 | Subsea Processing & Pumping Systems | T084-EN011 | ||
REVISION 06 | STATUS C |  | ||
 |
| 06 | 30/04/19 | MPI | Approved | CGA | VLE | - | HEK |
| 05 | 22/03/19 | MPI | Re-Issued for Approval | CGA | VLE | - | HEK |
| 04 | 12/02/08 | GCO | Approved | ABG | AAL | BCA | - |
| 03 | 21/09/07 | GCO | Issued For Approval | ABG | AAL | BCA | - |
| 02 | 11/06/07 | GCO | Issued For Comments | ABG | AAL | BCA | - |
| 01 | 31/05/07 | GCO | Issued For Comments | ABG | AAL | BCA | - |
| 00 | 30/04/07 | GCO | Internal Check | ABG | AAL | - | - |
| Rev. | Date | Issued by | Revision memo | Checked by | Approved by | ||
|---|---|---|---|---|---|---|---|
| Engineer approval | Total approval | ||||||
Contents
List of Figures
- 3.1. Gravity Separator featuring Gas By-pass System (Norwegian Demo 2000 programme)
- 3.2. In-line Cyclonic Separator Schematic
- 3.3. In-line Three Phase Separation Skid with Booster Pumps (surface application)
- 3.4. Pipe-Separator Test Rig
- 3.5. FMC Subsea Separation System Study featuring Pipe-Separator
- 3.6. SpoolSep subsea separator (SAIPEM)
- 3.7. CEC unit (surface application)
- 3.8. Troll Pilot Liquid Separation Principle
- 3.9. The Troll Pilot Separator and details of the "snail"
- 3.10. Troll Pilot System
- 3.11. Sand Removal System
- 3.12. Water Injection Pump and Pump Module (OneSubsea)
- 3.13. The Tordis Development
- 3.14. The SSBI System Principle (FMC)
- 3.15. The Tordis SSBI System
- 3.16. Tordis SSBI System Design Basis
- 3.17. The Tordis SSBI Separator and Details of the Sand Jetting System
- 3.18. Marlim SSAO
- 3.19. Marlim Subsea Separation System Diagram
- 4.1. Raw Seawater Injection System for Albacore (OneSubsea)
- 4.2. Raw Seawater Injection System being installed for Columbia E Field (OneSubsea)
- 4.3. LiquidBooster system for Tyrihans (Aker Solutions)
- 4.4. The SWIT subsea module (by courtesy of Well Processing)
- 4.5. The SWIT process
- 4.6. SWIT water treatment unit (left) and water injection pump (right)
- 4.7. SEABOX (NOV)
- 4.8. SWIT water treatment & injection unit
- 4.9. BHGE conceptual Subsea Sulphate Removal and Injection System
- 4.10. SRINGSTM process (Saipem-Veolia-Total)
- 4.11. SRINGSTM subsea architecture (Saipem-Veolia-Total)
- 4.12. SRINGSTM subsea station arrangement (Saipem-Veolia-Total)
- 5.1. In-line Gas/Liquid Cyclonic Separator Schematic
- 5.2. The Vertical Annular Separation (VASP) Concept
- 5.3. Marimba VASPS System Process
- 5.4. System Overview
- 5.5. VASPS Subsea Hardware
- 5.6. VASPS Separator Assembly
- 5.7. The Separator Helix
- 5.8. ESP Overview
- 5.9. VASPS System Installation
- 5.10. The subsea separation caissons with their ESPs
- 5.11. MPP for BC-10 (TechnipFMC)
- 5.12. The Perdido project development
- 5.13. Pazflor Development featuring three Subsea Separation Units (Miocene)
- 5.14. Pazflor Subsea Separation Unit Process Flow Diagram Overview
- 6.1. Typical Subsea Gas Compression System Diagram (FMC Kongsberg)
- 6.2. Siemens ECOII Compressor (Siemens / FMC Kongsberg)
- 6.3. Compressor Details (including diaphragm component – GE Oil & Gas)
- 6.4. Ormen Lange Subsea Gas Compression System (AkerSolutions)
- 6.5. Asgard Subsea Gas Compression System (AkerSolutions)
- 6.6. Gullfaks Wet Compression Station (OneSubsea)
- 7.1. Weir Hydraulic Submersible Pump
- 7.2. ESP Overview
- 7.3. Installation of ESP on Petrobras RJS-477 well (Albacora)
- 7.4. Petrobras Jubarte Field (Phase 1) – Downhole or Dummy Well Alternatives of the ESP
- 7.5. Jubarte Field Phase 1 – Dummy Well Selected Location of the ESP (FMC Technologies)
- 8.1. Internals of the Helico-axial pump (Technology developed by IFP, Total & Statoil)
- 8.2. MPP Mechanical Design
- 8.3. Hydraulic Driven MPP (Sulzer)
- 8.4. Electric Driven MPP (Sulzer)
- 8.5. Framo Electric Driven Subsea Multiphase Pump
- 8.6. Sulzer Subsea Multiphase Pump
- 8.7. Shaft power Evolution (Offshore Magazine, February 2017)
- 8.8. DP Evolution (courtesy of OneSubsea)
- 8.9. Casing Rated Pressure Evolution (psi)
- 8.10. Water Depth Evolution (courtesy of OneSubsea)
- 8.11. All TOTAL Subsea Boosting Applications until 2019
- 8.12. All OSS Subsea Pumping Applications Worldwide.
- 8.13. All OSS Subsea Pumping Applications Worldwide
- 8.14. OSS Pumps Portfolio
- 8.15. OSS Pumps Main Components
- 8.16. OSS latest applications.
- 8.17. Sulzer Pump Technologies.
- 8.18. Sulzer Pump Range Map – Single Phase Liquid Water
- 8.19. Sulzer Pump Range Map – Single Phase Liquid Oil
- 8.20. Sulzer Pump Range Map – Multiphase
- 8.21. Sulzer/TPFMC first applications.
- 8.22. Sulzer/TPFMC application to come in 2019.
- 8.23. Sulzer / TPFMC Pump Module Illustrations.
- 8.24. AKSO MPP hydraulic.
- 8.25. AKSO MPP with impellers in back-to-back arrangement.
- 8.26. AKSO Liquid-filled induction motor - 2 Poles motor, 6.6kV - 6MW / 6000rpm.
- 8.27. AKSO new motor winding cable.
- 8.28. AKSO Subsea Pumps Portfolio at Q2/2019
- 8.29. AKSO Multibooster Capabilities.
- 8.30. Typical topside equipment needed for a conventional MPP system versus the MCP
- 8.31. View of the MCP modular concept
- 8.32. Twin Screw Pump Principle
- 8.33. Aker Kvaerner "MultiBooster" Subsea Pump installed in the Lyell field
- 8.34. BP King Field MultiBooster Pump Module
- 8.35. SBMS-500 System
- 8.36. SBMS-500 Motor/Pump (Leistritz)
- 9.1. Chemical Storage Station general arrangement
- 9.2. Subsea Chemical Storage System (SCSS) by Seatools
- 9.3. Subsea Chemical Storage by NOV (MEG only)
- 9.4. OceanWorks Subsea Fluid Injection System
List of Tables
