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POWERJump™ Flowline Booster System More powerful pumps: Slow the production decline curve, boost recovery from existing subsea fields In the beginning... and capture stranded reserves by integrating a cost-effective production GENESIS CREATED BOOSTING SOLUTIONS boosting system into existing subsea architecture. ...and they were good. Maximize Image courtesy of Sulzer Pumps Reimagine deepwater production at subseaproductionalliance.com. production now. Copyright © FMC Technologies, Inc. All Rights Reserved. www.MaximizeRecovery.com © 2016 Aker Solutions and . All rights reserved. 42663 02/2016 www.genesisoilandgas.com

Technip_OSmaps_1603 1 2/2/16 4:43 PM FMCT_OSmaps_1403 1 2/12/14 2:41 PM SUBSEA SEPARATION SYSTEM TYPES: SUBSEA SEAWATER TREATMENT AND INJECTION SUBSEA BOOSTING PUMP TYPES BOOSTING SYSTEM EXAMPLES (CONCEPTUAL & DELIVERED) Fig. 5: 1 of 3 Jack & St Malo Pump GRAPH 1 – GVF vs. DIFFERENTIAL PRESSURE - OPERATIONAL AND CONCEPTUAL CAPABILITIES GRAPH 2 – HIGH LEVEL COMPARISON OF SUBSEA BOOSTING OPTIONS Stations in the Factory Test Pit 350 for System Integration Test (SIT) 2016 WORLDWIDE SURVEY OF SUBSEA Fig. 1: Aker Solutions’ Fig. 2: Conceptual Illustration Fig.1: Installation of the Fig. 2: OneSubsea’s Pump Fig. 3: OneSubsea’s Helico- Fig. 4: OneSubsea’s Cen- Fig. 2: FMC Technologies Conceptual SS Gas/Liquid Fig. 3: GE Subsea Separation and Produced Fig. 5: Aker Solutions’s Conceptual DeepBooster™ TABLE 2 – PUMP TYPE & APPLICATIONS 5,100 Pump Types GVF Range (Approximate) Pressure Differential (Bar) Immediately Prior to Filling with Water 1. GRAVITY SEPARATION SYSTEMS (Figs. 1–6) LiquidBooster™ Subsea Raw of Installation of Tyrihans OneSubsea Pump Mod- Station with Pump Unit and Axial Pump Module for the trifugal Pump Module with Separation & Boosting System for Pazflor Project Reinjection System for Troll C with Separation System Flexsep™ SPP - Single Phase Pump (Centrifugal) Fig. 1A: FMC Technologies Conceptual Subsea Separation System for the Tordis Project Seawater Injection System Subsea Raw Seawater TYPE NORM. CONFIG. APPLICABILITY FOR SUBSEA BOOSTING 300 ule into Pump Station Mixer for the CNR’s Lyell Total GirRi project handling tool during SIT for 4,400 SPP (Centrifugal) TSP - Twin Screw Pump SPP (CENTRIFUGAL) PROCESSING: SEPARATION, COMPRESSION, (Photo: System for Statoil Injection (SRSWI) System during SIT for the Exxon project the Exxon Julia project Fig.3: OneSubsea Raw WGC - Wet Gas Compression HYBRID (CENTRIFUGAL/HELICO Tyrihans Subsea Raw Water SINGLE PHASE HORIZONTAL H Highest differential pressure capability among pump types. 250 Julia project Seawater Injection System (CENTRIFUGAL) OR VERTICAL H Handles low Gas Volume Fraction (GVF) < 15% at suction conditions. 3,625 High Boost DGC - Dry Gas Compression OR SEMI AXIAL) Injection Project) being installed Helico-Axial HSP - Hydraulic Submersible Pump MUDLINE ESP 50% AND PUMPING SYSTEMS H Combination of helico-axial and centrifugal impeller stages. 200 for Columbia E Field HYBRID VERTICAL H Primary application is for use downstream of separator or in low GOR 2,900 MUDLINE HSP 75% 125 applications where GVF is consistently <38% at suction. Fig. 1B: 150 Hybrid MULTIPHASE (HELICO OR 95% Tordis H Widely deployed technology used for boosting in , caissons, flowline 2,175 160 (Note 2) STATUS OF THE TECHNOLOGY HORIZONTAL SEMI AXIAL) Separator MUDLINE ESP risers, and mudline horizontal boosting applications. OR VERTICAL 100 TSP TWIN SCREW 175 (Note 3) H Applicable for GVF < 50%. Courtesy of GE 2 1,450 HSP H Compact hydraulic drive boosting pump for wells, caissons and mudline Courtesy of OneSubsea 1 Courtesy of 1 Courtesy of OneSubsea 9 Courtesy of OneSubsea 9 MARCH 2016 50 TSP 0% 20% 40% 60% 80% 100% 0 100 200 300 400 OneSubsea Fig. 4: COSSP (Conceptual 2-Phase HORIZONTAL applications. 725 Standard HSP Differential Pressure (Bar/psi) Notes: OR VERTICAL H Applicable for conditions of GVF < 75% (continuous) and for improved flow Helico-Axial Gas/Liquid Separation & Boosting System) WGC DGC 1. Combination of parameter values shown above is not feasible. Fig. 7: GE Boosting Station Fig. 8: OneSubsea’s Pump Modules for Fig. 9: Installation of the OneSubsea Prepared By: Larry Forster, Thiago Mesquita Paes, RJ Baker, Deepthi Thati, David Antilley, Courtesy of Aker Solutions 3 assurance. 0 bar Courtesy of Aker Solutions 0 psi 2. There are a number of other parameters/factors that need to be considered for any pump Total GirRi and Shell Draugen prior to SIT Pump Station for the Total GirRi Courtesy of Aker Solutions Courtesy of OneSubsea 0 10 20 30 40 50 60 70 80 90 100 Courtesy of OneSubsea 3 3 H Applicable for higher Gas Volume Fraction boosting applications – typical range selection 1 project Kendall Hawthorn, Julie Burke, Andromeda Mendoza, John Allen and Mac McKee of INTECSEA; MULTIPHASE VERTICAL of 30-95% GVF at suction conditions. 3. Base upon recent updates from Flowserve’s new SS boosting pumping system test results. Fig. 6: Saipem SpoolSep (Conceptual 3-Phase Separation Fig. 6: GE Subsea Sulphate Removal and % GVF LIQUID GAS Fig. 6: FMC Technologies E. Kurt Albaugh of E & P USA; and David Davis of Offshore Magazine Figs. 4 & 5: Saipem-Veolia –Total Conceptual H Moderate particulate tolerance. Courtesy of FMC Technologies & Produced Water Reinjection System) Injection System built on a combination of GE Note: For pump applications, the term differential pressure is used. However, for compressor SS Multiphase Pumping and Tested HORIZONTAL H Good for handling high GVF – up to 98% GVF at suction conditions. Poster Assembled By: Chris Jones of XenonGroupDesign.com; Digital Images by: Sid Aguirre of C-Ray Media ultra-filtration and nano-filtration membrane TWIN SCREW applications the term pressure ratio is used. COURTESY OF COURTESY OF Module with Sulzer Pump HORIZONTAL SEPARATOR - This type is more efficient for oil/water separation. An Westgarth Conceptual and Tested Prototype SS technologies scalable to any capacity. OR VERTICAL H Preferred technology for high viscosity fluids. E-Mail Comments, Corrections or Additions to: [email protected] example is the orange colored horizontal separator for the Tordis Project shown in Fig. Sulphate Removal Unit capable of treating 60 kbwpd 1A above. For videos and posters on Subsea Processing please go to: www.offshore-mag.com/learning-center.html Courtesy of FMC Technologies VERTICAL ESP PUMPS HORIZONTAL/MUDLINE ESP SYSTEM HSP PUMPS SINGLE PHASE PUMPS (CENTRIFUGAL) HYBRID PUMPS MULTIPHASE PUMPS (HELICO OR SEMI AXIAL) TWIN SCREW PUMPS VERTICAL SEPARATOR – This type is more efficient for gas/liquid separation. The liquid (For GVF < 50%) EXAMPLES (For GVF < 75%) (For GVF < 15%) (For GVF < 38%) (For GVF < 95%) (For GVF < 98%) keeps a fluid blanket on the pump and reduces potential pump cavitation. An example is Courtesy of GE Courtesy of OneSubsea 1 Courtesy of OneSubsea 1 the Pazflor vertical separator shown in Fig. 2. Fig. 1: Diagram of Vertically Fig. 2: Horizontal ESP Boosting Station Fig. 4: Diagram of HSP Fig. 5: Vertically Configured Fig. 6: Vertically Configured Fig. 7: Vertically Configured Fig. 8: Vertically Configured Fig. 9: Vertically Configured Fig. 10: Vertically Configured Fig. 11: Twin Screw Pump Configured Gas Handling ESP Principle of Operation Centrifugal Single Phase Centrifugal Single Phase Hybrid Pump & Motor Hybrid Pump & Motor Helico-Axial Pump & Motor Semi-Axial Pump Cross Section Diagram Fig. 10: Jack & St Malo Pump Stations in the Fig. 11: OneSubsea’s SIT Testing of Fig. 12: Aker Solutions MultiBooster™ Courtesy of FMC Technologies 10 11 in a Seabed Caisson Pump & Motor Diagram Pump & Motor Diagram Diagram Diagram Diagram Pump & Motor Diagram Factory Pit for System Integration Test (SIT) Total MoHo Subsea Boosting System System (BP King) Fig. 8: Caisson Separation/ Fig. 9: FMC Technologies 2. CAISSON SEPARATION Courtesy of Saipem SA Courtesy of Saipem SA ESP Boosting System Vertical Access Caisson 11 11 SYSTEMS (Figs. 7–9) with ESP Boosting (Gas/ Liquid Separation & INSTALLED < 100 m Courtesy of Saipem 3 Courtesy of GE 3 MAGAZINE INTO SEABED Boosting System Diagram) 3. COMPACT/DYNAMIC SEPARATION SYSTEMS (Figs. 10-13) Fig. 7: SWIT™ Technology Fig.8: OneSubsea’s Testing of the Albacore Raw Seawater Injection INTECSEA, Inc. Offshore Magazine Fig. 10: OneSubsea Conceptual Fig. 11: OneSubsea Conceptual Fig. 12: FMC Technologies 3-Phase Separation Fig. 13: ExxonMobil’s SS Compact Separation, SWIT™ a fully integrated subsea water treatment facility for System during SIT of Pump and Two-Phase Separation System Three-Phase Separation System System with Produced WI Using In-Line Boosting and PWRI Using Proprietary/Vendor 20 kbpd sulfate free and low salinity water. The combination of Courtesy of FMC Technologies 15600 JFK Boulevard, Ninth Floor 1455 West Loop South, Suite 400 Filtration System Courtesy of Leistritz Separation Technology for the Marlim Project Technologies for Gas, O/W & Sand Separation Seabox™ and Microfiltration modules only delivers water free Houston, TX 77032 USA Houston, TX 77027 USA of suspended solids. Courtesy of Sulzer 1 Courtesy of OneSubsea 9 Courtesy of OneSubsea 1 Courtesy of Aker Solutions 1 Tel: 281-987-0800 Tel: 713-621-9720 Fig. 7: BCSS Seabed Equipment Fig. 3: ESP Jumper Boosting System www.intecsea.com www.offshore-mag.com Fig. 13: FMC Technologies Centrifugal Pump Fig. 14: Loadout of the OneSubsea Pump Fig. 15: OneSubsea – Loadout of Fig. 12: Flowserve Horizontally Station with Multiphase Pump (Exposed) Station for the Total CLOV Project 1 of 6, 2.3 MW Hybrid Pumps for Configured Twin Screw Pump & Pazflor Project ACKNOWLEDGEMENT OF THE CONTRIBUTORS Motor Concept Courtesy of ClydeUnion 5 INTECSEA and Offshore Magazine wish to acknowledge the following companies and individuals who continue to support our efforts to educate Pumps (SPX FLOW) and inform the oil & gas industry on the status of subsea processing, and more specifically subsea pumping, technologies. HSPs can be configured as a ABB: Rita-Wei Fu; Advanced Separation Company BV: Mika Tienhaara; Aker Solutions: Jonah Margulis and Kate Winterton; Dresser: Dr. Jose Gilarranz; ExxonMobil: Michael D. Olson downhole pump with the power Courtesy of pressure pump residing on and Kamran Gul; Flowserve: Alejandro Fratini; FMC Technologies: Rob Perry, Brooke Robertson, Michael Claps, Jayne Merritt and Citlalli Utrera; Fuglesangs Subsea AS: Alex Fuglesang; a platform or on the seabed. GE: Alisdair McDonald, Hans Kristian Sundt, Kristin Elgsaas; Genesis: Chuck Horn, Mike Zerkus, and Tim Lowry; ITT Bornemann: Stefan Ladig; Leistritz: Jeffery De Vaul; The downhole pump can also ESPs can be installed in a caisson Courtesy of Baker Hughes MAN Diesel & Turbo North America: Domingo Fernandez; OneSubsea: Jon Arve Svaeren, Arne Olsen, Phillip Luce, Ragnar Vikoeren and Diana Acker; ProlabNL BV: Toine Hendriks; Courtesy of FMC Courtesy of OneSubsea Courtesy of OneSubsea be vertically configured in a 5 11 11 to gather and boost flow from Technologies seabed caisson for boosting and Repsol E & P USA: Ron Pettus; Saipem: Claude Valenchon, Stephanie Abrand, Antonio Bassi and Stephane Anres; Shell: Chris Shaw; Siemens: Rachel Ketelaars and Richard Barratt; Courtesy of Aker Solutions Courtesy of Baker Hughes Figs. 2 & 3: Courtesy of OneSubseaCourtesy Courtesyof FMC Technologies of OneSubsea CourtesyCourtesy of OneSubsea of ExxonMobil Courtesy of Aker SolutionsCourtesy of NOV Courtesy of OneSubsea multiple wells. separation purposes. Courtesy of OneSubsea Courtesy of Aker Solutions Courtesy of OneSubsea Courtesy of Aker Solutions Courtesy of OneSubsea Courtesy of Aker Solutions Courtesy of Flowserve Courtesy of FMC Technologies Courtesy of OneSubsea Schneider Electric: Kristina Hakala; Schlumberger: Grant Harris; SEABOX AS: Torbjorn Hegdal, Eirik Dirdal; SPX Flow: Ross Dobbie 5 5 12 3 3 1 9 1

COURTESY OF POSTER COLOR CODE KEY TABLE 1 – 2016 WORLDWIDE SURVEY OF SUBSEA GAS COMPRESSION, BOOSTING, WATER INJECTION, AND SEPARATION (1)(2) (As of Feb., 2016) FIG. 1 SUBSEA PROCESSING CONFIGURATIONS COURTESY OF The poster is divided into discrete sections and each section is marked by a background color. The Courtesy of OneSubsea 1 OWNER/ GAS PUMP TYPE color denotes the type of technology presented in FIELD OR PROJECT REGION/ WATER TIEBACK SYSTEM FLOW RATE DIFFERENTIAL SYSTEM NO. OF COMPRESSOR/PUMP IN-SERVICE/OPERATING

COMMENTS FIELD (5) or the section. This color code is carried throughout (Ordered by Start Date) BASINS DEPTH DISTANCE (@LINE CONDITIONS) PRESSURE PACKAGER PUMPS UNITS MANUFACTURER INFORMATION Fig. 16: Asgard Single Phase Pump COUNT VOLUME

OPERATOR DEMAND COMPR. TYPE FRACTION

the poster. Below are the color code designations DISCIPLINE GVF PROCESSING TOTAL POWER TOTAL UNIT POWER (3)

for each of the six themes. CURRENT STATUS MBOPD PSI % OF PUMPS or START (12) END or Full Wellstream Subsea Boosting COMPANY Meters Feet Km Miles M3/Hr. BAR (4) MW MW COMPANY TYPE COMPANY MTHS MBWPD (4) VOL. COMPR. (Month-Year) PRESENT Subsea Separation 1 DEMO 2000 Q Statoil K-Lab Test Statoil Offshore Norway 3.60 n/a OneSubsea Counter Axial OneSubsea 2001 Subsea Gas Compression 2 Ormen Lange Gas Compression Pilot CP Testing 1 train @ Nyhamna, Norway Shell Offshore Norway 860 2,821 0.0 0.0 25,000 3,776 60.0 870 12.50 58.00 n/a Aker Solutions 1 Centrifugal GE Compr/Aker Pump 2011 CONFIGURATION 1: Water Injection with Subsea Pumps 3 Aasgard - Midgard & Mikkel Fields O Subsea Gas Compression Statoil Offshore Norway 300 984 40.0 25.0 20,000 3,021 50.0 725 11.50 24.40 n/a Aker Solutions 2+1 Spare +1 Centrifugal MAN/Aker pumps 9/17/15 1-Mar-16 5.4 8 4 Gullfaks South Brent (25) O Subsea Wet Gas Compression Statoil Offshore Norway 135 443 15.5 9.7 9,600 1,450 30.0 435 5.00 10.00 95% OneSubsea 2 + 1 Spare Counter Axial OneSubsea 10/12/15 1-Mar-16 4.6 Power Transmission/Distribution and Controls Basic 3P (Oil + Gas + Water) Boosting 5 Ormen Lange Gas Compression C Subsea Gas Compression Norske Shell Offshore Norway 860 2,821 120.0 75.0 50,000 7,553 60.0 870 12.50 n/a TBA 2 Centrifugal TBA 2021 + 3P Flowline Miscellaneous Information/Combination of Technologies 6 Troll C Subsea Gas Compression Statoil Offshore Norway 340 1,116 4.0 2.5 n/a TBA Undecided TBA 2016 7 Peon C Subsea Gas Compression Statoil Offshore Norway 385 1,263 TBD TBD TBD TBD + Production Wells SUBSEA GAS COMPRESSION 8 Snohvit C Subsea Gas Compression Statoil Barents Sea 345 1,132 143.0 89.4 TBD n/a TBA TBA 2020 TABLE 3 – ACRONYMS & 9 Shtokman C Subsea Gas Compression Barents Sea 350 1,148 565.0 353.1 TBD n/a TBA Centrifugal TBA 2022 ABBREVIATIONS 10 Aasgard - Midgard & Mikkel Fields C Subsea Gas Compression - Phase 2 Statoil Offshore Norway 300 984 40.0 25.0 12,000 60.0 11.50 24.40 n/a Aker Solutions 2+1 Spare +1 Centrifugal MAN/Aker pumps 2021 1P One (Single) Phase (i.e. Gas or Oil or Water) 1 Prezioso (18) A MPP at Base of Platform Italy 50 164 0.0 0.0 65.0 10 40.0 580 0.15 30-90% Saipem 1 Twin-Screw Nuovo Pignone (9) 1994 1995 1 Courtesy of Aker Solutions 9 2P Two Phase (i.e. Oil + Water) 2 Draugen Field A SMUBS Project, 1 MUTUP A/S Norske Shell Offshore Norway 270 886 6.0 3.7 193.0 29 53.3 773 0.75 42% OneSubsea 1 + 1 Spare HSP SPX ClydeUnion Nov-95 15-Nov-96 12.2 6 3P Three Phase (i.e. Oil + Gas + Water) 3 Lufeng 22/1 Field (10) A Tieback to FPSO Statoil South China Sea 330 1,083 1.0 0.6 675.0 102 35.0 508 0.40 3% OneSubsea / FMC Tech. 5+2 Spare Centrifugal (SPP) OneSubsea Jan-98 15-Jul-09 138.0 7 AC Alternate Current Fig. 17: Seafloor Boosting System Using ASD Adjustable Speed Drive 4 Machar Field (ETAP Project) A Hydraulic Drive MPP BP Amoco UK North Sea 85 277 35.2 21.9 1,100.0 166 22.0 319 0.65 64% OneSubsea 2+1 Spare Helico-Axial OneSubsea ESPs in Caissons BCSS Centrifugal Subsea Submersible Pump 5 Topacio Field O 1 x Dual MPP System ExxonMobil Equatorial Guinea 550 1,805 8.0 5.0 940.0 142 35.0 508 0.86 75% OneSubsea 2+1 Spare Helico-Axial OneSubsea Aug-00 1-Mar-16 186.1 BOET British Offshore Engineering Technology 6 Ceiba C3 + C4 O Phase 1 SS MPP Project Hess Equatorial Guinea 750 2,461 7.0 4.3 600.0 91 45.0 653 0.85 75% OneSubsea 2+1 Spare Helico-Axial OneSubsea Oct-02 1-Mar-16 160.2 BPD Barrels per Day 7 Jubarte EWT A Riser lift to Seillean drillship Espirito Santo Basin 1,400 4,593 1.4 0.9 145.0 22 140.0 2,000 0.70 22% FMC Technologies 1 ESP Schlumberger (REDA) Dec-02 1-Dec-06 47.9 9 BOPD Barrels of Oil per Day BWPD Barrels of Water per Day 8 Ceiba Field (FFD) O Full Field Development (FFD) Hess Equatorial Guinea 700 2,297 14.5 9.0 2,500.0 378 40.0 580 1.20 75% OneSubsea 6+ 2 Spare Helico-Axial OneSubsea Dec-03 1-Mar-16 146.2 COSSP Configurable Subsea Separation & Pumping 9 Mutineer/Exeter (16) O 2 x Single MPP Systems Santos NW Shelf, Australia 145 476 7.0 4.3 1,200.0 181 30.0 435 1.10 0-40% OneSubsea 2 MPP Helico-Axial OneSubsea (16) Mar-05 1-Mar-16 131.3 CSSP Centrifugal Subsea Submersible Pump 10 Lyell (Original Install) A SS Tieback to Ninian South CNR UK North Sea 146 479 15.0 9.3 1,100.0 166 18.0 261 1.60 40-70% Aker Solutions 1 Twin Screw Bornemann SMPC 9 Jan-06 Dec-06 11.0 DC Direct Current 11 Navajo (17) I, N ESP in Flowline Riser Anadarko US GOM 1,110 3,642 7.2 4.5 24.0 4 40.2 583 0.75 57% Baker Hughes 1 ESP Baker Hughes Feb-07 1-Aug-07 5.5 DGC Dry Gas Compressor 12 A Seabed ESP-MOBO, Uses BCSS (14) Petrobras Espirito Santo Basin 1,350 4,429 4.0 2.5 120.0 18 138.0 2,002 0.90 10-40% FMC Technologies 1 ESP Schlumberger (REDA) Mar-07 Aug-07 5.0 ESP Electrical Submersible Pump Jubarte Field - Phase 1 (22) 12 Courtesy of Baker Hughes FFD Full Field Development 13 Brenda & Nicol Fields O MultiManifold with 1 MPP Premier Oil UK North Sea 145 476 8.5 5.3 800.0 121 19.0 276 1.10 75% OneSubsea 1+1 Spare Helico-Axial OneSubsea Apr-07 1-Mar-16 106.3 5 FPSO Floating, Production, Storage & Offloading 14 King (7) (8) A SS Tieback to Marlin TLP Freeport McMoRan US GOM 1,700 5,578 29.0 18.0 496.5 75 50.0 725 1.30 0-95% Aker Solutions 2+1 Spare Twin-Screw ITT Bornemann / Loher Nov-07 15-Feb-09 15.0 Fig. 18: OneSubsea – Loadout of the Shell FPU Floating Production Unit 15 Vincent O Dual MPP System Woodside NW Shelf, Australia 475 1,558 3.0 1.9 2,400.0 363 42.0 609 1.80 25-70% OneSubsea 2+2 Spare Helico-Axial OneSubsea Aug-10 1-Mar-13 30.9 GVF Gas Volume Fraction Draugen Pump Station 16 A SBMS-500 SS Field Test Petrobras Campos Basin 1,900 6,234 3.1 1.9 500.0 75 60.0 870 1.20 0-100% Curtiss-Wright/OneSubsea 1 Twin-Screw Leistritz HPHT High Pressure, High Temperature Marlim HSP Hydraulic Submersible Pump 17 Golfinho Field O Seabed ESP-MOBO, Uses BCSS (14) Petrobras Espirito Santo Basin 1,350 4,429 11.0 6.8 146.0 22 138.0 2,002 1.20 10-40% Schlumberger (REDA) (35) 2 ESP Baker Hughes (35) Mar-07 Aug-07 5.0 HV High Voltage 18 Azurite Field A Dual MPP System Murphy Oil Congo, W. Africa 1,338 4,390 3.0 1.9 350.0 53 41.0 595 0.85 28% OneSubsea 2+1 Spare Helico-Axial OneSubsea Sep-10 1-Oct-13 36.5 JIP Joint Industry Project 19 Golfinho Field I, N MOBO BCSS (ESP) Caissons (14) Petrobras Espirito Santo Basin 1,350 4,429 5.0 3.1 146.0 22 138.0 2,002 1.20 10-40% Schlumberger (REDA) (35) 2 ESP Baker Hughes Mar-07 Aug-07 5.0 2 JSM Jack and St. Malo 20 Espadarte (Field Trial) A Horizontal ESP on Skid Petrobras Brazil 1,350 4,429 11.5 7.1 125.0 19 100.0 1,450 0.90 10-40% FMC Technologies 2 ESP Baker Hughes Dec-11 Mar-13 14.5 MOBO Modulo de Bombas (Pumping Module) 3 MPP Multiphase Pump 21 Parque Das Conchas (BC 10) Phase 1 (20) O Caisson / Artifical Non-Separated Shell Campos Basin 2,150 7,054 9.0 5.6 185.0 28 152 2,205 1.10 40% FMC Technologies 2 ESP Baker Hughes Jul-09 1-Mar-16 79.4 MW Mega Watts 22 Parque Das Conchas (BC-10) Phase 2 (20) O 2 additional ESP systems Shell Campos Basin 2,150 7,054 9.0 5.6 185.0 28 152 2,205 1.10 40% FMC Technologies 2 ESP Baker Hughes Oct-13 1-Mar-16 28.5 CONFIGURATION 3A: OTC Offshore Technology Conference 23 Parque Das Conchas (BC-10) Phase 2 (20) O Replacement MPP system Shell Campos Basin 2,150 7,054 9.0 5.6 185.0 28 40% FMC Technologies 1 FMC Technologies O/W Oil and Water 24 Jubarte Field - Phase 2 (22) O Tieback to FPSO P-57, Uses BCSS (14) Petrobras Espirito Santo Basin 1,400 4,593 8.0 5.0 1,325.0 200 200 3,000 1.20 30-40% Aker Solutions 15 ESP Schlumberger (REDA) 6-Dec-10 1-Mar-16 62.7 Subsea 3P Separation PLEM Pipeline End Manifold 25 Cascade & Chinook (6) I, N Skid BCSS - Horizontal ESP on Skid Petrobras US GOM 2,484 8,150 8.0 5.0 135.0 20 220.0 3,191 1.10 10% FMC Technologies 4+2 Spare ESP Baker Hughes Q4 2013 1-Mar-16 + Gas Compression PLET Pipeline End Termination Courtesy of OneSubsea 1 PLIM Pipeline Inline Manifold 26 Barracuda (29) O SS MP High Boost Pump System Petrobras Campos Basin 1,040 3,412 10.5 6.5 280.0 42 70.0 1,015 1.50 35-60% OneSubsea 1 Helico-Axial OneSubsea 14-Jul-12 1-Mar-16 43.5 + 1P Boosting PSIG Pipeline Simulation Interest Group FULL WELLSTREAM SUBSEA BOOSTING 27 Montanazo & Lubina O Single MPP System Repsol Mediterranean 740 2,428 12.3 7.6 80.0 12 65.0 943 0.23 10% OneSubsea 1 + 1 Spare Centrifugal (SPP) OneSubsea 15-Jan-14 1-Mar-16 25.4 + 1P Gas Flowline Fig. 19: GE Multiphase Boosting System PWRI Produced Water Reinjection 28 Schiehallion I, N 2 x Dual MPP Systems BP UK, West of Shetland 400 1,312 4.0 2.5 2,700.0 408 26.0 377 1.80 74% GE / OneSubsea 4+0 Spare Helico-Axial OneSubsea 2014 Delayed Start Up QGEP Queiroz Galvao Exploracao e Producao + 1P Oil Flowline ROV Remotely Operated Vehicle 29 CLOV (19) O Subsea MPP System TOTAL Angola, Blk 17 1,170 3,839 11.0 6.8 660.0 100 45.0 652 2.30 50% OneSubsea 2+1 Spare Helico-Axial OneSubsea 6/15/14 1-Mar-16 20.5 RWI Raw Water Injection EXCLUDES DOWNHOLE ESPs) 2. NOTE SEABED & RISER ONLY, 1. (NOTE 30 Jack & St. Malo I, N 3 x Single SPP Systems (JSM) Chevron US GOM 2,134 7,000 13.0 21.0 1,191.0 180 241.3 3,500 3.00 10% OneSubsea 3+2 Spare Centrifugal (SPP) OneSubsea 2016 + 1P Water Injection (2 Options) SCM Subsea Control Module 31 Lyell Retrofit O MPP Retrofit System - Tieback to Ninian CNR UK North Sea 145 476 7.0 4.3 700.0 106 21.0 305 1.00 97% OneSubsea 1 Helico-Axial OneSubsea Q4 2014 1-Mar-16 Option 1 – Produced Water Injection System SIT System Integration Testing 32 GirRi (Girassol) (24) O Field Expansion Project Total Angola, Blk 17 1,350 4,429 18.0 11.2 600.0 91 130.0 1,885 2.50 20-50% OneSubsea 4+2 Spare Helico-Axial OneSubsea Q2 2015 1-Mar-16 SMUBS Shell Multiphase Underwater Boost Station Using a 1P WI Pump, 33 M 2 x Dual HiBoost MPP Stations A/S Norske Shell Offshore Norway 268 879 4.0 2.5 1,710.0 253 47.5 689 2.30 10-31% OneSubsea 2 Helico-Axial OneSubsea Mid - 2015 SPP Single Phase Pump Draugen Field SRSWI Subsea Raw Seawater Injection 34 Julia M SS Tieback with Dual SPP Systems ExxonMobil US GOM 2,287 7,500 27.2 17.0 331 50 175.0 2,550 3.00 10% OneSubsea 2 Centrifugal (SPP) TBD Mid - 2016 5 Option 2 – Treated Sea Water Injection System SS Subsea 35 Moho Phase 1bis M Brownfield Tieback to Alima FPU Total Congo, W. Africa 650 2,133 6.7 4.0 400 60 133.5 1,935 3.50 49% OneSubsea 2 Helico-Axial OneSubsea Q4 2015 Using a 1P WI Pump SSBI Subsea Separation Boosting Injection 36 Atlanta Field C Caisson Application QGEP (23) Santos Basin, Blk BS-4 1,500 4,922 TBD ESP 2015 SSP Subsea Processing 37 M Single Phase HPHT Pump System Shell US GOM 2,927 9,600 5.0 3.1 TBD TBD TBD TBD TBD <10% TBD 2 +1 Spare TBD TBD 2018 SUBSIS Subsea Separation and Injection System Stones SUTA Subsea Umbilical Termination Assembly 38 Appomattox C MPP in future Phases Shell US GOM 2,222 7,290 TBD TBD Courtesy of GE 1 SWIT Subsea Water Intake and Treatment 39 Parque Das Baleias O Horizontal ESP on Skid (14) Petrobras Espirito Santo Basin 1,500 4,922 10.0 6.2 125.0 19 100 1,450 1.20 10-25% FMC Technologies 5 +1 Spare ESP Schlumberger (REDA) 3/19/14 1-Mar-16 23.4 TLP Tension Leg Platform 40 Vigdis C Subsea Boosting of existing wells Statoil Offshore Norway 280 919 6.5 4.1 50.0 725 2.30 2.30 20-40% TBA 1 TBD TBA 2021 10 TRL Technology Readiness Level Fig. 20: Seafloor 1 O SUBSIS (SS Sep. and WI Sys.) NorskHydro AS Offshore Norway 340 1,116 3.5 2.2 250.0 38 151.0 2,190 1.60 0% GE / OneSubsea 1+1 Spare Centrifugal (SPP) OneSubsea Aug-01 1-Mar-16 173.8 TSP Twin Screw Pump Troll C Pilot (15) (21) Boosting Using TUTA Topside Umbilical Termination Assembly 2 Columba E. I, N Dual SPP System CNR North Sea 145 476 7.0 4.3 331.0 50 305.0 4,424 2.30 0% OneSubsea 2+0 Spare Centrifugal (SPP) OneSubsea May-07 1-Oct-13 76.4 ESP in Caisson VA Volt Ampere 3 Tordis (WI) (13) O Dual SPP & SS RWI Filtration System Statoil Offshore Norway 210 689 11.0 6.8 700.0 106 77.0 1,117 2.30 0% FMC Technologies 1+1 Spare SPP&MPP OneSubsea Oct-07 1-Mar-16 100.3 Fig. 21: HSP

VASPS V ertical Annular Separation and Pumping WATER for Mudline

SUBSEA 4 Tyrihans O 3 SPP & SS RWI Filtration System Statoil Offshore Norway 270 886 31.0 19.3 583.0 88 205.0 2,973 2.70 0% FMC / Aker Solutions 2+1 Spare Centrifugal (SPP) Aker Solutions 12-Mar-13 1-Mar-16 35.6

System INJECTION 5 O Raw Water Injection to 7 Wells Petrobras Campos Basin, Brazil 400 1,312 4 to 9 2.5-6.0 1125 170 85 1,233 1.2 0% OneSubsea 3+1 Spare Centrifugal (SPP) OneSubsea Q1 2013 1-Mar-16 0.0 Boosting VSD Variable Speed Drive Albacora L'Este Field (30) WD Water Depth 1 Zakum A Shallow Water Test Separation System BP Offshore Abu Dhabi 24 79 1969 1972 36 WGC Wet Gas Compressor 2 Highlander Field (31) A SS Separator / Slug Catcher Texaco UK North Sea 420 1,378 11 WI Water Injection 3 Argyll A SS Sep. and Pumping Unit (SSPU) Hamilton Bros UK North Sea 80 262 BOET (27) 1989 4 WI XT Water Injection Christmas Tree 4 I, N VASPS Field Test (21) Petrobras Campos Basin 395 1,296 1.7 1.1 60.0 9 52.0 754 0.3 OneSubsea 1 ESP Schlumberger (REDA) Jul-01 1-Jul-08 83.0 XT Christmas Tree Marimba Field (21) 5 O Horizontal SUBSIS (SS Sep. & WI Sys.) Hydro (Statoil) Offshore Norway 340 1,116 3.5 2.2 250.0 38 151.0 2,190 1.60 0% GE / OneSubsea 1+1 Spare n/a OneSubsea Aug-01 1-Mar-16 173.8 COURTESY OF Troll C Pilot (15A & 15B) 6 Tordis O (12), Separation, Boosting, WI Statoil Offshore Norway 210 689 11.0 6.8 1,500.0 227 27.0 392 2.30 10-68% FMC Technologies 1+1 Spare Helico-Axial OneSubsea Oct-07 1-Mar-16 100.3 7 Parque Das Conchas (BC 10) Phase 1 (23) O Separation Caisson / Artifical Lift Manifold Shell Campos Basin 2,150 7,054 25.0 15.6 185.0 28 152.0 2,205 1.10 15% FMC Technologies 4 ESP Baker Hughes Centrilift Aug-09 1-Mar-16 78.4 Information Accuracy: We have attempted to use correct Courtesy of Aker 8 Perdido O Caisson Separation and Boosting (28) Shell US GOM 2,438 7,999 0.0 0.0 132-264 20 - 40 158.8 2,303 1.20 15% FMC Technologies 5 ESP Baker Hughes Centrilift Mar-10 1-Mar-16 71.9 5 and current, as of press time, information for the subsea Solutions processing systems and equipment described herein. 9 Pazflor O 3 Gas/Liquid Vertical Separation System Total Angola, Blk 17 800 2,625 4.0 2.5 1,800.0 272 105.0 1,523 2.30 <16% FMC Technologies 6+2 Spare Hybrid H-A OneSubsea Aug-11 1-Mar-16 53.9 No installed, sanctioned, or pending application was 10 Marlim SSAO - Pilot O In-Line Separation Petrobras Campos Basin 878 2,881 3.8 2.4 135.0 20 245 3,553 1.9 67% FMC Technologies 1 Centrifugal (SPP) OneSubsea Mar-13 1-Mar-16 35.0 SUBSEA SEPARATION intentionally excluded. We have summarized the capability 11 Parque Das Conchas (BC 10) Phase 2 (23) M 2 additional ESP systems Shell Campos Basin 2,150 7,054 25.0 15.6 185.0 28 152.0 2,205 1.10 15% FMC Technologies 2 ESP Baker Hughes Centrilift Fig. 22: Fuglesangs Centrifugal Pump and operating experience by acting as a neutral party and 12 Canapu M In-Line Separation by Twister BV Petrobras Espirito Santo Basin 1,700 5,579 CONFIGURATION 2: integrator of information. Information has been collected 13 Corvina (26) CP VASPS (11) w/Horizontal ESP Petrobras Campos Basin 280 919 8.0 5.0 135.0 20 21 305 0.4 <10% FMC Technologies 1 ESP Baker Hughes Centrilift from public sources, company brochures, personal Subsea 2P Separation 3 interviews, phone interviews, press releases, industry CURRENT STATUS CATEGORIES NOTES: 7. King Field: Is a subsea tieback to the Marlin TLP. In 2012, BP sold the field to Plains boosting, injection and solids disposal system. May and July, 2016. The seabed MP boosting pumps will boost flow from: Cravo, Lirio, 26. Canceled Project – Petrobras has determined commercially Congro and Corvina are 1. Qualification Status – See information accuracy statement below title block and note Exploration and Production. McMoran Freeport later purchased the field. Pumps remain 14. BCSS – Centrifugal Subsea Submersible Pumps. Pumps are placed in protective holes in Orquidea, Violeta fields. not feasible. + 2P (Oil & Water) Boosting CONFIGURATION 3B: magazines, vendor-supplied information, and web sites. C Conceptual Project No guarantee is made that information is accurate or that the qualification status categorizations shown in this table, and throughout the shut-in due to operational issues. The company is reportedly considering to redo the the seabed, 200m from producing wells. MOBO - Modulo de Bombas (Pumping Module) 20. Parque Das Conchas (BC 10) Phase 1 – Composed of 3 reservoirs: Ostra, Abalone and 27. BOET – British Offshore Engineering Technology Q Qualified/Testing poster, are based on unverified claims from equipment suppliers and field operators. boosting system. 15A. Troll C Pilot – Separation began on Aug. 25, 2001. See OTC paper 20619, page 10 for Argonauta B-West. Argonauta O-North to be added in Phase 2. 28. Peridido – Cassion for separation is 350 feet long drilled into the seabed. Read OTC + Free Flow Gas all-inclusive. Neither INTECSEA nor Offshore Magazine These qualification status designations are not necessarily derived using technology 8. King Field: HV cables are incorporated within the service umbilical. further details on operating experience. Note that injection pump data is only shown in 21. Marimba VASPS - 2000 – First installation in Marimba (JIP Petrobras/Eni-Agip/ Paper 21716 Subsea WI Line (Produced Water Courtesy M Awarded and in Manufacturing or Delivered 9 guarantees or assumes any responsibility or liability for any readiness level (TRL) assessments per API RP 17Q or DNV-RP-A203. 9. Nuovo Pignone is now part of GE. the subsea water injection section of the table. ExxonMobil, 2001 - Startup and Operation (July to Dec.) until ESP failure, 2002 End of 29. Barracuda – Is the first installation of high boost MPP. Ref. 2013 OTC Paper 24217 for + 1P Gas Flowline or Treated Seawater) of ClydeUnion O Installed & Currently Operating 2. Pumping & Boosting: The terms “Pumping” and “Boosting” are used interchangeably 10. Lufeng 22/1: Low wellhead pressure of 100 psig at seabed dictated that 15B. SUBSIS – The world's longest operating subsea separation system and first subsea JIP, By-pass production, 2003 - Workover Plan (IWP), 2004 - Workover and Re-start on additional information about the MPP. Pump (SPX Flow) party’s use of the information throughout this poster and in the industry. was required. System has now been decomissioned due to field economics, after 11 water injection pump system. May 8, 2004. From 2005 until 2008 VASPS operated until well failure. 30. Albacora Field – Ref. 2013 OTC Paper 24167 + 1P Oil Flowliine + Seawater Filter presented. If any information POSTER I,N Installed & Not Currently Operating or In-Active 3. Unit Motor Power: Is the unit motor power for either a pump or compressor motor. years of operation. 16. Mutineer/Exeter Projects: Manufacturers are: OneSubsea and Centrilift. There are 2 22. Jubarte Field (Phase 2) – Phased installations starting in 2010 and completed in 2015. 31. Highlander Field – SS Tieback to the Tartan Field which has a SS separator/slug is found to be incorrect, not A Abandoned, Removed 4. Differential Pressure: Differential Pressure values are for individual pumps. 11. VASPS – Vertical Annular Separation and Pumping System ESPs per well feeding 1 x OneSubsea MPP per asset on seafloor. Wells were connected to the FPSO P-57. All wells will have gas-lift as a backup. catcher installed for the tie-in to the Tartan Platform + Production Wells 5. GVF = Gas Volume Fraction at inlet of pump. 12. START: Month & Year indicates first month and year of operation for the SS processing 17. Navajo Field: Is a Subsea tieback to Anadarko's Nansen spar. 23. QGEP – Queiroz Galvao Exploracao e Producao 32. Petrobras changed ESP supplier from Baker Hughes to Schlumberger (REDA) January + WI Pump current, or has been omitted, CP Canceled Project 6. Cascade & Chinook – Utilizes horizontal ESPs on a skid above mudline. It is an system. 18. PREZIOSO – World's first deployment of an electrically driven twin screw MPP operating 24. Girassol – 2 MPPs on production loop P70 are in production, 2 MPPs P80 loop will be 2015. 1 of each still has a Baker Hughes ESP as of February 2015. + WI Trees please send comments to alternative ESP boosting configuration to caisson in the seabed. This technology 13. Tordis Field: 1+1 Spare Multiphase Boosting Pumps, and 1+1 Spare Water Injection on a live well. Testing occurred in 1994 and 1995 for a total of 7,850 hours of operation commissioned mid-May 2016. GirRI is: Girassol Resources Initiatives. Courtesy of is designed to cover the low GVF and high DeltaP multiphase flow. Pump cartridge Pumps; Tieback to Gullfaks C platform. Statoil hopes to increase oil recovery from 49% at base of platform on seafloor. 25. Gullfaks – According to Statoil the subsea gas compression plant will add some 306 4 9 [email protected]. successfully installed Q4 2013. to 55%, an additional 36 MMBO, due to the world's first commercial subsea separation, 19. CLOV – Two (2) MPPs are on the sea floor since Dec. 2015. Startup is planned between million barrels of oil equivalent to total output over the field’s life. Note 1: Equipment shown in Fig. 1 Subsea Processing Configurations are representative only. Actual equipment may be physically different in appearance. Note 2: Circled call out numbers refer to hardware examples as indicated throughout the poster, to the bottom right of applicable images. Fuglesangs 123 ©2016 Offshore CHART 1 – SUBSEA SUPPLIER MATRIX (As of Feb., 2016) SUBSEA PROCESSING COURTESY OF Fig. 2: Siemens SpecTRON 10 Wet-Mate Connectors Fig. 3: Siemens Wet-Mate SpecTRON 8 Note: The Siemens Subsea Power Grid is shown in Fig. 3, with the main building blocks in Figs. 4, 5, and 6. SUBSEA POWER CONNECTORS SUBSEA POWER DISTRIBUTION EQUIPMENT Wet mate 36kV connectors and control system will also be part of the Siemens Subsea Power Grid. SUBSEA GAS COMPRESSION SYSTEMS Fig. 7: Asgard Subsea Compression Module TYPES: WET-MATE AND DRY-MATE Fig. 1: Ormen Lange Pilot SS Circuit Breaker Fig. 2: Conceptual SS HV Circuit Breaker 60 VA Fig. 3: Siemens Conceptual Subsea Power Grid Fig. 4: Siemens SS Transformer Fig. 5: Siemens Conceptual Fig. 6: Siemens Conceptual SS Fig. 1: Ormen Lange Pilot Compression Station Fig. 3: FMC Technologies Conceptual 2-Train Dry Fig. 5: Asgard SS Compression Support Structure SUBSEA SEAWATER SUBSEA INTEGRATED OTHER Gas Compression Station with Replaceable Modules in Transit to Field SUBSEA SUBSEA GAS HV & CONTROL TESTING Prototype at Shallow Water Test SS Variable Speed Drive Switchgear TREATMENT & SEPARATION SUBSEA SUPPORTING BOOSTING COMPRESSION AC/DC POWER SYSTEMS FACILITIES Fig.1: GE MECON WM 36/500 Wet-Mate Connectors INJECTION (3) SYSTEMS SYSTEM SUPPLIERS SYSTEMS Fig. 5 Fig. 6 PUMP ELECTRIC COMPRESSION POWER ASDS/VSDS, HV AKER SOLUTIONS AKER SOLUTIONS AKER SOLUTIONS Fig. 4 PUMP AKER SOLUTIONS AKER SOLUTIONS FORSYS UMBILICALS PENETRATORS akersolutions.com akersolutions.com akersolutions.com SYSTEM MOTOR SYSTEM COMPRESSORS FMC TECHNOLOGIES/ CABLES X-FORMERS CONNECTORS MANUFACTURERS akersolutions.com akersolutions.com PACKAGERS MANUFACTURERS PACKAGERS & SWITCHGEAR BAKER HUGHES ALPHA THAMES BAKER HUGHES AKER SOLUTIONS AKER SOLUTIONS/ AKER SOLUTIONS BAKER HUGHES ASCOM (7) AKER SOLUTIONS DRESSERXXXXXXXXX RAND AKER SOLUTIONS ABB AKER SOLUTIONS ABB ALSTOM BENESTAD (9) bakerhughes.com alpha-thames.co.uk bakerhughes.com ONESUBSEA/SUBSEA 7 akersolutions.com BAKER HUGHES (1) akersolutions.com bakerhughes.com ascomseparation.com akersolutions.com dresser-rand.comXXXXXXXXX akersolutions.com abb.com akersolutions.com abb.com alstom.com benestad.com akersolutions.com Courtesy of Siemens bakerhughes.com FMC TECHNOLOGIES GE FLOWSERVE FMC TECHNOLOGIES (6) CURTISS WRIGHT FMC TECHNOLOGIES/ FMC Technologies FMC TECHNOLOGIES GE ALCATEL BICC BERCA DRAKA BAKER HUGHES DEUTSCH (5) DEUTSCH (5) fmctechnologies.com ge.com flowserve.com SAIPEM/AKER SOLUTIONS Courtesy of Aker Solutions fmctechnologies.com curtisswright.com SULZER (6) fmctechnologies.com fmctechnologies.com ge.com alcatel-lucent.com biccberca.com draka.com bakerhughes.com te.com te.com Courtesy of Siemens FLOWSERVE Courtesy of Siemens 7 fmctechnologies.com Courtesy of Schneider Electric 7 Courtesy of Siemens 8 Courtesy of Siemens Courtesy of Aker Solutions flowserve.com sulzer.com GE NAXYS FMC TECHNOLOGIES Courtesy of Siemens 7 Fig. 9: BlueC 6 Courtesy of Aker Solutions Courtesy of Aker Solutions 6 GE FLOWSERVE GE GE MAN Diesel & Turbo BRUGG FURUKAWA DUCO GE DIAMOULD (10) DIAMOULD (10) ge.com naxys.no fmctechnologies.com 7 Compressor ge.com flowserve.com ge.com ge.com mandieselturbo.com bruggcables.com Furukawa.co.jp technip.com ge.com diamould.com diamould.com Courtesy of FMC Technologies 6 FMC TECHNOLOGIES/ GE Courtesy of GE Fig. 6: Siemens ElecTRON Fig. 7: Siemens Tronic DigiTRON Wet-Mate Fig. 9: Ormen Lange Pilot Fig. 10: 6MVA Subsea Variable RotoConverter™ Fig. 11: Asgard 100 KVA Subsea Fig. 12: GE Type 3 Power Supply, Transmission and SULZER (6) ge.com ONESUBSEA (8) SMARTMOTOR GE Wet-Mate Connectors Connectors Fig. 8: Asgard 19 MVA Subsea Transformer Subsea Pump VSD Alternative to Subsea VSDs Control Power Distribution Module Distribution System Connected to Blue-CTM Compressor Fig. 2: OneSubsea Multiphase Compressor Fig. 8: GE Wet Gas Compression System ONESUBSEA (8) fmctechnologies.com FMC TECHNOLOGIES/ ONESUBSEA (8) ONESUBSEA (8) ONESUBSEA (8) HITACHI MITSUBISHI JDR ONESUBSEA (8) GE GE .com smartmotor.no ge.com Fig. 7: GE 24kV Switchgear Prototype sulzer.com DIRECT DRIVE SYSTEMS Units for Gullfaks Field onesubsea.com fmctechnologies.com onesubsea.com onesubsea.com onesubsea.com hitachi.com mitsubishielectric.com jdrcables.com onesubsea.com ge.com ge.com Module Fig. 4: Asgard SS Compressor Fig. 6: Installation of the OneSubsea (25 MW) ONESUBSEA (8) Fig. 4: GE MECON DM 145/700 Tested in Shallow Water onesubsea.com SCHNEIDER ELECTRIC ITT BORNEMANN ITT BORNEMANN Multiphase Compressor Station for the SIEMENS INDUSTRIAL Dry-Mate Connectors Fig. 5: Siemens SpecTRON 45 Connector GE GE SAIPEM NEXANS NKT NEXANS SCHNEIDER ELECTRIC SEACONXXXXX SIEMENS schneider-electric.com bornemann.com bornemann.com TURBO MACHINERY Gulfaks Field ge.com ge.com saipem.com nexans.com nktcables.com nexans.com schneider-electric.com seaconworldwide.com energy.siemens.com SAIPEM turbomachinerysolutions.com saipem.com seawater and does not include typical water SIEMENS LEISTRITZ ONESUBSEA FUGLESANGS SUBSEA (12) ITT BORNEMANN HAYWARD TYLER TWISTER BV NSW OKONITE OCEANEERING SIEMENS SIEMENS TELEDYNE D.G.O’BRIEN energy.siemens.com leistritzcorp.com onesubsea.com fusbsea.com bornemann.com haywardtyler.com twisterbv.com injection using a pump on a topside facility. nsw.com okonite.com oceaneering.com energy.siemens.com energy.siemens.com dgo.com SEABOX (13) 4. Liestritz have partnered with sea-box.no for potential twin screw PETROBRAS ATALAIA LAB PROLAB (11) LEISTRITZ (4) ONESUBSEA (8) LOHER (2) marinization. PRYSMIAN SUMITOMO PARKER TELEDYNE ODI TELEDYNE ODI (Brazil) prolabnl.com leistritzcorp.com onesubsea.com automation.siemens.com NOTES: 5. Deutsch is part of TE Connectivity. prysmiangroup.com global-sei.com parker.com odi.com odi.com 1. Baker Hughes Inc. and Aker Solutions have 6. Sulzer and FMC Technologies have formed SHELL GASMER STATOIL: P-LAB & K-LAB formed a non-incorporated alliance for subsea 9. Benestad is an Aker Solutions company. SCHLUMBERGER ClydeUnion (SPX FLOW) ONESUBSEA (8) a long-term and exclusive collaboration company RuhRPumpen to develop advanced (Houston, TX) (Norway) slb.com spxflow.com onesubsea.com production and processing systems. 10. Diamould is a OneSubsea company. agreement. subsea centrifugal pump solutions, under 2. Loher is a Siemens company. 7. ASCOM is a Sulzer company. 11. PROLAB is a Sulzer company. the Fuglesangs Subsea brand. SOUTHWEST RESEARCH SULZER (6) 3. Subsea seawater injection refers to only those 8. OneSubsea is a Cameron and Schlumberger 12. Fuglesangs Subsea AS have announced a col- INSTITUTE 13. SEABOX™ is now an NOV company. sulzer.com Courtesy of GE Courtesy of Siemens Courtesy of Siemens Courtesy of Siemens Courtesy of GE Courtesy of GE Courtesy of Aker Solutions Courtesy of Aker Solutions Courtesy of Aker Solutions Courtesy of GE Courtesy of OneSubsea Courtesy of MAN Diesel & Turbo Courtesy of OneSubsea Courtesy of GE Courtesy of GE projects utilizing a subsea pump to inject joint venture Company. laborative agreement with the German pump swri.org 7 8 7 7 8 6 6 6 6 6

OCEANS COVER 285 BILLION BARRELS OF THE WORLD’S KNOWN OIL RESERVES – OFFSHORE COVERS THEM ALL. ™ FOCUS ON THE The world’s first and only true subsea multiphase wet gas compressor. Seabox Enabling longer step-outs, increased recovery, and lower CAPEX and MULTIPHASE COMPRESSOR field development costs. World Trends and Technology Learn more about our leading technology at Reduce your subsea NEW INTEGRATION + INFORMATION + MANAGEMENT for Offshore Oil and Gas Operations operation costs and Game-changing. High-performing. Cost-effective. TECHNOLOGY www.onesubsea.com/multiphasecompressor FOCUS HOUSTON, TEXAS increase recovery. Enabling Subsea Processing by WWW.PNECCONFERENCES.COM MAY 17-19, 2016 MARRIOTT HOUSTON WESTCHASE 20th International Conference on Data Discover more at nov.com/seabox Connecting Innovation with Experience Integration, Information and Data Management AD02092OSS siemens.com/energy/subsea © 2016 National Oilwell Varco | All Rights Reserved

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