67"-0.87" PRT CR3
2024010269
SPLINE COUPLING 0.79"-0.87" PRT CR3
2024010270
SPLINE COUPLING 0.55"-0.87" CMP CR3
2024010379
SPLINE COUPLING 0.79"-0.87" PRT CR3
2024010270
Floater
0.79
SemiCompression
0.79
Floater
0.79
SemiCompression
0.79
NH(1000-1600)Н Сompression
0.67
SPLINE COUPLING 0.67"-0.87" CMP CR3
2024010525
NH(1600-2300)Н Сompression
0.67
SPLINE COUPLING 0.67"-0.87" CMP CR3
2024010525
NH(2500-3100)Н Сompression
0.79
NH(2500-3800)Н Сompression
0.79
SPLINE COUPLING 0.79"-0.87" CMP CR3
2024010526
SPLINE COUPLING 0.87"-0.87" PRT CR3
2024010186
NHV940
NHV1200
N406MPP940 N406MPP2400 N406MPP3800
Floater
0.87
SemiCompression
0.87
Floater
0.87
SemiCompression
0.87
Сompression
0.87
SPLINE COUPLING 0.87"-0.87" CMP CR3
2024010340
NH(4400-5000)H Сompression
0.87
SPLINE COUPLING 0.87"-0.87" CMP CR3
2024010340
NP(1900-2500)H Сompression
0.87
NP(3100-4400)H Сompression
0.87
SPLINE COUPLING 0.87"-1.18" CMP CR3
2024010541
NP(4400-5700)Н Сompression
1.18
SPLINE COUPLING 1.18"-1.18" CMP CR3
2024010543
NH3000
NHV3800
535
Multiphase Pump
N535MPP12000
NP(4700-6300)Н Сompression
0.87
SPLINE COUPLING 0.87"-1.18" CMP CR3
2024010541
NP(7900-10100)Н Сompression
0.98
SPLINE COUPLING 0.98"-1.18" CMP CR3
2024010759
NP(11300-15100)Н Сompression
1.18
SPLINE COUPLING 1.18"-1.18" CMP CR3
2024010543
2018 Page 580
> Miscellaneous Equipment > Spline Coupling
Pump section (MPP) - Intake device Series
Pump stage
Pump assembly design
Pump shaft diameter, inches
272
NAV(130-250)H NAV(190-380)H NAV(440-630)H
Floater Semi-Compression
0.50
NA(630-1300)H N272MPP940
Сompression
NBV(250-500)H
NB(630-1000)H
Floater Semi-Compression
338
NDV150 NDV230 ND470 ND600 NDV1500
NFV(130-250)H
NFV110 NFV150 NFV(310-630)H
Floater
Сompression
NF(900-1300)H
NFV190 NFV230 NFV260 NFV330 NFV380 NFV450 NFV600 NFV760 NFV940
2024010458
SPLINE COUPLING 0.55"-0.55" PRT CR3
2024010117
N319I 0.67"
SPLINE COUPLING 0.55"-0.67" CMP CR3
2024010607
0.67
N319I 0.67"
SPLINE COUPLING 0.67"-0.67" CMP CR3
2024010897
0.67
N338I 0.67" N338GS1900"
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
N362GH1900 0.67" N362I 0.67"
SPLINE COUPLING 0.50"-0.67" CMP CR3
2024010770
N362GS1500 0.79" N362GH1900 0.79" N362I 0.79" N362AGH1500 0.79"
SPLINE COUPLING 0.50"-0.79" CMP CR3
TBA
N362GH1900 0.67" N362I 0.67"
SPLINE COUPLING 0.55"-0.55" PRT CR3
2024010117
N362GS1500 0.79" N362GH1900 0.79" N362I 0.79" N362AGH1500 0.79"
SPLINE COUPLING 0.55"-0.79" PRT CR3
2024010339
N362GH1900 0.67" N362I 0.67"
SPLINE COUPLING 0.55"-0.67" CMP CR3
2024010607
N362GS1500 0.79" N362GH1900 0.79" N362I 0.79" N362AGH1500 0.79"
SPLINE COUPLING 0.55"-0.79" CMP CR3
2024010701
N362GH1900 0.67" N362I 0.67"
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
N362GS1500 0.79" N362GH1900 0.79" N362I 0.79" N362AGH1500 0.79"
SPLINE COUPLING 0.67"-0.79" PRT CR3
2024010306
SPLINE COUPLING 0.79"-0.79" CMP CR3
2024010333
SPLINE COUPLING 0.79"-0.79" PRT CR3
2024010119
Сompression
Floater Semi-Compression
SPLINE COUPLING 0.50"-0.50" CR3
2024010416
0.67
NF(1300-2000)H Сompression N362MPP1500 NFV3800
2024010353
SPLINE COUPLING 0.55"-0.55" CMP CR3
Floater Compression
Floater Semi-Compression
SPLINE COUPLING 0.50"-0.50" PRT CR3
2024010290
0.55
362
Part Number
SPLINE COUPLING 0.55"-0.67" PRT CR3
0.50
0.79
N319I 0.67"
Designation of the coupling
N319GH300 0.55" N319I 0.55"
Сompression
NB(1100-1800)H Сompression N319MPP940
N272I 0.50" N272AGH600 0.50" N319GH300 0.55" N319I 0.55"
0.55 319
Intake device
N362GS1500 0.79" N362GH1900 0.79" N362I 0.79" N362AGH1500 0.79"
2018 Page 581
> Miscellaneous Equipment > Spline Coupling
Series
Pump stage
Pump assembly design
NHV(790-1000)Н Сompression
NHV200 NHV250 NHV260 NHV380
Pump shaft diameter, inches
0.55
Floater Semi-Compression
0.67
406
NH(1000-1600)Н Сompression NH(1600-2300)Н
NHV760 NHV940 NHV1200
Floater Semi-Compression
NH3000 NHV3800
Floater Semi-Compression
NHV3800 NH(4400-5000)H N406MPP940 Сompression N406MPP2400 N406MPP3800
449
535
0.79
0.87
Intake device
Designation of the coupling
Part Number
N406GH1900 0.67"
SPLINE COUPLING 0.55"-0.67" CMP CR3
2024010607
N406GS2600 0.79" N406GH1900 0.79" N406I 0.79"
SPLINE COUPLING 0.55"-0.79" CMP CR3
2024010701
N406GS2600 0.87" N406GS3800 0.87" N406GH5300 0.87" N406I 0.87" N406AGH1700 0.87"
SPLINE COUPLING 0.55"-0.87" CMP CR3
2024010379
N406GH1900 0.67"
SPLINE COUPLING 0.67"-0.67" PRT CR3
2024010242
N406GS2600 0.79" N406GH1900 0.79" N406I 0.79"
SPLINE COUPLING 0.67"-0.79" PRT CR3
2024010306
N406GS2600 0.87" N406GS3800 0.87" N406GH5300 0.87" N406I 0.87" N406AGH1700 0.87"
SPLINE COUPLING 0.67"-0.87" PRT CR3
2024010269
N406GH1900 0.67"
SPLINE COUPLING 0.67"-0.67" CMP CR3
2024010575
N406GS2600 0.79" N406GH1900 0.79" N406I 0.79"
SPLINE COUPLING 0.67"-0.79" CMP CR3
2024010524
N406GS2600 0.87" N406GS3800 0.87" N406GH5300 0.87" N406I 0.87" N406AGH1700 0.87"
SPLINE COUPLING 0.67"-0.87" CMP CR3
2024010525
N406GS2600 0.79" N406GH1900 0.79" N406I 0.79"
SPLINE COUPLING 0.79"-0.79" PRT CR3
2024010119
N406GS2600 0.87" N406GS3800 0.87" N406GH5300 0.87" N406I 0.87" N406AGH1700 0.87"
SPLINE COUPLING 0.79"-0.87" PRT CR3
2024010270
SPLINE COUPLING 0.87"-0.87" PRT CR3
2024010186
SPLINE COUPLING 0.87"-0.87" CMP CR3
2024010340
N406GS2600 0.87" N406GS3800 0.87" N406GH5300 0.87" N406I 0.87" N406AGH1700 0.87"
NHV5300
Floater Semi-Compression
0.98
N406I 0.98"
SPLINE COUPLING 0.98"-0.98" PRT CR3
2024010243
NJV6000 NJV7600
Floater Semi-Compression
0.98
N449I 0.98"
SPLINE COUPLING 0.98"-0.98" PRT CR3
2024010243
NJ9400
Floater
1.18
N449I 1.18"
SPLINE COUPLING 1.18"-1.18" PRT CR3
2024010395
SPLINE COUPLING 0.87"-1.18" CMP CR3
2024010541
SPLINE COUPLING 0.98"-1.18" CMP CR3
2024010759
SPLINE COUPLING 1.18"-1.18" CMP CR3
2024010543
NP(1900-2500)H NP(3100-4400)H NP(4700-6300)Н
0.87
NP(7900-10100)Н Сompression
0.98
NP(4400-5700)Н NP(11300-15100)Н N535MPP12000
1.18
N535I 1.18" N535GS7600 1.18"
2018 Page 582
> Miscellaneous Equipment > Spline Coupling
Intake device - Protector Intake device shaft OD, inches
Protector
Intake device
N272MP
N272GS760 0.50" N272AGH600 0.50"
N272I 0.50" 0.50
Designation of the coupling
Part Number
SPLINE COUPLING 0.50"-0.55" CR3
2024010352
SPLINE COUPLING 0.50"-0.55" CR3
2024010563
N319I 0.55" N319GH300 0.55"
0.55
SPLINE COUPLING 0.55"-0.79" CR3
2024010118
N319I 0.67" N319GH300 0.67" N319AGH760 0.67"
0.67
SPLINE COUPLING 0.67"-0.79" CR3
2024010326
N338MP
N338I 0.67" N338GS1900 0.67"
0.67
SPLINE COUPLING 0.67"-0.98" CR3
2024010445
N362MP
N362GS1500 0.79" N362I 0.79" N362AGH1500 0.79" N362GH1900 0.79"
0.79
SPLINE COUPLING 0.79"-0.98" CR3
2024010304
N406GS2600 0.87" N406GS3800 0.87" N406GH5300 0.87" N406I 0.87" N406AGH1700 0.87"
0.87
SPLINE COUPLING 0.87"-0.98" CR3
2024010344
N406GH5300 0.98" N406I 0.98"
0.98
SPLINE COUPLING 0.98"-0.98" CR3
2024010317
N449I 0.98"
0.98
SPLINE COUPLING 1.18"-1.38" CR3
2024010364
N449I 1.18"
1.18
SPLINE COUPLING 1.18"-1.38" CR3
2024010364
N535I 1.18" N535GS7600 1.18"
1.18
SPLINE COUPLING 1.18"-1.50" CR3
2024010367
N319MP
N406MP
N449MP N535MP
Protector - Motor Protector
Protector shaft OD, inches
N272MP
0.55
OFFSET MODULE N272OM
0.79
Motor series 319
Designation of the coupling
Part Number
SPLINE COUPLING 0.55"-0.79" CR3
2024010504
SPLINE COUPLING 0.79"-0.79" CR3
2024010377
N319MP
0.79
319
SPLINE COUPLING 0.79"-0.79" CR3
2024010139
N338MP
0.98
378
SPLINE COUPLING 0.98"-0.98" CR3
2024010338
378
SPLINE COUPLING 0.98"-0.98" CR3
2024010338
N362MP
0.98
406
SPLINE COUPLING 0.98"-0.98" CR3
2024010338
N406MP
0.98
460
SPLINE COUPLING 0.98"-1.18" CR3
2024010305
406
SPLINE COUPLING 0.98"-0.98" CR3
2024010338
460
SPLINE COUPLING 0.98"-1.18" CR3
2024010305
512
SPLINE COUPLING 0.98"-1.50" CR3
2024010309
512
SPLINE COUPLING 1.38"-1.50" CR3
2024010313
562
SPLINE COUPLING 1.38"-1.50" CR3
2024010313
1.50
562
SPLINE COUPLING 1.50"STR-1.50"STR CR3
2024010114
1.65
744
SPLINE COUPLING 1.65"-1.50" CR3
2024010455
N449MP
1.38
N535MP N677MP
2018 Page 583
Tools and consumables
> Tools and Consumables > Installation Tools
INSTALLATION TOOLS
Part Number
Description
3098040018
TOOLBOX 26"
2139010012
7201-8993_WRENCH
7004110021 TBA
TORQUE WRENCH TORCOFIX-SE 4100-01 ADAPER WORK TOOL SOCKET FOR MLE POTHHEAD BOLT TORQUE ( 7003 - 7531 )
7004330024
RECTANGULAR OPEN END FITTING 7112-14 14MM
7004330014
RECTANGULAR OPEN END FITTING 7112-17 17MM
7004110033
DOUBLE-ENDED OPEN SPANNER 24X27MM
Designation
Q-ty Units
Box for installation tools kit storage
2
pcs
Tool for plug screwing into motor and protector
2
pcs
Tool for tightening torque measuring. Can be used with socket heads (see below)
1
pcs
2
pcs
1
pcs
1
pcs
Tool for nut screwing/unscrewing per appropriate size (here 24x27 mm - 0.95"x1.06")
1
pcs
1
pcs
Head is intended to provide required tightening torque when joining motor with protector, protector with intake device and used in combine with torque wrench (see above)
7004110050
COMBINATION WRENCH 10X10MM
Double-sided (ring spanner and pin-face wrench) tool for bolt and nut tightening per appropriate size (here 10x10 mm - 0.39"x0.39")
7004110052
COMBINATION WRENCH 12X12MM
Double-sided (ring spanner and pin-face wrench) tool for bolt and nut tightening per appropriate size (here 12x12 mm - 0.47"x0.47")
1
pcs
7004110053
COMBINATION WRENCH 13X13MM
Double-sided (ring spanner and pin-face wrench) tool for bolt and nut tightening per appropriate size (here 12x12 mm - 0.51"x0.51")
1
pcs
7004110054
COMBINATION WRENCH 14X14MM
Double-sided (ring spanner and pin-face wrench) tool for bolt and nut tightening per appropriate size (here 12x12 mm - 0.55"x0.55")
2
pcs
7004110057
COMBINATION WRENCH 17X17MM
Double-sided (ring spanner and pin-face wrench) tool for bolt and nut tightening per appropriate size (here 12x12 mm - 0.67"x0.67")
2
pcs
7004110058
COMBINATION WRENCH 19X19MM
Double-sided (ring spanner and pin-face wrench) tool for bolt and nut tightening per appropriate size (here 12x12 mm - 0.75"x0.75")
2
pcs
7004110067 TBA
COMBINATION WRENCH 8X8MM
1
pcs
ADJUSTABLE WRENCH 6 "
2
pcs
TBA
PIPE WRENCH 20 "
1
pcs
TBA
PIPE WRENCH RIDGID 24 "
1
pcs
TBA
CHAIN WRENCH
2
pcs
Double-sided (ring spanner and pin-face wrench) tool for bolt and nut tightening per appropriate size (here 10x10 mm - 0.31"x0.31")
TBA
STRAP WRENCH
1
pcs
TBA
MLE CABLE GUARD WRENCH
2
pcs
TBA
ADAPTER WORK TOOL SOCKET FOR MLE POTHEAD AND PLUGS TORQUE
2
pcs
7004320005 7004110196 TBA
STUD DRIVER ATF-5116-BLS Square spanner DROP BAR
7001180005
HEX WRENCH SET (S1.5-S10)
7004110193
HEX WRENCH 7/16"
7001090024
SCREWDRIVER PH #2-100MM
7001090006
SCREWDRIVER PH #4-200MM
7001090047
SCREWDRIVER PH #3-150MM
7001090011
FLATHEAD SCREWDRIVER 3.2X100MM
7001090025
FLATHEAD SCREWDRIVER SL6X150MM
7001090016
FLATHEAD SCREWDRIVER SL8X150MM
7001150001 TBA
AWL 200MM METAL SHEARS
Device is intended as a driver for square spanner
1
pcs
Universal tool for unscrewing the studs of different sizes. It is used in combine with stud driver
1
pcs
For break, drain valve choke during pull out operation.
2
pcs
Tool set is intended to screw/unscrew bolts with hexahedron head seat
1
pcs
Tool for drain choke tightening with 7/16" spline dimension
1
pcs
1
pcs
1
pcs
1
pcs
Tool for screwing/unscrewing bolts with cross-sliding head per different sizes
Tool for screwing/unscrewing bolts with splined head per different sizes
Tool for O-rings removing
1
pcs
1
pcs
1
pcs
1
pcs
2
pcs
2018 Page 585
> Tools and Consumables > Installation Tools
Part Number
Description
7001060003
SIDE CUTTER 180MM
7003240127
KNIFE
7001080002
METAL CUTTING SNIP 320MM
TBA
CHANNEL LOCK 10 "
TBA
VISE GRIP 10 "
Designation
Q-ty Units
Tool for wires cut-off, tightening
1
pcs
Tool for any additional works (if necessary)
1
pcs
1
pcs
Tool for metal cutting
1
pcs
1
pcs
1
pcs
7001060009
ROUND PLIERS 280 MM
This tool is intended for socket change (if necessary) and for installation of joint couplings.
7001060014
TONGS 200 MM
Cramp tool with plane grips for additional works (if necessary), is intended to hold details
1
pcs
7003150012
FLAT BROACH FILE
Tool for metal abrading
2
pcs
7003150016
RHOMBIC BROACH FILE
Tool for metal abrading
2
pcs
7003150081
FLAT FILE 250 #2
Tool for metal abrading
1
pcs
7001140003
FILE HOLDER
7001070004
HAMMER 0.500KG
7001030004
CHISEL 200 MM
2212010004
7201-0630.20_TAP WRENCH
Holder for file
1
pcs
Tool for any additional works (if necessary), to hit, hammer in
1
pcs
Tool for metal cutting
1
pcs
Key for shaft rotating with appropriate heads (see below) per different shaft sizes
1
pcs
7004060074
7201-0630.10-07_HEAD
1
pcs
7004060075
7201-0630.10-08_HEAD
1
pcs
7004060076
7201-0630.10-09_HEAD
1
pcs
7004060077
7201-0630.10-10_HEAD
1
pcs
1
pcs
7004060078
7201-0630.10-11_HEAD
Heads are intended with the tap wrench (see above) as an additional detail to suit per different shaft sizes
7004060079
7201-0630.10-12_HEAD
1
pcs
7004060080
7201-0630.10-13_HEAD
1
pcs
7004060081
7201-0630.10-14_HEAD
1
pcs
TBA
MANUAL CABLE BAND CUTTING TOOL
TBA
PNEUMATIC BANDING TOOL FROMM CGXA #576059 PN A-480347 700RPM FOR 3/4" BANDING)
TBA
CABLE BAND ROLL HOLDER
TBA
AIR HOSE 5/16" 20BAR
TBA
Compressed air impact screwdriver
TBA
AIR PURIFIER/CASE FOR AIR HOSE
TBA
QUICK CONNECTOR FITTING FOR AIR HOSE
TBA
FLEXIBLE EARTHING CABLE, 30 M for SPOOLER
1
pcs
Tool for tightening of cable bands between tubing and power cable
2
pcs
Cable band roll holder
2
pcs
Air hose for pneumatic banding tool
2
pcs
2
pcs
Tool for installation MLE guard Case for hose accommodation Conductor for Spooler grounding
1
2139060001
7003-6713.00 PRESSURE TEST TOOL
1
pcs
1115030032
BRONZE FULL BORE BALL VALVE DU15 PU16
1
pcs
1110040097
MANOMETER 63MM TIP-TM-310R
2
pcs pcs
2059010023
CLAMP "NORMA" 12-22MM
Device for pressure testing of protector and motor. All four units should be used together.
2
pcs
1
pcs
1110210013
OIL FILLING PUMP MTS-2000
Device for pumping motor oil into protector and motor, for pressure testing of protector and motor
2139060002
7201-8913_ADAPTER
Adapter for protector pressure testing. Is installed between priming pump (see above) and hosepipe going to protector.
1
pcs
7004140006
TAP HOLDER 8-25MM
Universal holder for appropriate taps (see below)
1
pcs
2018 Page 586
> Tools and Consumables > Splicing Tools and Consumables
Part Number
Description
7003130154
TAP M10_GOST 3266-81 (2PCS)
7003130225
TAP M10X1_GOST 3266-81 (2PCS)
7003130155
TAP M12_GOST 3266-81 (2PCS)
7003130205
TAP M12X1.25_GOST 3266-81 (2PCS)
TBA
Designation
Cutting tool for cutting and cleaning-up the threads in the holes. Is used with tap holder (see above)
Q-ty Units 1
set
1
set
1
set
1
set
DRILL PITS SET 1.5 -10 MM 15 PEC
1
pcs
7001130001
METAL HACKSAW FRAME
1
pcs
7003210002
HACKSAW BLADE 12" X 0.5"
2
pcs
Instrument for metal cutting Tool for liquid extraction from bolt dimples
1130020009
RUBBER SQUIRT #1 HARD TIP
1
pcs
7002240004
TRAMMEL SHTS-250
1
pcs
TBA
MEASURE TAPE 10 M
1
pcs
TBA
WIRE BRUSH
TBA
TUBING CUTTER 1/8 - 1 1/8"
Tool for measuring of linear dimensions up to 250mm (9.84")
2
pcs
1
pcs
Table 2- Electrical Tools
Part Number TBA 1110150050
Description DOWNHOLE SENSOR SIGNAL SIMULATOR PHASE INDICATOR ST-860
1110030024
HV INDICATOR KVM_TU4221-003-5642
7001060107
CLAMP-ON AMMETER APPA A11R
TBA
Solder wire 3 mm
1110120181
MEGAOHMMETER DIGITAL E6-24
1130010004
DIELECTRIC LATEX SEEMLESS GLOVES TU38.3065-63-97
1110030025
FLASHLIGHT FAG-R
1110040089
CHARGER AZU-6/7.2 FOR FOS.FAG
3099010491
MK101M.00.00.0.01_ECHOMETER GEOSTAR-111.E SOUND GENERATOR GIG-102
Q-ty Units
Device for checking of data channels and Surface Panel
1
pcs
Indicator for phase sequence measuring on the motor
1
pcs
Indicator for phase sequence measuring, gauging of output voltage from the Step-up transformer, up to 3000V
1
pcs
Tool for electrical parameters measuring
1
pcs
SOLDERING IRON 100W
1075020002
1110040099
Designation
1
Device for insulation resistance measuring
1
pcs
Gloves for people safety while operation with electrical equipment
1
pcs
Device for emergency and additional lighting and it's charger
1
pcs
1
pcs
1
pcs
Device for measuring of reservoir fluid level and annulus pressure
1
pcs
TBA
DRILL PITS MACHINE BOSCH GSR 1800L1
Device is used in combine with echometer (see above)
1
pcs
TBA
CABLE EXTENSION
2
pcs
TBA
BATTERY CHARGER SIZE AA, AAA, 9V
1
pcs
TBA
NSPR STANDALONE PANEL, COMPLETED BY POWER AND DOWNHOLE TEST CABLE WITH CROCODILE CLIPS
For reading data during RIH
1
2018 Page 587
> Tools and Consumables > Splicing Tools and Consumables
Table 3 - Supporting tools & equipment
Part Number
Description
Designation
SOFT SLING
Q-ty Units
TBA
TEXTILE HOISTING SLING
TBA
CABLE SPOOLER 15 TON, COMPLETE WITH PROPER SPACERS
1
pcs
TBA
CABLE REEL LIFTING BEAM 15 TON
1
pcs
Pump, Gas separator and Protector of 272 series.
2
pcs
3020010011
PUMP/MOTOR CLAMP 276SERIES 3TON
3020010008
PUMP/MOTOR CLAMP 319SERIES 3TON
3020010007
PUMP/MOTOR CLAMP 338..449SERIES 5TON
3020010006
PUMP/MOTOR CLAMP 484SERIES 3TON
1
Pump, Gas separator, Protector and Motor of 319 series.
2
pcs
Pump and Gas separator of 338, 362, 406 and 449 series. Protector of 338, 362 and 406 series. Motor of 378 and 406 series.
2
pcs
Shroud for Motor of 406 series.
2
pcs
2
pcs
3020020002
PUMP/MOTOR CLAMP 449..512SERIES 5TON
Pump and Gas separator of 449, 484 and 512 series. Protector of 449 and 484 series. Motor of 378 and 406 series.
3020010009
PUMP/MOTOR CLAMP 535..562SERIES 5TON
Pump of 535 series. Protector of 535 series. Motor of 562 series.
2
pcs
3020010003
PUMP/MOTOR CLAMP 551SERIES 3TON
Shroud for Motor of 460 series.
2
pcs
3020020001
PUMP/MOTOR CLAMP 677SERIES 7TON
Pump of 677 series. Protector of 677 series.
2
pcs
3020010001
PUMP/MOTOR CLAMP 744SERIES 5TON
Pump of 740 series. Motor of 744 series.
2
pcs
3020010002
EUTI546.000 PUMP/MOTOR CLAMP HEU-3
Universal pump/motor clamp is intended to hold and lift sections of ESP system above the well head while installation operations
2
pcs
TBA
CHAIN L3 M, LEG 1, 8 TON
2
pcs
TBA
INSTALLATION TABLE
1
pcs
TBA
CABLE SHEAVE CROSS-ARM
1
pcs
TBA
CHAIN HOISTING SLING 2STs,
1
pcs
2-1, pr3-16,0
Table 4 - Additional Instrument for Installation of Compression Design Pump
Part Number
Description
Designation
Q-ty Units
TBA
299.044.0000_SHAFT ADJUSTMENT TOOL
272 pump series
1
pcs
TBA
299.044.0000-01_SHAFT ADJUSTMENT TOOL
319 pump series
1
pcs
TBA
299.044.0000-02_SHAFT ADJUSTMENT TOOL
338 pump series
1
pcs
TBA
299.044.0000-05_SHAFT ADJUSTMENT TOOL
362 pump series
1
pcs
TBA
299.044.0000-07_SHAFT ADJUSTMENT TOOL
406 pump series
1
pcs
TBA
299.044.0000-08_SHAFT ADJUSTMENT TOOL
449 pump series
1
pcs
TBA
299.044.0000-09_SHAFT ADJUSTMENT TOOL
512/535 pump series
1
pcs
7004210157 7002220011 7002240004
K.8099-0012_SHAFT ADJUSTMENT TOOL DEPTH GAUGE SHGTS-150 HOLEX (418740) TRAMMEL SHTS-250
Tool for shaft overhang measuring
1
pcs
Tool for measuring of depth dimensions up to 150mm (5.9")
1
pcs
Tool for measuring of linear dimensions up to 250mm (9.84")
1
pcs
TBA
Tool for shaft extension adjustment К.80990012
1
pcs
TBA
Installation cap 7003-7653
1
pcs
2018 Page 588
> Tools and Consumables > Splicing Tools and Consumables
Table 5 – Additional Instrument for installation of Tandem Motor
Part Number 7004210098
Description 7003-7497_ASSEMBLY TOOL FOR MOTOR
Designation Tool for tandem motors assembly (2 Jacks + plate + handle)
Q-ty Units 1
pcs
Table 6 – Splicing Tools
Part Number 7001060026 TBA
Description
Designation
Q-ty Units
CRIMPER KO5D, 6-50 MM KLAUKE
1
pcs
Crimper # X , P , J
1
pcs
2139070003
GAUGE K.8388-0016
1
pcs
2139070004
GAUGE K.8166-0002
1
pcs
2139070002
GAUGE K.8388-0010
1
pcs
1
pcs
7001070004
HAMMER, 0.500 KG
Tool for any additional works (if necessary), to hit, hammer in
2139060004
WORK TOOL 7003-6481
1
pcs
7002070004
RULER 500 MM
1
pcs
7001050008
STAMP KIT (FIGURES) #6
1
pcs
7001050003
STAMP KIT (LETTERS) #6
1
pcs
SCRAPER 7003-6609
1
pcs
2139190002
2139110001
KNIFE_7003-6747
1
pcs
2139060047
STRIPPING TOOL 7003-6778
1
pcs
1
pcs
1
pcs
1
pcs
1
pcs
3098040018
TOOL BOX_607137
7001080002
METAL CUTTERS
7003240127
KNIFE
Tools for metal cutting
Cramp tool with plane grips for additional works (if necessary), is intended to hold details
7001060013
TONGS 180 MM
7001080008
WIRE CUTTERS (UP TO DIA 18 MM)
1
pcs
7001080007
SNIPS NKT-30 (NK-240) KVT
1
pcs
7001040013
ELECTRIC PLIERS 425 V
1
pcs
7001060038
TONGS 200 MM
1
pcs
Cramp tool with plane grips for additional works (if necessary), is intended to hold details
3099010133
WORK BENCH FOR CABLE SPLICING 3900-138.000
1
pcs
7003150081
FLAT FILE 250 MM
1
pcs
7001060003
SIDECUTTER 180 MM
1
pcs
2139060004
ARMOR APPLYING TOOL 7003-6481
TBA
Abrasive paper N8 – special paper for metal abrading
TBA
Contact cleaner Insulation tester Fluke 1550C Digital Multimeter 87V Clamp-on ammeter Fluke 376
Tool for wires cut-off, tightening Work tool for installing armor
pcs
Special paper for metal abrading
pcs
Special liquid for cleaning conductors
pcs
device for insulation resistance measuring for measuring low voltage level (below 1000V), phase to phase resistance measurement and etc. tool for electrical parameters measuring
2018 Page 589
> Tools and Consumables > Splicing Tools and Consumables
SPLICING TOOLS Description Crimper KO5D, 6-50 mm Klauke Gauge K.8388-0016 Gauge K.8166-0002 Gauge K.8388-0010 Hammer, 0.500 kg Work tool 7003-6481 Ruler 500 mm Stamp kit (figures) #6 Stamp kit (letters) #6 Scraper 7003-6609 Knife_7003-6747 Stripping tool 7003-6778 Tool box_607137 Metal cutters Knife Tongs 180 mm Wire cutters (up to dia 18 mm) Snips NKT-30 (NK-240) KVT Electric Pliers 425 V Tongs 200 mm Work bench for cable splicing 3900-138.000 Flat file 250 mm Sidecutter 180 mm
Q-ty
Units
Part Number
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
pcs pcs pcs pcs pcs pcs pcs pcs pcs pcs pcs pcs pcs pcs pcs pcs pcs pcs pcs pcs pcs pcs pcs
7001060026 2139070003 2139070004 2139070002 7001070004 2139060004 7002070004 7001050008 7001050003 2139110001 2139190002 2139060047 3098040018 7001080002 7003240127 7001060013 7001080008 7001080007 7001040013 7001060038 3099010133 7003150081 7001060003
Q-ty
Units
Part Number
12 12 4 16 0.2 1
pcs pcs pcs m pcs can
3098030015 1040030019 1040040003 1040040022 1040040019 1105040008
SPLICING CONSUMABLES Description Film Nitoflon 903 UL (0.08*19) Film F-4EO 0.04*20_roll 25g_GOST24222 Sticky tape, 48 mm (roll) Unwoven material_SZ.10.080.060.2 Jacketing tape, 50 m (0.15*20) Benzine BR-1 0.5l_ТU 38.401.-67-108-92
2018 Page 590
Engineering tables
0.67
0.67
0.67
0.67
0.67
0.67
0.67
0.79
0.67
0.67
0.67
0.67
0.55
0.79
0.79
0.79
0.67
0.87
0.87
NFV260
NFV340
NFV380
NFV450
NFV600M1
NFV760
NFV940
NFV3800
NHV200
NHV250
NHV380
NHV450
NHV600
NHV760
NHV940
NHV1200
NH1900M1
NH3000
NHV3800
0.98
0.67
NFV230
NHV5300
0.67
NFV190M2
0.67
NDV1500
0.50
0.67
ND600
NFO150
0.67
ND530
0.55
0.67
NDV230
0.55
0.50
NDO190
NFV150
0.67
NDV150
NFV110M1
Diameter, in
Model
0.76
0.59
0.59
0.35
0.49
0.49
0.49
0.24
0.35
0.35
0.35
0.35
0.49
0.35
0.35
0.35
0.35
0.35
0.35
0.35
0.35
0.35
0.20
0.24
0.24
0.35
0.35
0.35
0.35
0.20
0.35
Area, in2
636
434
434
322
322
322
322
105
193
193
193
193
322
193
193
193
193
193
193
193
193
193
87
105
105
193
193
193
193
87
193
S13
684
467
467
346
346
346
346
121
217
217
217
217
346
217
217
217
217
217
217
217
217
217
100
121
121
217
217
217
217
100
217
S14
789
531
531
402
402
402
402
137
241
241
241
241
402
241
241
241
241
241
241
241
241
241
113
137
137
241
241
241
241
113
241
7.5
6.8
7.1
4.5
7.7
8.2
8.4
3.6
4.9
5.4
5.9
5.9
3.8
4.9
4.6
4.6
4.3
4.3
4.3
3.7
3.9
3.7
1.8
2.7
3.0
3.0
2.9
3.0
3.2
1.6
3.3
23.8
22.5
22.5
18.1
10.8
9.8
16.2
10.8
16.5
19.7
14.3
16.5
19.1
7.9
6.7
11.1
7.3
5.4
5.7
6.0
5.7
14.3
2.6
7.9
7.9
12.4
7.3
7.8
7.0
-
7.3
H,m left limit of recommended operating range
22.7
26.6
27.9
29.4
36.4
38.7
39.7
34.3
32.4
35.1
38.5
38.7
H / 406 series (OD 4.06 in)
18.0
32.1
30.2
30.4
28.3
28.3
28.3
24.6
25.5
24.1
20.5
26.5
29.2
F / 362 series (OD 3.62 in)
19.4
18.9
19.8
21.3
15.4
21.7
D / 338 series (OD 3.38 in)
Max pump downthrust Max pump downper stage of FLT and thrust per stage of SCMP design, lb CMP design, lb S16
BHP limit, hp
Shaft with involute splines
60 Hz 3500 rpm
7144
7144
7144
7144
7144
7144
7144
7144
7144
7144
7144
7144
4763
4763
4763
4763
4763
4763
4763
4763
4763
4763
4763
4763
4763
1588
1588
1588
1588
1588
1588
955
1050
1002
1594
931
874
853
2012
1447
1334
1216
1209
1257
972
1033
1027
1102
1102
1102
1271
1224
1296
2686
1741
1575
538
551
526
490
989
479
Load limit for HL Thrust Brg Thrust Brg, lb (Ref Protector), FLT, SCMP
CONVENTIONAL PUMP ENGINEERING DATA Imperial system
-
317
-
-
662
726
-
683
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
1228 1861
1245
1489
675
1747
1550
1940
1721
1282 1449
1100
1315
608
1466 1628
1676
1466 1628
1087
496
374
457
595
398
493
763
375
928
854
1032
1000
460
432
517
643
828
1097
533
403
492
640
427
530
820
432
1043
960
1160
1124
494
485
582
723
931
1233
1250 1406
615
458
559
743
496
616
953
489
1159
1066
1289
1249
574
539
646
803
1034
1369
1561
1508 1695 1883
1554
1379
1115
955
1141
541
1304
1491
1304
946
1496 1682 1868
Maximum Number of Stages Using Shaft with involute HL Thrust Brg splines (Ref Protector), S13 S14 S16 CMP
583
496
474
450
364
341
333
386
409
377
344
341
737
412
438
435
467
467
467
539
519
549
647
500
452
683
700
668
622
862
609
Housing (depending on Housing Burst Pressure Limit
> Engineering Tables > Conventional Pump Engineering Data
2018 Page 592
1.76
1.76
0.98
1.18
0.98
0.98
1.18
1.50
1.50
1.65
1.65
1.65
1.65
1.65
NJV7600
NJ9400
NLV1000
NLV1900
NRV3800
NRV7600
NR12000
NRV15000
NRV19000
NRV22500
NR30000
NT38000
2.15
2.15
2.15
2.15
2.15
1.09
0.76
0.76
1.09
0.76
0.76
0.98
NJV6000
Area, in2
Diameter, in
Model
684
684
S14
789
789
684
684
789
789
3061 3292 3766
3061 3292 3766
3061 3292 3766
3061 3292 3766
3061 3292 3766
2259 2433 2781
2259 2433 2781
1110 1199 1376
636
636
1110 1199 1376
636
636
S13
70.3
54.5
63.8
78.5
93.3
73.4
79.2
46.9
17.5
17.5
13.2
10.3
10.8
251.5
197.5
190.8
173.7
182.3
152.7
136.2
101.0
27.6
22.5
38.7
37.1
39.1
H,m left limit of recommended operating range
75.6
T / 740 series (OD 7.40 in)
58.6
68.5
84.4
100.3
96.4
103.9
98.7
R / 677 series (OD 6.77 in)
52.9
52.9
L / 484 series (OD 4.84 in)
27.9
31.1
32.6
J / 449 series (OD 4.49 in)
Max pump downthrust Max pump downper stage of FLT and thrust per stage of SCMP design, lb CMP design, lb S16
BHP limit, hp
Shaft with involute splines
21168
21168
21168
21168
21168
21168
21168
21168
8203
8203
8203
8203
8203
-
-
-
-
-
-
267
451
470
470
620
799
763
Load limit for HL Thrust Brg Thrust Brg, lb (Ref Protector), FLT, SCMP
84
107
111
122
116
139
-
-
-
-
-
-
-
152
257
201
201
200
201
231
210
482
656
435
262
316
S13
164
277
216
216
215
217
249
227
518
705
470
281
340
S14
187
316
247
247
246
248
284
260
598
813
540
325
393
S16
Maximum Number of Stages Using Shaft with involute splines
HL Thrust Brg (Ref Protector), CMP
94
122
104
84
71
74
69
72
224
224
426
381
364
Housing (depending on Housing Burst Pressure Limit
> Engineering Tables > Conventional Pump Engineering Data
2018 Page 593
17
NFV600M1
20
17
22
22
NHV940
NHV1200
NH1900M1
NH3000
NHV3800
25
20
NHV760
NHV5300
14
20
NHV600
17
17
NFV450
NHV450
17
NFV380
17
17
NFV340
NHV380
17
NFV260
17
17
NFV230
NHV250
17
17
12.8
NFO150
NFV190M2
NHV200
14
NFV150
20
14
NFV110M1
NFV3800
17
NDV1500
17
17
ND600
17
17
ND530
NFV760
129
17
NDV230
NFV940
154
12.8
NDO190
491
380
380
227
314
314
314
154
227
227
227
227
314
227
227
227
227
227
227
227
227
227
154
227
227
227
227
129
227
17
NDV150
Area, mm2
Diameter, mm
Model
395
270
270
120
200
200
200
65
120
120
120
120
200
120
120
120
120
120
120
120
120
120
54
65
65
120
120
120
120
54
120
S13
425
290
290
135
215
215
215
75
135
135
135
135
215
135
135
135
135
135
135
135
135
135
62
75
75
135
135
135
135
62
135
S14
490
330
330
150
250
250
250
85
150
150
150
150
250
150
150
150
150
150
150
150
150
150
70
85
85
150
150
150
150
70
150
2.4
2.1
2.2
1.4
2.4
2.6
2.6
1.1
1.6
1.7
1.9
1.9
1.2
1.5
1.5
1.5
1.4
1.4
1.4
1.2
1.2
1.2
0.6
0.9
1.0
0.9
0.9
1.0
1.0
0.5
1.0
7.5
7.1
7.1
5.7
3.4
3.1
5.1
3.4
5.2
6.2
4.5
5.2
6.0
2.5
2.1
3.5
2.3
1.7
1.8
1.9
1.8
4.5
0.8
2.5
2.5
3.9
2.3
2.5
2.2
-
2.3
H,m left limit of recommended operating range
4.8
5.6
5.9
6.2
7.7
8.2
8.4
7.3
6.9
7.4
8.2
8.2
2700
2700
2700
2700
2700
2700
2700
2700
2700
2700
2700
2700
1800
1800
1800
1800
1800
1800
1800
1800
1800
1800
1800
1800
1800
600
600
600
600
600
600
1146
1260
1203
1912
1117
1049
1024
2415
1736
1601
1459
1451
1509
1167
1240
1232
1322
1322
1322
1526
1469
1555
3223
2089
1889
645
661
631
588
1187
575
Load limit for HL Thrust Brg Thrust Brg, kg (Ref Protector), FLT, SCMP
H / 406 series (OD 103 mm)
3.8
6.8
6.4
6.4
6.0
6.0
6.0
5.2
5.4
5.1
4.3
5.6
6.2
F / 362 series (OD 92 mm)
4.1
4.0
4.2
4.5
3.9
4.6
D / 338 series (OD 81 mm)
Max pump downthrust Max pump downper stage of FLT and thrust per stage of SCMP design, kg CMP design, kg S16
BHP limit, kW
Shaft with involute splines
50 Hz 2910 rpm
CONVENTIONAL PUMP ENGINEERING DATA Metric system
-
380
-
-
794
871
-
794
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
2411 1759
2679
1910
974
1596 1809
1685
877
2109 2344
2012 2235
2109 2344
1558
712
703
839
1047
1350
1776
828
781
932
1163
1500
1974
1875
713
538
643
522
570
709
1042
533
1333
1235
1543
1875
767
578
690
587
613
762
1120
615
884
658
786
652
712
887
1302
697
1500 1667
1389
1500 1688
1444 1625 1805
662
625
745
930
1200
1579
1500 1688
2182 2455 2727
2222 2500 2778
2000 2250 2500
1588 1824 2059
1383
1461
779
1875
1788
1875
1357
2143
Maximum Number of Stages Using Shaft with involute HL Thrust Brg splines (Ref Protector), S13 S14 S16 CMP
840
715
682
648
524
492
480
555
589
543
495
492
1061
593
630
626
672
672
672
775
747
791
931
720
651
983
1008
962
896
1029
877
Housing (depending on Housing Burst Pressure Limit)
> Engineering Tables > Conventional Pump Engineering Data
2018 Page 594
Diameter, mm
25
25
30
25
25
30
38
38
42
42
42
42
42
Model
NJV6000
NJV7600
NJ9400
NLV1000
NLV1900
NRV3800
NRV7600
NR12000
NRV15000
NRV19000
NRV22500
NR30000
NT38000
1385
1385
1385
1385
1385
1134
1134
707
491
491
707
491
491
Area, mm2
745
425
425
745
425
425
S14
855
490
490
855
490
490
1902 2046 2340
1902 2046 2340
1902 2046 2340
1902 2046 2340
1902 2046 2340
1404 1512 1728
1404 1512 1728
690
395
395
690
395
395
S13
22.2
17.2
20.1
24.7
29.4
23.1
24.9
14.8
5.5
5.5
4.2
3.2
3.4
79.2
62.2
60.1
54.7
57.4
48.1
42.9
31.8
8.7
7.1
12.2
11.7
12.3
H,m left limit of recommended operating range
16.0
T / 740 series (OD 188 mm)
12.4
14.5
17.9
21.2
20.4
22.0
20.9
R / 677 series (OD 172 mm)
11.2
11.2
L / 484 series (OD 123 mm)
5.9
6.6
6.9
8000
8000
8000
8000
8000
8000
8000
8000
3100
3100
3100
3100
3100
-
-
-
-
-
-
321
542
564
564
744
959
915
Load limit for HL Thrust Brg Thrust Brg, kg (Ref Protector), FLT, SCMP
J / 449 series (OD 114 mm)
Max pump downthrust Max pump downper stage of FLT and thrust per stage of SCMP design, kg CMP design, kg S16
BHP limit, kW
Shaft with involute splines
101
129
133
146
139
166
-
-
-
-
-
-
-
163
274
276
289
287
289
332
300
626
940
624
376
454
S13
175
294
297
311
309
312
357
324
674
1012
674
404
489
S14
200
337
339
355
353
356
409
372
777
1167
774
466
563
S16
Maximum Number of Stages Using Shaft with involute splines
HL Thrust Brg (Ref Protector), CMP
136
175
150
122
102
106
99
104
323
323
613
549
524
Housing (depending on Housing Burst Pressure Limit)
> Engineering Tables > Conventional Pump Engineering Data
2018 Page 595
113-227 113-264 151-302 415-760 415-755 1132-1887
75-151 113-189 75-189 136-264 151-340 166-377 241-453 264-491 302-566 453-792 604-906 604-1207 2641-4528
136-264 151-340 189-440 264-528 450-760 528-1057 717-1208 981 - 1547 1430-2260 2415-3623 2642-4529 4151-6340
5283-9811 5283-9811 7547-11320
906-1509 1358-2340
3014-4905 5283-9811 8302-14339 10566-19622 12830-27169 18112-27169 21131-36225
NFV110M1 NFV150 NFO150 NFV190M2 NFV230 NFV260 NFV340 NFV380 NFV450 NFV600M1 NFV760 NFV940 NFV3800
NHV200 NHV250 NHV380 NHV450 NHV600 NHV760 NHV940 NHV1200 NH1900M1 NH3000 NHV3800 NHV5300
NJV6000 NJV7600 NJ9400
NLV1000 NLV1900
NRV3800 NRV7600 NR12000 NRV15000 NRV19000 NRV22500 NR30000
3773 7547 12075 15094 18867 22640 30187
981 1887
6037 7547 9434
189 257 377 377 604 755 936 1207 1887 3019 3773 5283
113 151 151 189 226 264 340 377 453 604 755 943 3773
151 189 226 528 604 1509
Recommended Recommended Operating Range, capacity at BEP, bpd bpd
NDV150 NDO190 NDV230 ND530 ND600 NDV1500
Model
4.17 8.20 10.39 13.33 14.56 15.76 15.95
0.67 1.09
1.97 2.48 2.52
1.48 0.15 0.17 0.16 0.25 0.34 0.41 0.54 0.54 0.93 1.11 1.27
0.07 0.07 0.05 0.09 0.09 0.10 0.13 0.14 0.14 0.21 0.26 0.34 0.70
0.08 0.05 0.09 0.13 0.12 0.39
93.5 96.7 75.6 84.5 69.2 62.0 46.3
49.6 47.4
27.9 27.9 23.2
35.5 30.9 28.3 29.5 30.9 35.0 36.0 34.3 23.6 24.9 22.6 20.3
26.4 26.2 16.7 23.4 22.6 21.8 24.2 24.2 24.5 27.1 27.2 27.2 16.5
22.7 15.5 21.6 17.9 17.3 18.3
FLT
+
+ + + + + + + J / 449 series (OD 4.49 in) + + + L / 484 series (OD 4.84 in) + + R / 677 series (OD 6.77 in)
+ + + + + + + + + + + + H / 406 series (OD 4.06 in) + + + +
+
+
+
+ + +
+ + + + + + + +
+ + +
+
+ + + +
+
SCMP
Pump Design
D / 338 series (OD 3.38 in) + + + + + + F / 362 series (OD 3.62 in)
Power per stage, Head per stage, ft hp
60 Hz 3500 rpm
+ + + + +
+
+
CMP
CONVENTIONAL PUMP ENGINEERING DATA
MV, C MV, C M, C MV, C MV, C MV, C M, C
PV, P PV, P
MV, C MV, C M, C
PV, P PV, P PV, P PV, P PV, P PV, P PV, P PV, P P, P M, C MV, C MV, C
PV, P PV, P P, P PV, P PV, P PV, P PV, P PV, P PV, P PV, P PV, P PV, P MV, C
PV, P P, P PV, P P, P P, P PV, C
Stage Design*
3000
5000
5000
5600
5600
5600
Housing pressure limit, psi
Imperial system
8.03
5.71
5.31
4.91
4.70
4.13
Maximum ESP System OD, in
> Engineering Tables > Conventional Pump Engineering Data
2018 Page 596
30187-45281
37734
Recommended Recommended Operating Range, capacity at BEP, bpd bpd 26.93
67.2
FLT
SCMP
Pump Design
T / 740 series (OD 7.40 in)
Power per stage, Head per stage, ft hp
P, P - Pancake stage, powder metallurgy P, C - Pancake stage, cast metallurgy PV, P - Pancake stage with Vortex crown, powder metallurgy PV, C - Pancake stage with Vortex crown, cast metallurgy M, P - Mixed Flow stage, powder metallurgy M, C - Mixed Flow stage, cast metallurgy MV, P - Mixed Flow stage with Vortex crown, powder metallurgy MV, C - Mixed Flow stage with Vortex crown, cast metallurgy PV, PC - Panсake stage with Vortex crown, powder and cast metallurgy
NT38000
Model
+
CMP M, C
Stage Design*
3000
Housing pressure limit, psi
8.29
Maximum ESP System OD, in
> Engineering Tables > Conventional Pump Engineering Data
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15-30 15-35 20-40 55-100 55-100 150-250
10-20 15-25 10-25 18-35 20-45 22-50 32-60 35-65 40-75 60-105 80-120 80-160 350-600
18-35 20-45 30-70 35-70 60-100 70-140 95-160 130-205 190-300 320-480 350-600 550-840
550-1000 700-1300 1000-1500
120-200 180-310
400-650 700-1300 1100-1900 1400-2600 1700-3600 2400-3600 2800-4800
NFV110M1 NFV150 NFO150 NFV190M2 NFV230 NFV260 NFV340 NFV380 NFV450 NFV600M1 NFV760 NFV940 NFV3800
NHV200 NHV250 NHV380 NHV450 NHV600 NHV760 NHV940 NHV1200 NH1900M1 NH3000 NHV3800 NHV5300
NJV6000 NJV7600 NJ9400
NLV1000 NLV1900
NRV3800 NRV7600 NR12000 NRV15000 NRV19000 NRV22500 NR30000
500 1000 1600 2000 2500 3000 4000
130 250
800 1000 1250
25 34 50 50 80 100 124 160 250 400 500 700
15 20 20 25 30 35 45 50 60 80 100 125 500
20 25 30 70 80 200
Recommended Recommended Operating Range, capacity at BEP, bpd bpd
NDV150 NDO190 NDV230 ND530 ND600 NDV1500
Model
1.80 3.54 4.49 5.76 6.29 6.81 6.89
0.29 0.47
0.852 1.07 1.09
0.64 0.07 0.07 0.07 0.11 0.15 0.18 0.23 0.23 0.40 0.48 0.55
0.03 0.03 0.02 0.04 0.04 0.04 0.06 0.06 0.06 0.09 0.11 0.15 0.30
0.034 0.023 0.040 0.055 0.053 0.168
19.8 20.5 16.0 17.9 14.7 13.1 9.8
10.5 10.0
5.90 5.9 4.9
7.5 6.55 6.00 6.2 6.6 7.4 7.6 7.3 5.0 5.3 4.8 4.3
5.6 5.6 3.5 5.0 4.8 4.6 5.1 5.1 5.2 5.7 5.8 5.8 3.5
4.8 3.3 4.6 3.78 3.66 3.9
FLT
+
+ + + + + + + J / 449 series (OD 114 mm) + + + L / 484 series (OD 123 mm) + + R / 677 series (OD 172 mm)
+ + + + + + + + + + + + H / 406 series (OD 103 mm) + + + +
+
+
+
+ + +
+ + + + + + + +
+ + +
+
+ + + +
+
SCMP
Pump Design
D / 338 series (OD 86 mm) + + + + + + F / 362 series (OD 92 mm)
Power per stage, Head per stage, ft hp
50 Hz 2910 rpm
+ + + + +
+
+
CMP
CONVENTIONAL PUMP ENGINEERING DATA
MV, C MV, C M, C MV, C MV, C MV, C M, C
PV, P PV, P
MV, C MV, C M, C
PV, P PV, P PV, P PV, P PV, P PV, P PV, P PV, P P, P M, C MV, C MV, C
PV, P PV, P P, P PV, P PV, P PV, P PV, P PV, P PV, P PV, P PV, P PV, P MV, C
PV, P P, P PV, P P, P P, P PV, C
Stage Design*
210
350
350
390
390
390
Housing pressure limit, psi
Metric system
204
145
135
124.8
119.3
105
Maximum ESP System OD, in
> Engineering Tables > Conventional Pump Engineering Data
2018 Page 598
4000-6000
5000
Recommended Recommended Operating Range, capacity at BEP, bpd bpd 11.63
14.2
FLT
SCMP
Pump Design
T / 740 series (OD 188 mm)
Power per stage, Head per stage, ft hp
P, P - Panсake stage, powder metallurgy P, C - Panсake stage, cast metallurgy PV, P - Panсake stage with Vortex crown, powder metallurgy PV, C - Pancake stage with Vortex crown, cast metallurgy M, P - Mixed Flow stage, powder metallurgy M, C - Mixed Flow stage, cast metallurgy MV, P - Mixed Flow stage with Vortex crown, powder metallurgy MV, C - Mixed Flow stage with Vortex crown, cast metallurgy PV, PC - Panсake stage with Vortex crown, powder and cast metallurgy
NT38000
Model
+
CMP M, C
Stage Design*
210
Housing pressure limit, psi
210.5
Maximum ESP System OD, in
> Engineering Tables > Conventional Pump Engineering Data
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NH(4400-5000)H
NH(2500-3800)H
NH(2500-3100)H
NH(1500-2500)H
NH(1200-2100)H
NHV(790-1000)H
NF(2500-4400)H
NF(2000-3100)H
NF(1300-2000)H
NF(900-1300)H
NFV(310-630)H
NFV(130-250)H
NB(2000-3100)H
NB(1500-2500)H
NB(1100-1800)H
NB(630-1000)H
NBV(250-500)H
NBV(160-250)H
NA(630-1300)H
NAV(440-630)H
NAV(190-380)H
NAV(130-250)H
Model
2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
2910 3490 2910 3490 2910 3490 2910 3490
Rotation speed, rpm
0.87
0.79
0.79
0.67
0.67
0.55
0.79
0.79
0.79
0.55
0.55
0.39
0.67
0.67
0.67
0.55
0.55
0.50
0.50
0.50
0.50
0.50
Diameter, in
0.59
0.49
0.49
0.35
0.35
0.24
0.49
0.49
0.49
0.24
0.24
0.20
0.35
0.35
0.35
0.24
0.24
0.20
0.20
0.20
0.20
0.20
Area, in2
87 105 161 193 161 193 268 322 268 322 362 434
72 87 87 78 87 105 268 321 268 321 268 321
67 87 86 105 86 104 161 193 161 193 161 193
72 87 72 87 72 87 72 87
S13
101 121 181 217 181 217 288 346 288 346 389 466
83 100 101 90 101 121 288 346 288 346 288 346
78 100 98 121 98 121 181 217 181 217 181 217
83 100 83 100 83 100 83 100
S14
114 137 201 241 201 241 335 402 335 402 442 530
94 113 114 102 114 137 335 400 335 400 335 400
87 113 111 137 111 137 201 241 201 241 201 241
94 112 94 112 94 112 94 113
S16
BHP limit, hp
Shaft with involute splines
1.6 2.3 3.1 4.4 3.3 4.7 3.8 5.5 3.8 5.5 3.8 5.4
0.7 1.0 1.4 2.0 1.8 2.6 3.7 5.3 3.1 4.5 3.0 4.4
1.2 1.9 1.6 2.3 1.2 1.7 2.2 3.1 1.6 2.3 1.6 2.4
0.8 1.1 1.1 1.6 0.8 1.2 0.6 0.9
Max pump downthrust per stage of CMP design @ operating Hz, lb left limit of recommended operating range
1.8 2.5 5.7 8.1 5.5 7.9 5.0 7.2 B / 319 series (OD 81 mm) 4.3 7.1 3.0 4.3 6.7 9.6 8.8 12.7 8.8 12.7 3.9 5.6 F / 362 series (OD 92 mm) 2.4 3.5 2.9 4.1 10.8 15.5 8.2 11.7 9.3 13.3 8.6 12.4 H / 406 series (OD 103 mm) 5.5 7.9 16.1 23.1 15.4 22.2 8.6 12.4 12.6 18.1 15.9 22.9
A / 272 series (OD 62 mm)
Max pump downthrust per stage of FLT and SCMP design @ operating Hz, lb left limit of recommended operating range
15.2 21.8 20.0 28.8 21.6 31.1 18.0 26.0 18.0 26.0 14.8 21.2
13.5 19.3 13.6 19.6 17.3 24.8 17.4 25.0 14.7 21.1 14.3 20.6
13.5 22.5 15.4 22.1 11.7 16.8 14.1 20.3 10.4 15.0 10.8 15.5
8.9 12.7 12.6 18.2 9.5 13.7 7.2 10.3
H,m left limit of recommended operating range
5954 7144 5954 7144 5954 7144 5954 7144 5954 7144 5954 7144
3969 4763 3969 4763 3969 4763 3969 4763 3969 4763 3969 4763
1103 1323 1103 1323 1103 1323 1103 1323 1103 1323 1103 1323
992 1191 992 1191 992 1191 992 1191
-
5590 4664 -
948 681 692 578 912 761 693 578 -
1295 1081 909 759 1202 1003 1604 1338
1080 901 370 309 386 322 692 578 474 395 374 312
1385 1155 367 306 486 406 429 358 462 385
165 138 125 104 125 105 286 238
197 165
903 631 667 464 609 423 769 536 645 449 750 521
2700 1882 1667 865 613 429 741 515 741 515 690 479
2000 1203 1201 852 1219 857 1364 949 1333 928 750 522
3724 2589 2951 2052 1622 1127 1317 918
S13
1042 727 750 522 685 476 827 576 694 483 806 560
3100 2163 1923 998 708 494 796 554 796 554 741 515
2320 1382 1370 982 1390 997 1534 1067 1500 1043 844 587
4276 2973 3388 2355 1862 1294 1512 1055
S14
1181 823 833 579 761 529 962 669 806 561 917 637
3500 2444 2179 1131 802 559 926 641 926 641 862 597
2600 1562 1557 1112 1581 1129 1705 1185 1667 1158 938 652
4828 3356 3825 2659 2102 1461 1707 1192
S16
Shaft with involute splines
873 607 661 460 613 426 733 510 733 510 896 623
983 684 972 676 767 533 761 529 900 626 923 642
983 589 860 598 1133 788 938 652 1268 882 1226 852
1493 1038 1048 729 1386 963 1850 1286
Housing (depending on Housing Burst Pressure Limit)
Imperial system Maximum Number of Stages Using
Load limit for HL Thrust Brg HL Thrust Brg HL Thrust (Ref Protector), (Ref Protector), Brg, lb CMP FLT, SCMP
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NR(15700-19000)H
NR(12600-15700)H
NR(10000-11300)H
NP(11300-15100)H
NP(7900-10100)H
NP(4700-6300)H
NP(4400-5700)H
NP(3100-4400)H
NP(1900-2500)H
Model
2910 3490 2910 3490 2910 3490
2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
Rotation speed, rpm
1.65
1.38
1.18
1.18
0.98
0.87
1.18
0.87
0.87
Diameter, in
2.15
1.49
1.10
1.10
0.76
0.59
1.10
0.59
0.59
Area, in2
695 835 1595 1912 2549 3057
362 434 362 434 925 1109 362 434 360 432 925 1109
S13
752 902 1718 2060 2742 3288
389 466 389 466 998 1197 389 466 387 464 998 1197
S14
862 1034 1963 2354 3136 3761
442 530 442 530 1146 1374 442 530 440 527 1146 1374
S16
BHP limit, hp
Shaft with involute splines
27.3 39.2 35.0 50.3 44.0 63.3
9.9 14.2 10.0 14.3 18.7 26.9 7.9 11.3 11.7 16.8 15.6 22.4
Max pump downthrust per stage of CMP design @ operating Hz, lb left limit of recommended operating range
P / 535 series (OD 136 mm) 35.3 50.7 40.8 58.7 47.8 68.8 33.3 47.9 35.9 51.7 43.9 63.1 R / 677 series (OD 172 mm) 106.7 153.5 116.0 166.8 94.4 135.7
Max pump downthrust per stage of FLT and SCMP design @ operating Hz, lb left limit of recommended operating range
57.4 82.6 54.1 77.9 47.2 68.0
38.7 55.7 39.0 56.2 39.4 56.6 30.8 44.4 35.4 51.0 32.8 47.2
H,m left limit of recommended operating range
17640 21168 17640 21168 17640 21168
9923 11907 9923 11907 9923 11907 9923 11907 9923 11907 9923 11907 -
165 138 152 127 187 156
281 235 243 203 207 173 298 249 276 230 226 189 126 88 277 193 362 251
509 354 321 223 605 421 241 168 240 167 168 117 136 95 299 208 389 270
547 380 345 240 654 454 259 180 258 179 181 126 156 109 341 237 445 309
623 433 393 273 750 521 295 205 293 204 208 145
Maximum Number of Stages Using Load Shaft with involute limit for HL Thrust Brg HL Thrust Brg splines HL Thrust (Ref Protector), (Ref Protector), Brg, lb CMP FLT, SCMP S13 S14 S16
230 160 244 170 280 195
342 238 339 236 336 234 429 298 373 260 403 280
Housing (depending on Housing Burst Pressure Limit)
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NH(4400-5000)H
NH(2500-3800)H
NH(2500-3100)H
NH(1500-2500)H
NH(1200-2100)H
NHV(790-1000)H
NF(2500-4400)H
NF(2000-3100)H
NF(1300-2000)H
NF(900-1300)H
NFV(310-630)H
NFV(130-250)H
NB(2000-3100)H
NB(1500-2500)H
NB(1100-1800)H
NB(630-1000)H
NBV(250-500)H
NBV(160-250)H
NA(630-1300)H
NAV(440-630)H
NAV(190-380)H
NAV(130-250)H
Model
2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
2700 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
2910 3490 2910 3490 2910 3490 2910 3490
Rotation speed, rpm
22
20
20
17
17
14
20
20
20
14
14
10
17
17
17
14
14
12.8
12.8
12.8
12.8
12.8
Diameter, mm
380
314
314
227
227
154
314
314
314
154
154
79
227
227
227
154
154
129
129
129
129
129
Area, mm2
65 78 120 144 120 144 200 240 200 240 270 324
54 65 65 78 65 78 200 240 200 240 200 240
50 65 64 77 64 77 120 144 120 144 120 144
54 65 54 65 54 65 54 65
S13
75 90 135 162 135 162 215 258 215 258 290 348
62 74 75 90 75 90 215 258 215 258 215 258
58 75 73 88 73 88 135 162 135 162 135 162
62 74 62 74 62 74 62 74
S14
85 102 150 180 150 180 250 300 250 300 330 396
70 84 85 102 85 102 250 300 250 300 250 300
65 84 83 100 83 100 150 180 150 180 150 180
70 84 70 84 70 84 70 84
S16
BHP limit, kW
Shaft with involute splines
0.7 1.0 1.4 2.0 1.5 2.1 1.7 2.5 1.7 2.5 1.7 2.5
0.3 0.5 0.6 0.9 0.8 1.2 1.7 2.4 1.4 2.0 1.4 2.0
0.5 0.9 0.7 1.0 0.5 0.8 1.0 1.4 0.7 1.0 0.7 1.1
0.3 0.5 0.5 0.7 0.4 0.5 0.3 0.4
Max pump downthrust per stage of CMP design @ operating Hz, kg
0.8 1.2 2.6 3.7 2.5 3.6 2.3 3.3 B / 319 series (OD 81 mm) 1.9 3.2 1.4 1.9 3.0 4.4 4.0 5.8 4.0 5.7 1.8 2.5 F / 362 series (OD 92 mm) 1.1 1.6 1.3 1.9 4.9 7.0 3.7 5.3 4.2 6.0 3.9 5.6 H / 406 series (OD 103 mm) 2.5 3.6 7.3 10.5 7.0 10.1 3.9 5.6 5.7 8.2 7.2 10.4
A / 272 series (OD 62 mm)
Max pump downthrust per stage of FLT and SCMP design @ operating Hz, kg
4.6 6.6 6.1 8.8 6.6 9.5 5.5 7.9 5.5 7.9 4.5 6.5
4.1 5.9 4.2 6.0 5.3 7.6 5.3 7.6 4.5 6.4 4.4 6.3
4.1 6.9 4.7 6.7 3.6 5.1 4.3 6.2 3.2 4.6 3.3 4.7
2.7 3.9 3.8 5.5 2.9 4.2 2.2 3.1
H,m left limit of recommended operating range
2700 3240 2700 3240 2700 3240 2700 3240 2700 3240 2700 3240
1800 2160 1800 2160 1800 2160 1800 2160 1800 2160 1800 2160
500 600 500 600 500 600 500 600 500 600 500 600
450 540 450 540 450 540 450 540
-
5590 4664 -
948 681 692 578 912 761 -
1295 1081 909 759 1202 1003 1604 1338
1080 901 370 309 386 322 692 578 474 395 374 312
1385 1155 367 306 486 406 429 358 462 385
165 138 125 104 125 105 286 238
197 165
903 628 667 463 609 423 769 535 645 449 750 521
2700 1884 1667 1159 613 427 741 515 741 515 690 479
2000 1204 1201 835 1219 848 1364 948 1333 927 750 521
3724 2589 2951 2059 1622 1127 1317 919
S13
1042 724 750 521 685 476 827 575 694 482 806 560
3100 2145 1923 1338 708 492 796 554 796 554 741 515
2320 1389 1370 952 1390 967 1534 1067 1500 1043 844 587
4276 2973 3388 2344 1862 1294 1512 1046
S14
1181 821 833 579 761 529 962 669 806 561 917 637
3500 2435 2179 1516 802 558 926 644 926 644 862 599
2600 1556 1557 1083 1581 1099 1705 1185 1667 1159 938 652
4828 3356 3825 2661 2102 1461 1707 1188
S16
Shaft with involute splines
873 607 661 460 613 426 733 510 733 510 896 623
983 684 972 676 767 533 761 529 900 626 923 642
983 589 860 598 1133 788 938 652 1268 882 1226 852
1493 1038 1048 729 1386 963 1850 1286
Housing (depending on Housing Burst Pressure Limit)
Metric system Maximum Number of Stages Using Load limit for HL Thrust Brg HL Thrust Brg HL Thrust (Ref Protector), (Ref Protector), Brg, kg CMP FLT, SCMP
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NR(15700-19000)H
NR(12600-15700)H
NR(10000-11300)H
NP(11300-15100)H
NP(7900-10100)H
NP(4700-6300)H
NP(4400-5700)H
NP(3100-4400)H
NP(1900-2500)H
Model
2910 3490 2910 3490 2910 3490
2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
Rotation speed, rpm
42
35
30
30
25
22
30
22
22
Diameter, mm
1385
962
707
707
491
380
707
380
380
Area, mm2
519 622 1190 1427 1902 1428
270 324 270 324 690 828 270 324 269 323 690 828
S13
561 673 1282 1538 2046 1538
290 348 290 348 745 893 290 348 289 347 745 893
S14
643 771 1465 1757 2340 1758
330 396 330 396 855 1025 330 396 328 393 855 1025
S16
BHP limit, kW
Shaft with involute splines
12.4 17.8 15.9 22.8 20.0 28.7
4.5 6.5 4.5 6.5 8.5 12.2 3.6 5.1 5.3 7.6 7.1 10.2
Max pump downthrust per stage of CMP design @ operating Hz, kg
P / 535 series (OD 136 mm) 16.0 23.0 18.5 26.6 21.7 31.2 15.1 21.7 16.3 23.4 19.9 28.6 R / 677 series (OD 172 mm) 48.4 69.6 52.6 75.7 42.8 61.6
Max pump downthrust per stage of FLT and SCMP design @ operating Hz, kg
17.5 25.2 16.5 23.7 14.4 20.7
11.8 17.0 11.9 17.1 12.0 17.3 9.4 13.5 10.8 15.5 10.0 14.4
H,m left limit of recommended operating range
8000 9600 8000 9600 8000 9600
4500 5400 4500 5400 4500 5400 4500 5400 4500 5400 4500 5400 -
165 138 152 127 187 156
281 235 243 203 207 173 298 249 276 230 226 189 126 88 277 193 362 157
509 354 321 223 605 421 241 168 240 167 168 117 136 95 299 208 389 170
547 380 345 240 654 454 259 180 258 179 181 126 156 109 341 237 445 194
623 433 393 273 750 521 295 205 293 204 208 145
Maximum Number of Stages Using Load Shaft with involute limit for HL Thrust Brg HL Thrust Brg splines HL Thrust (Ref Protector), (Ref Protector), Brg, kg CMP FLT, SCMP S13 S14 S16
124 86 132 91 151 105
307 213 304 211 302 210 385 268 335 233 362 252
Housing (depending on Housing Burst Pressure Limit)
> Engineering Tables > Power Save™ Pump Engineering Data
2018 Page 603
NF(2500-4400)H
NF(2000-3100)H
NF(1300-2000)H
NF(900-1300)H
NFV(310-630)H
NFV(130-250)H
NB(2000-3100)H
NB(1500-2500)H
NB(1500-2500)H
NB(1100-1800)H
NB(630-1000)H
NB(630-1000)H
NBV(250-500)H
NBV(160-250)H
NA(630-1300)H
NA(630-1300)H
NAV(440-630)H
NAV(190-380)H
NAV(130-250)H
Model
Recommended Operating Range, bpd
94-157 113-189 144-283 170-340 220-409 264-491 503-755 604-906 503-755 604-906
119-214 145-264 195-346 233-421 428-704 509-843 428-704 509-843 503-1132 604-1358 943-1572 1132-1887 943-1572 1132-1887 1415-2358 1698-2830
94-157 113-189 220-409 264-491 503-1132 604-1358 943-1572 1126-1874 1509-2516 1811-3019 2012-3019 2421-3616
Rotation speed, rpm
2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
126 151 314 377 880 1057 1321 1572 2012 2264 2516 3622
189 208 283 314 629 679 629 679 880 1069 1258 1509 1258 1509 2264 2830
126 151 214 258 314 377 629 755 629 755
Recommended capacity at BEP, bpd Head per stage, ft, nominal
A / 272 series (OD 2.72 in) 0.02 7.9 0.03 11.3 0.02 7.6 0.04 10.9 0.04 8.8 0.06 12.7 0.05 6.0 0.09 8.6 0.05 6.5 0.08 9.3 B / 319 series (OD 3.19 in) 0.04 10.8 0.06 15.6 0.05 13.0 0.09 18.6 0.07 9.7 0.12 14.0 0.08 10.8 0.13 15.5 0.12 11.3 0.20 16.2 0.12 8.5 0.20 12.2 0.12 9.5 0.21 13.7 0.02 9.0 0.03 12.9 F / 362 series (OD 3.62 in) 0.03 12.0 0.05 17.3 0.04 12.1 0.08 17.5 0.14 14.1 0.24 20.2 0.24 14.7 0.41 21.2 0.28 12.7 0.49 18.3 0.37 13.4 0.64 19.3
Power per stage, hp
+ +
+ + + +
FLT
+ +
+ +
+ +
+ + + +
+ +
+ +
+ +
SCMP
Pump Design
Power Save Pump Engineering Data
+ + + + + + + + + +
+ +
+ + + +
+ +
+ +
CMP
M, C
M, C
M, C
P, P
PV, P
PV, PC
M, C
M, C
M, C
M, C
P, P
P, P
PV, P
PV, P
M, C
M, C
PV, P
PV, P
PV, P
Stage Design*
5600
5600
5600
Housing pressure limit, psi
4,70
3,74
3,23
Maximum ESP System OD, in
Imperial system
> Engineering Tables > Power Save™ Pump Engineering Data
2018 Page 604
Recommended Operating Range, bpd
189-1006 226-1207 817-1258 981-1509 849-1541 1019-1849 1509-2516 1824-3019 1962-3201 2358-3843 2201-3773 2641-4560
1006-2641 1207-3176 1761-4528 2113-5446 2830-5031 3396-6006 3459-5660 4151-6792 4402-8176 5283-9811 7547-12578 9056-15094
Rotation speed, rpm
2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
NR(10000-11300)H
2910 6918-11949 3490 8301-14339 2910 8805-16351 NR(12600-15700)H 3490 10566-19622 2910 10691-22640 NR(15700-19000)H 3490 12830-27168 * P, P - Pancake stage, powder metallurgy P, C - Pancake stage, cast metallurgy PV, P - Pancake stage with Vortex crown, powder metallurgy PV, C - Pancake stage with Vortex crown, cast metallurgy M, P - Mixed Flow stage, powder metallurgy M, C - Mixed Flow stage, cast metallurgy MV, P - Mixed Flow stage with Vortex crown, powder metallurgy MV, C - Mixed Flow stage with Vortex crown, cast metallurgy PV, PC - Panсake stage with Vortex crown, powder and cast metallurgy
NP(11300-15100)H
NP(7900-10100)H
NP(4700-6300)H
NP(4400-5700)H
NP(3100-4400)H
NP(1900-2500)H
NH(4400-5000)H
NH(2500-3800)H
NH(2500-3100)H
NH(1500-2500)H
NH(1200-2100)H
NHV(790-1000)H
Model
10062 11320 12578 13836 15723 18867
1887 2264 3145 3773 4088 4937 4717 5660 6289 7547 10062 12075
629 755 1038 1132 1257 1508 2012 2421 2578 3094 3145 3773
Recommended capacity at BEP, bpd Head per stage, ft, nominal
H / 406 series (OD 4.06 in) 0.09 13.5 0.16 19.3 0.22 18.8 0.38 27.0 0.27 18.8 0.47 27.0 0.29 13.8 0.51 19.9 0.39 14.9 0.67 21.4 0.39 11.9 0.68 17.1 P / 535 series (OD 5.35 in) 0.68 33.1 1.18 47.6 1.08 32.6 1.86 46.9 1.63 37.8 2.81 54.3 1.20 27.1 2.07 38.9 1.85 29.2 3.20 42.0 2.96 31.5 5.11 45.3 R / 677 series (OD 6.77 in) 4.88 50.3 8.41 72.3 5.65 45.6 9.75 65.6 6.65 42.5 11.47 61.1
Power per stage, hp FLT
SCMP
Pump Design
+ + + + + +
+ + + + + + + + + + + +
+ + + + + + + + + + +
CMP
M, C
M, C
M, C
M, C
M, C
M, C
M, C
P, P
P, P
M, C
M, C
M, C
P, P
P, P
PV, PC
Stage Design*
3000
5000
5600
Housing pressure limit, psi
8,03
6,04
4,91
Maximum ESP System OD, in
> Engineering Tables > Power Save™ Pump Engineering Data
2018 Page 605
NF(2500-4400)H
NF(2000-3100)H
NF(1300-2000)H
NF(900-1300)H
NFV(310-630)H
NFV(130-250)H
NB(2000-3100)H
NB(1500-2500)H
NB(1500-2500)H
NB(1100-1800)H
NB(630-1000)H
NB(630-1000)H
NBV(250-500)H
NBV(160-250)H
NA(630-1300)H
NA(630-1300)H
NAV(440-630)H
NAV(190-380)H
NAV(130-250)H
Model
2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
Rotation speed, rpm
Recommended Operat- Recommended capacity Power per Head per stage, ing Range, m3/day stage, kW m nominal at BEP, m3/day A / 272 series (OD 69 mm) 15-25 20 0.01 2.4 18-30 24 0.02 3.5 23-45 34 0.02 2.3 27-54 41 0.03 3.3 35-65 50 0.03 2.7 42-78 60 0.05 3.9 80-120 100 0.04 1.8 96-144 120 0.06 2.6 80-120 100 0.03 2.0 96-144 120 0.06 2.8 B / 319 series (OD 81mm) 19-34 30 0.03 3.3 23-42 33 0.05 4.7 31-55 45 0.04 4.0 37-67 50 0.06 5.7 68-112 100 0.05 3.0 81-134 108 0.09 4.3 68-112 100 0.06 3.3 81-134 108 0.10 4.7 80-180 140 0.09 3.4 96-216 170 0.15 4.9 150-250 200 0.09 2.6 180-300 240 0.15 3.7 150-250 200 0.09 2.9 180-300 240 0.16 4.2 225-375 360 0.01 2.7 270-450 450 0.02 3.9 F / 362 series (OD 92 mm) 15-25 20 0.02 3.7 18-30 24 0.03 5.3 35-65 50 0.03 3.7 42-78 60 0.06 5.3 80-180 140 0.10 4.3 96-216 168 0.18 6.2 150-250 210 0.18 4.5 179-298 250 0.30 6.5 240-400 320 0.21 3.9 288-480 360 0.36 5.6 320-480 400 0.28 4.1 385-575 576 0.48 5.9 + +
+ + + +
+ +
+ +
+ +
+ + + +
+ +
+ +
+ +
+ + + + + + + + + +
+ +
+ + + +
+ +
+ +
Pump Design FLT SCMP CMP
Power Save™ PUMP ENGINEERING DATA
M, C
M, C
M, C
P, P
PV, P
PV, PC
M, C
M, C
M, C
M, C
P, P
P, P
PV, P
PV, P
M, C
M, C
PV, P
PV, P
PV, P
Stage Design*
390
390
390
390
119,3
95
95
82
Maximum ESP System OD, mm
Metric system Housing pressure limit, atm
> Engineering Tables > Power Save™ Pump Engineering Data
2018 Page 606
2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
2910 3490 2910 3490 2910 3490 2910 3490 2910 3490 2910 3490
Rotation speed, rpm
Recommended Operat- Recommended capacity Power per Head per stage, ing Range, m3/day stage, kW m nominal at BEP, m3/day H / 406 series (OD 103 mm) 30-160 100 0.07 4.1 36-192 120 0.12 5.9 130-200 165 0.16 5.7 156-240 180 0.28 8.2 135-245 200 0.20 5.7 162-294 240 0.35 8.2 240-400 320 0.22 4.2 290-480 385 0.38 6.1 312-509 410 0.29 4.5 375-611 492 0.50 6.5 350-600 500 0.29 3.6 420-725 600 0.51 5.2 P / 535 series (OD 136 mm) 160-420 300 0.511 10.1 192-505 360 0.88 14.5 280-720 500 0.806 9.9 336-866 600 1.39 14.3 450-800 650 1.215 11.5 540-955 785 2.10 16.6 550-900 750 0.896 8.3 660-1080 900 1.55 11.9 700-1300 1000 1.384 8.9 840-1560 1200 2.39 12.8 1200-2000 1600 2.212 9.6 1440-2400 1920 3.82 13.8 R / 677 series (OD 172 mm) 1100-1900 1600 3.640 15.3 1320-2280 1800 6.279 22.0 1400-2600 2000 4.220 13.9 1680-3120 2200 7.280 20.0 1700-3600 2500 4.960 12.9 2040-4320 3000 8.556 18.6
NR(10000-11300)H
2910 3490 2910 NR(12600-15700)H 3490 2910 NR(15700-19000)H 3490 * P, P - Pancake stage, powder metallurgy P, C - Pancake stage, cast metallurgy PV, P - Pancake stage with Vortex crown, powder metallurgy PV, C - Pancake stage with Vortex crown, cast metallurgy M, P - Mixed Flow stage, powder metallurgy M, C - Mixed Flow stage, cast metallurgy MV, P - Mixed Flow stage with Vortex crown, powder metallurgy MV, C - Mixed Flow stage with Vortex crown, cast metallurgy PV, PC - Panсake stage with Vortex crown, powder and cast metallurgy
NP(11300-15100)H
NP(7900-10100)H
NP(4700-6300)H
NP(4400-5700)H
NP(3100-4400)H
NP(1900-2500)H
NH(4400-5000)H
NH(2500-3800)H
NH(2500-3100)H
NH(1500-2500)H
NH(1200-2100)H
NHV(790-1000)H
Model FLT
+ + + + + +
+ + + + + + + + + + + +
+ + + + + + + + + + + +
Pump Design SCMP CMP
M, C
M, C
M, C
M, C
M, C
M, C
M, C
P, P
P, P
M, C
M, C
M, C
P, P
P, P
PV, PC
Stage Design*
210
350
390
Housing pressure limit, atm
204
153.5
124,8
Maximum ESP System OD, mm
> Engineering Tables > Power Save™ Pump Engineering Data
2018 Page 607
> Engineering Tables > Units of Measurement
UNITS OF MEASUREMENT in ft m mm lb kg bpd m3/day Hz hp kW psi atm MPa Amps Volt
Inch Foot Meter Millimeter Pound Kilogram Barrels Per Day Cubic meters per day Hertz Horse Power Kilowatt Pounds per square inch Atmosphere Megapascal Ampere Volt
2018 Page 608
> Engineering Tables > Units of Measurement
LIST OF ABBREVIATIONS % Amps AM API AR AWG B BEP BHP BOH BSB CAPEX CBM CMP cP CR CT CV D DBL DIFA DHS DV EE Eff EFIW E-Lead EN EPDM ESP EUE FLT FSD GFD GOR GS GSTA H H HL HSG HSPS HT I I8 I11 I13 ID JB lbf LSB LSBPB LSBSB LT M8 MLE MLE MP MPP
% of Nameplate Amps Asynchronous Motor American Petroleum Institute Abrasion Resistant American Wire Gauge Bag Best Efficiency Point Brake Horsepower Bolt-On Head Bag-Series-Bag Capital Expenditures Coal Bed Methane Compression pump design Centipoise Corrosion Resistant Center Tandem (pump, motor) Check Valve Depth Double motor Dismantle, Inspection, Failure Analysis Downhole Sensor System Drain Valve EPDM insulation; EPDM jacket Efficiency Enclosed filters for injection wells EPDM insulation; Lead sheath EPDM insulation; Nitrile Butadiene Rubber jacket Ethylene Propylene Diene Monomer insulation Electrical Submersible Pump Externally Upset Ends thread type Floater pump design Fixed Speed Drive Downhole Gravitation Filter Gas-Oil Ratio Gas Separator Galvanized Steel Tape Armor Height in "Power Save™" pump designation "Power Save™" pump, e.g. NH(2500-3100)H High Load thrust bearing Housing Horizontal Surface Pumping Systems High Temperature (resistance) Intake Inconel alloy (shaft material), Yield strength = 785 MPa Inconel alloy (shaft material), Yield strength = 1080 MPa Inconel alloy (shaft material), Yield strength = 1275 MPa Inside Diameter Junction Box Unit of weight and axial load Labyrinth-series-Bag Labyrinth-series-Bag-parallel-Bag Labyrinth-series-Bag-series-Bag Lower Tandem (motor) Monel alloy (shaft material), Yield strength = 785 MPa Motor Lead Extension Guard Motor Lead Extension Guard Modular Protector Multiphase Pum 2018 Page 609
> Engineering Tables > Units of Measurement
N3R NDSS NSTU NSР-B NSР-R NUE OD ONAN OPEX P PE PI PLT PMM POOH PP PP rd RIH rpm S S S8 S11 S13 S14 S16 SCMP SDT SFD SFI SGFD SGL SS Stg STL SUT TBA TBP TDH THD Thrust TMP TRP TSS UCR UHT UT V VSD W Wt
Nema 3R rating Novomet Downhole Sensor System Novomet Sand Trap Upper Novomet Surface Panel, Built-in type Novomet Surface Panel, Remote type Non Upset Ends thread type Outside Diameter Oil Natural Air Natural Operating expenditures Conventional Protector Polyethylene insulation Productivity Index Production Logging Tests Permanent Magnet Motor Pull Out Of Hole Piston Protector Polypropylene insulation round thread Run In Hole Revolutions Per Minute V-shaped thread type Single (motor) Stainless steel (shaft material), Yield strength = 785 MPa Stainless steel (shaft material), Yield strength = 1080 MPa Stainless steel (shaft material), Yield strength = 1275 MPa Stainless steel (shaft material), Yield strength = 1370 MPa Stainless steel (shaft material), Yield strength = 1570 MPa Semi-compression pump design Step-Down Transformer Slotted Filter Downhole Slotted Filter Intake Slotted Gravitation Filter Downhole Single motor Stainless Steel Stages Standard Load thrust bearing Step-Up Transformer To Be Advised To Be Provided Total Dynamic Head Total Harmonic Distorsion Brg Thrust Bearing Tandem Modular Protector Triple motor Total Suspended Solids Ultra Corrosion Resistant Ultra High Temperature (resistance) Upper Tandem (motor) Vortex type of stage Variable Speed Drive Width Weight
2018 Page 610
> Engineering Tables > Temperature Convension Table
TEMPERATURE CONVERSION TABLE
F=9/5oC + 32 = 1.8 (oC + 17.8) oC – 5/9 (oF – 32)
For interpretation 1oC = 1.8oF
o
o C -67.8 -62.2 -56.7 -51.1 -45.6 -40 -34.4 -31.7 -28.9 -26.1 -23.3 -20.6 -17.8 -15 -12.2 -9.4 -6.7 -3.9 -1.1 1.7 4.4 7.2 10 12.8 15.6 18.3 21.1 23.9 26.7 29.4 32.2 35 37.8 40.6 43.3 46.1 48.9 51.7 54.4 57.2 60 62.8 65.6 68.3
F | oC -90 -80 -70 -60 -50 -40 -30 -25 -20 -15 -10 -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 105 110 115 120 125 130 135 140 145 150 155
o
o F -130 -112 -94 -76 -58 -40 -22 -13 -4 5 14 23 32 41 50 59 68 77 86 95 104 113 122 131 140 149 158 167 176 185 194 203 212 221 230 239 248 257 266 275 284 293 302 311
o C 71.1 73.9 76.7 79.4 82.2 85 87.8 90.6 93.3 96.1 98.9 101.7 104.4 107.2 110 112.8 115.6 118.3 121.1 126.7 132.2 137.8 143.3 148.9 154.4 160 165.6 171.1 176.7 182.2 187.8 193.3 198.9 204.4 210 215.6 221.1 226.7 232.2 237.8 243.3 248.9 254.4 260
F | oC 160 165 170 175 180 185 190 195 200 205 210 215 220 225 230 235 240 245 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 410 420 430 440 450 460 470 480 490 500
o
o F 320 329 338 347 356 365 374 383 392 401 410 419 428 437 446 455 464 473 482 500 518 536 554 572 590 608 626 644 657 680 698 716 734 752 770 788 806 824 842 860 878 896 914 932
2018 Page 611
> Engineering Tables > Conversion Factors
CONVERSION FACTORS MULTIPLY
BY
TO OBTAIN
MULTIPLY
BY
TO OBTAIN
Atmospheres
1.01325
Bar
Inches of Mercury
0.03342
Atmospheres
Atmospheres
29.92123
Inches of Mercury
Inches of Mercury
0.03453
Kgs. / Sq. cm.
Atmospheres
1.03323
Kgs. / Sq. cm.
Inches of Mercury
0.4912
Lbs. / Sq. in.
Barrel (U.S Petroleum)
0.15897
Cubic Meter
Inches of Water
0.002458
Atmospheres
Barrel (U.S Petroleum)
5.6146
Cubic Feet
Kilograms / Meter
0.672
Lbs. / Ft.
Barrel - Oil
42
Gallons - Oil (U.S.)
Kilograms / Sq. cm.
0.9678
Atmospheres
Barrel (36 oAPI)
0.1342
Metric Ton
Kilograms / Sq. cm.
28.959
Inches of Mercury
Barrel Per Hour
0.7
Gallons Per Min
Kilograms / Sq. cm.
2048.1552
Lbs. / Sq. Foot
Barrel Per Day
0.02917
Gallons Per Min.
Kilograms / Sq. cm.
14.2233
Lbs. / Sq. in.
Bar
14.5038
PSI
Kilograms
2.2046
Pounds
Centimeters Centimeters of Mercury Centimeters of Mercury Centimeters of Mercury Centimeters / Second
0.3937
Inches
Kilometers
0.6214
Miles
0.01316
Atmospheres
Kilometers
1093
Yards
135.951
Kgs. / Sq. Meter
Kilometers / Hr.
16.67
Meters / Min.
0.1934
Lbs. /Sq. in.
Kilometers / Hr.
0.6214
Miles / Hr.
1.969
Feet / Min.
Kilowatt
1.341
Horsepower (US)
Centimeters / Second
0.6
Meters / Min.
Liters
0.03531
Cubic Feet
Cubic Cent meters
0.00003531
Cubic Feet
Liters
61.0255
Cubic inches
Cubic Cent meters
0.002113
Pints (Liquid)
Liters
0.2642
Gallons
Cubic Feet
0.1781
Barrels
Liters
1.057
Quarts (Liquid)
Cubic Feet
0.02832
Cubic Meters
Liters / Min
0.0005886
Cubic Ft. / Sec.
Cubic Feet
7.48052
Gallons
Meters
3.281
Feet
Cubic Feet
28.3106
Liters
Meters
39.37
Inches
Cubic Feet / Minute Cubic Feet / Second Cubic Inches Cubic Inches
10.686 448.831 16.39 0.01639
Barrels Per Hour Gallons / Minute Cubic Centimeters Liters
Meters
1.094
Yards
(Cub. Meters / Day ) / (Kg / Sq. cm) (PI)
0.44227
Barrels / Day / PSI (PI)
Cubic Meters / Hour
150.972
Barrels / Day
Cubic Meters
35.3147
Cubic Feet
4.4028
Cubic Meters
1.308
Cubic Yards
5.61397
Cubic Meters
264.172
Gallons (U.S.)
Cubic Meters / Hour Cubic Meter / Cub. Meter (GOR) Meters / Min.
3.281
Gallons / Minute Cubic Feet / Barrel (GOR) Feet / Min.
Cubic Meters
6.289
Barrels
Meters / Min.
0.05468
Feet / Sec.
Cubic Yards
0.7646
Cubic Meters
Meters / Sec.
3.281
Feet / Sec.
Cubic Yards
202
Gallons
Miles
1.609
Kilometers
Drams
27.34375
Grains
Miles/Hr
1.609
Kilometers / Hrs.
Feet
30.48
Centimeters
Ounces
16
Drams
Feet
0.3048
Meters
Ounces
0.0625
Pounds
Feet of Water
0.0295
Atmospheres
Parts / Million
8.345
Lbs. / Million Gal.
Feet of Water
0.8826
Inches of Mercury
Pounds
0.4536
Kilograms
Feet of Water
0.03048
Kgs. / Sq. cm.
Feet of Water
0.4335
Lbs. /Sq. in.
2018 Page 612
> Engineering Tables > Shaft Diameter | Maximum break horse power (BHP) of shafts with involute splines | ESP system overall dimensions
Shaft Diameter Shaft diameter
Motor series
in
mm
319
0.79
20.00
378
0.98
25.00
406
0.98
25.00
460
1.18
30.00
512
1.50
38.00
562
1.50
38.00
744
1.50
38.00
MAXIMUM BREAK HORSE POWER (BHP) OF SHAFTS WITH INVOLUTE SPLINES Shaft diameter in
mm
Area in
S8 60 Hz
S11 50 Hz
60 Hz
S13
S14
50 Hz
60 Hz
50 Hz
S16
60 Hz
50 Hz
60 Hz
50 Hz
mm
hp
kw
hp
kw
hp
kw
hp
kw
hp
kw
hp
kw
hp
kw
hp
kw
hp
kw
hp
0.50 12.8 0.20 129
48
36
40
30
72
54
60
45
87
65
72
54
100
74
83
62
113
84
94
kw 70
0.55 14 0.24 154
58
43
48
36
88
66
74
55
105
78
87
65
121
90
101
75
137 102 114
85
0.67 17 0.35 227 116
86
96
72
169 126 141 105 193 144 161 120 217 162 181 135 241 180 201 150
0.79 20 0.49 314 193 144 161 120 273 204 228 170 322 240 268 200 346 258 288 215 402 300 335 250 0.87 22 0.59 380 265 198 221 165 370 276 308 230 434 324 362 270 466 348 389 290 531 396 442 330 0.98 25 0.76 491 386 288 322 240 539 402 449 335 635 474 529 395 683 510 570 425 788 588 657 490 1.18 30 1.10 707 675 504 563 420 933 696 777 580 1110 828 925 690 1198 894 998 745 1375 1026 1146 855 1.38 35 1.49 962 1179 880 982 733 1619 1208 1349 1007 1914 1428 1595 1190 2061 1538 1718 1282 2356 1758 1963 1465 1.50 38 1.76 1134 1389 1037 1158 864 1910 1426 1592 1188 2258 1685 1881 1404 2431 1814 2026 1512 2779 2074 2316 1728 1.65 42 2.15 1385 1881 1404 1568 1170 2566 1915 2139 1596 3058 2282 2549 1902 3290 2455 2742 2046 3763 2808 3136 2340
ESP SYSTEM OVERALL DIMENSIONS Novomet Pump Pump OD Pump Series series in mm A 272 2.72 69 B
319
3.19
81
D
338
3.38
86
F
362
3.62
92
H
406
4.06 103
Motor Series
Motor OD
Max ESP System OD (including MLE)
319
in 3.19
mm 81
in 3.23
mm 82
319
3.19
81
3.74
95
Max ESP System OD Min Max (including MLE Casing weight, Guard) OD, in lb/ft in mm 3.23 82 4.000 13.4 -
-
4.500
13.5
378
3.78
96
4.13
105
4.20
106.6
5.000
18.0
406
4.06
103
4.44
112.8
4.53
115.1
5.500
23.0
460
4.60
117
4.70
119.3
4.78
121.5
5.500
17.0
406
4.06
103
4.74
120.4
4.84
123.0
5.500
17.0
460
4.60
117
4.91
124.8
5.02
127.4
6.625
32.0
J
449
4.49 114
512
5.12
130
5.31
135
5.43
137.8
6.625
32.0
L
484
4.84 123
512
5.12
130
5.71
145
-
-
6.625
24.0
N
512
5.12 130
562
5.62
143
5.94
151
-
-
7.000
32.0
512
5.12
130
5.98
152.0
6.03
153.1
7.000
29.0
562
5.62
143
6.04
153.5
6.17
156.8
7.000
26.0
744
7.44
189
8.03
204.0
8.07
205.0
9.625
53.5
P
535
5.35 136
R
677
6.77 172
2018 Page 613
> Engineering Tables > Viscosity Correlation T
740
7.40 188
744
7.44
10 000 8000 6000
189
8.29
210.5
-
-
9.625
53.5
55
60
сP -API CORRELATION
4000 2000 1000 800 600
Absolute viscosity of gas-free crude oil, cP
400 200 100 80 60 40 20 10 8 6 4 2 1 0.8 0.6 0.4 0.2 0.1 10
15
20
25
30
35
40
45
50
Crude oil gravity oAPI at 60 oF and atmospheric pressure
2018 Page 614
> Engineering Tables > API Casing Chart
API Casing Chart CASING SIZE OD IN. 4-1/2
4.500
CASING COUPLING OD IN. NOMINAL WEIGHT LBS/FT INSIDE DIAMETER ID IN.
API DRIFT ID IN.
5.000
9.50
4.090
3.965
5.000
10.50
4.052
3.927
5.000
11.60
4.000
3.875
5.000
13.50
3.920
3.795
5
5.563
11.50
4.560
4.435
5.563
13.00
4.494
4.369
5.000
5.563
15.00
4.408
4.283
5.563
18.00
4.276
4.151
5-1/2
6.050
14.00
5.012
4.887
6.050
15.50
4.950
4.825
6.050
17.00
4.892
4.767
6.050
20.00
4.778
4.653
6.050
23.00
4.670
4.545
6-5/8
7.390
20.00
6.049
5.924
7.390
24.00
5.921
5.796
6.625
7.390
28.00
5.791
5.666
7.390
32.00
5.675
5.550
7.656
17.00
6.538
6.413
7.656
20.00
6.456
6.331
7.656
23.00
6.366
6.241
7.656
26.00
6.276
6.151
7.656
29.00
6.184
6.059
7.656
32.00
6.094
5.969
5.500
7
7.000
7-5/8
7.625
8-5/8
8.625
9-5/8
7.656
35.00
6.004
5.879
7.656
38.00
5.920
5.795
8.500
20.00
7.125
7.000
8.500
24.00
7.025
6.900
8.500
26.40
6.969
6.844
8.500
29.70
6.875
6.750
8.500
33.70
6.765
6.640
8.500
39.00
6.625
6.500
9.625
24.00
8.097
7.972
9.625
28.00
8.017
7.892
9.625
32.00
7.921
7.796
9.625
36.00
7.825
7.700
9.625
40.00
7.725
7.600
9.625
44.00
7.625
7.500
9.625
49.00
7.511
7.386
10.625
29.30
9.063
8.907
2018 Page 615
> Engineering Tables > API Casing Chart
CASING SIZE OD IN.
9.625
10-3/4
10.750
11-3/4 11.750 13-3/8
13.375
16 16.000 18-5/8 20 20.000
CASING COUPLING OD IN. NOMINAL WEIGHT LBS/FT INSIDE DIAMETER ID IN.
API DRIFT ID IN.
10.625
32.30
9.001
8.845
10.625
36.00
8.921
8.765
10.625
40.00
8.835
8.679
10.625
43.50
8.755
8.599
10.625
47.00
8.681
8.525
10.625
53.50
8.535
8.379
11.750
32.75
10.192
10.036
11.750
40.50
10.050
9.984
11.750
45.50
9.950
9.794
11.750
51.00
9.850
9.694
11.750
55.50
9.760
9.604
11.750
60.70
9.660
9.504
11.750
65.70
9.560
9.404
12.750
42.00
11.084
10.928
12.750
47.00
11.000
10.844
12.750
54.00
10.880
10.724
12.750
60.00
10.772
10.616
14.375
48.00
12.715
12.559
14.375
54.50
12.615
12.459
14.375
61.00
12.515
12.359 12.259
14.375
68.00
12.415
14.375
72.00
12.347
12.191
17.000
65.00
15.250
15.062
17.000
75.00
15.124
14.936
17.000
84.00
15.010
14.822
20.000
87.50
17.755
17.567 18.936
21.000
94.00
19.124
21.000
106.50
19.000
18.812
21.000
133.00
18.730
18.542
21.000
169.00
18.376
18.188
NOTE: For metric equivalents (millimeters), multiply the inches by 25.4.
2018 Page 616
1.05
1.315
1.660
1.900
2.063
2.375
2.875
/4
1
1 1/4
1 1/2
2 1/16
2 3/8
2 7/8
3
OD in.
Nom. in.
Tubina Size
6.50 6.50 6.50 8.70 6.50 8.70 6.50 8.70
6.40 6.40 6.40 8.60 6.40 8.60 6.40 8.60
4.70 5.95
4.70
4.70 5.95 4.70 5.95
4.70
4.00 4.60 4.00 4.60 4.00 4.60 5.80 4.00 4.60 5.80 4.60 5.80
2.750
2.300
1.700
1.14
T & C Non T & C Upset upset, lb/ft lb/ft
Nominal Weight
0.113 0.125 0.140 0.125 0.140 0.140 0.140 0.125 0.145 0.125 0.145 0.145 0.145 0.156
H-40 J-55 C-75 N-80
H-40 H-40 J-55 J-55 C-75 N-80
H-40 H-40 J-55 J-55 C-75 N-80
H-40 J-55 C-75 N-80
H-40 J-55 C-75 C-75 N-80 N-80 P-105 P-105 0.217 0.217 0.217 0.308 0.217 0.308 0.217 0.308
0.167 0.190 0.167 0.190 0.167 0.190 0.254 0.167 0.190 0.254 0.190 0.254
0.113
H-40 J-55 C-75 N-80
H-40 H-40 J-55 J-55 C-75 C-75 C-75 N-80 N-80 N-80 P-105 P-105
Wall Thickness in.
Grade
2.441 2.441 2.441 2.259 2.441 2.259 2.441 2.259
2.041 1.995 2.041 1.995 2.041 1.995 1.867 2.041 1.995 1.867 1.995 1.867
1.751
1.650 1.610 1.650 1.610 1.610 1.610
1.410 1.380 1.410 1.380 1.380 1.380
1.049
0.824
Inside Dia. in.
2.347 2.347 2.347 2.165 2.347 2.165 2.347 2.165
1.947 1.901 1.947 1.901 1.947 1.901 1.773 1.947 1.901 1.773 1.901 1.773
1.516
1.286
0.955
0.730
Drift Dia. in.
3.500
2.875
2.200
2.054
0.660
1.313
Non Upset in.
3.668
3.063
2.500
2.200
1.900
1.660
Upset Reg. in.
Upset Spec. in.
Couping Outsice Dia.
Threaded Coupling
tubing
5.230 6.800 8.900 12.200 9.420 12.920 12.560 17.220
4.880 5.520 6.340 7.180 8.150 9.380 12.180 8.660 9.940 12.890 13.250 17.190
5.240 6.820 8.910 9.440
4.450 5.290 5.790 6.870 8.990 9.520
5.220 5.790 6.790 7.530 9.840 10.420
6.820 8.860 11.590 12.270
7.200 9.370 12.250 12.710
Collapse Resistance, psi
5.280 7.260 9.910 14.060 10.570 15.000 13.870 19.690
4.920 5.600 6.770 7.700 9.230 10.500 14.040 9.840 11.200 14.970 14.700 19.650
5.290 7.280 9.920 10.590
10.020 10.680
5.270 5.900 7.250 8.120 11.070 11.810
7.080 9.730 13.270 14.160
7.530 10.360 14.120 15.070
Internal Yield Pressure, psi
52.780 72.580 98.970 149.360 105.570 159.310 138.560 209.100
30.130 35.960 41.430 49.450 56.500 67.430 96.560 60.260 71.930 102.990 94.410 135.180
26.250 35.800 38.180
19.090
21.360 29.120 31.060
15.530
10.960 15.060 20.540 21.910
6.360 8.740 11.920 12.710
72.480 99.660 135.900 185.290 144.960 198.710 190.260 260.810
104.340 135.400 136.940 177.710
97.820 126.940
71.730
52.170
43.970 59.960 63.960
31.980
36.770 50.140 53.480
26.740
19.760 27.160 37.040 39.510
13.300 18.290 24.940 26.610
T&C T&C Nonupset, upset, lb lb
Joint Yield Strenoth
0.0058 0.0058 0.0058 0.0050 0.0058 0.0050 0.0058 0.0050
0.0040 0.0039 0.0040 0.0039 0.0040 0.0039 0.0034 0.0040 0.0039 0.0034 0.0039 0.0034
0.0030
0.0026 0.0025 0.0026 0.0025 0.0025 0.0025
0.0019 0.0018 0.0019 0.0018 0.0018 0.0018
0.0011
0.0007
Barrels per Linear, ft
172.76 172.76 172.76 201.72 172.76 201.72 172.76 201.72
247.12 258.65 247.12 258.65 247.12 258.65 295.33 247.12 258.65 295.33 258.65 295.33
335.75
378.11 397.14 378.11 397.14 397.14 397.14
517.79 540.55 517.79 540.55 540.55 540.55
935.49
1516.13
Linear ft per barrel
Capacity Table
> Engineering Tables > Tubing
2018 Page 617
OD in.
3.500
4.000
4.500
Nom. in.
3 1/2
4
4 1/2
Tubina Size
12.600
9.500
7.70 9.20 10.20 7.70 9.20 10.20 7.70 9.20 10.20 12.70 7.70 9.20 10.20 12.70 9.20 12.70
12.750
11.000
12.95 9.30 12.95
9.30
12.95
9.30
9.30
9.30
T & C Non T & C Upset upset, lb/ft lb/ft
Nominal Weight
0.216 0.254 0.289 0.216 0.254 0.289 0.216 0.254 0.289 0.375 0.216 0.254 0.289 0.375 0.254 0.375 0.226 0.262 0.226 0.262 0.226 0.262 0.226 0.262 0.271
H-40 H-40 H-40 J-55 J-55 J-55 C-75 C-75 C-75 C-75 N-80 N-80 N-80 N-80 P-105 P-105
H-40 H-40 J-55 J-55 C-75 C-75 N-80 N-80
H-40 J-55 C-75 N-80
Grade
Wall Thickness in.
3.958
3.548 3.476 3.548 3.476 3.548 3.476 3.548 3.476
3.068 2.992 2.922 3.068 2.992 2.922 3.068 2.992 2.922 2.750 3.068 2.992 2.922 2.750 2.992 2.750
Inside Dia. in.
3.833
3.423 3.351 3.423 3.351 3.423 3.351 3.423 3.351
2.943 2.867 2.797 2.943 2.867 2.797 2.943 2.867 2.797 2.625 2.943 2.867 2.797 2.625 2.867 2.625
Drift Dia. in.
5.200
4.750
4.250
Non Upset in.
5.563
5.000
4.500
Upset Reg. in.
4.180
Upset Spec. in.
Couping Outsice Dia.
Threaded Coupling
3.930 5.100 6.430 6.810
3.580 4.420 4.650 5.750 5.800 7.330 6.120 7.780
4.070 5.050 5.680 5.290 6.560 7.390 6.690 8.530 9.660 12.200 7.080 9.080 10.230 12.920 12.110 17.200
Collapse Resistance, psi
4.220 5.800 7.900 8.430
3.960 4.580 5.440 6.300 7.420 8.600 7.910 9 170
4.320 5.080 5.780 5.940 6.980 7.950 8.100 9.520 10.840 14.060 8.640 10.160 11.560 15.000 13.330 19.690
Internal Yield Pressure, psi
104.360 143.500 195.680 208.730
144.010
135.010
99.010
72.000
65.070 79.540 92.550 89.470 109.370 127.250 122.010 149.140 173.530 230.990 130.140 159.090 185.100 246.390 208.800 323.390
144.020 198.030 270.240 288.040
246 1 40
230.750
169.220
123.070
294.530 271.970 386.570
207.220
194.260 276.120
142.460
103.610
T&C T&C Nonupset, upset, lb lb
Joint Yield Strenoth
0.0152
0.0122 0.0117 0.0122 0.0117 0.0122 0.0117 0.0122 0.0117
0.0091 0.0087 0.0083 0.0091 0.0087 0.0083 0.0091 0.0087 0.0083 0.0073 0.0091 0.0087 0.0083 0.0073 0.0087 0.0073
Barrels per Linear, ft
65.71
81.78 85.20 81.78 85.20 81.78 85.20 81.78 85.20
109.37 114.99 120.57 109.37 114.99 120.57 109.37 114.99 120.57 136.12 109.37 114.99 120.57 136.12 114.99 136.12
Linear ft per barrel
Capacity Table
> Engineering Tables > Tubing
2018 Page 618
> Engineering Tables > Pump, Motor RU->ENG Series
Pump RU-ENG series Prev. Series
New Series
Pump OD, mm
Pump OD, inch
Pump series
2
217
55
2.17
217
2A
A
69
2.72
272
3
B
81
3.19
319
86
3.38
338
92
3.62
362
103
4.06
406
114
4.49
449
123
4.84
484
130
5.12
512
136
5.35
535
172
6.77
677
188
7.40
740
C 4
D E
5
F G
5A
H
6
J
I K 6A
L M
7
N O
7A
P Q
8
R
8A
S
9
T
Motor RU-ENG series Motor OD, mm
Motor OD, inch
55
2.17
81
3.19
96
3.78
103
4.06
117
4.60
130
5.12
143
5.62
189
7.44
2018 Page 619