|
Featured Report:
World Floating Production Market :: Douglas-Westwood: June 2009
Automotive
Batteries & Fuel Cells
Chemical Industry & Markets
Coal
Energy
Maps
Metals
Nuclear
Oil & Gas
Petroleum
Power
Renewables
Custom Research
Energy Events & Conferences
Contact
Terms & Conditions
Privacy
Business Market Research
Financial Market Research
Pharmaceutical Market Research
Telecoms Market Research
|
Home > Market Research > Oil & Gas > World Floating Production Market: 2009-2013 :: Douglas-Westwood
Floating production has proved a cost-effective method of developing both marginal and world-class offshore fields worldwide. As the offshore industry continues to progress into deeper waters these systems are also a key enabler for the production of hydrocarbons in ever-increasing water depths. In the past five years, 93 floating production units of varying types have been installed. In the next five years, we forecast the installation of 121 floaters. The World Floating Production Market Report provides an essential overview of current and future prospects over the 2009-2013 period and forecasts expenditure in what is now a multi-billion dollar business.
The World Floating Production Market Report 2009-2013 by energy business consultants Douglas-Westwood provides the industry executive with an overview of future prospects within the floating production sector.
The report covers all types of floaters; FPSOs, FPSSs, spars, TLPs, etc. and is unique in providing an essential understanding of the FPS business, the technology and a forecast of global markets.
It analyses historic and future FPS installations over the period 2004-2013 by region, operator, water depth and vessel type.
The report looks at the technologies involved in each sector of the floating production industry. The economic rationale for use of floaters and their evolution is explained. The current floating production market is analysed together with factors affecting supply and demand including re-deployment issues and regional disparities.
Existing designs of floater and new innovative concepts are described, together with the factors driving innovation in this dynamic market sector.
The World Floating Production Market Report uses a specially developed market model and proprietary data to generate forecasts of numbers of floating production systems in each region of the world.
Data is shown by region and covers the period to 2013.
Document Contents
Summary & Conclusions – an executive overview of the study. Forecasts of future FPS installations by region and vessel type 2009-2013 and of the associated market value.
Floating Production Systems – the importance of FPSs for offshore developments; floater types - FPSOs, production barges, FPSSs, TLPs, spars.
FPS Applications, Drivers & Alternatives – EWT, EPS, life-of-field & hub-and-spoke developments. Alternative development technologies including compliant towers, subsea processing & control buoys.
FPS topsides – design factors; topsides equipment and functions - processing, injection & flow assurance, wellhead & drilling, utilities & accommodation; topsides installation.
Moorings & risers – mooring systems including spread, semi-taut, tension leg, turret and DP configurations; suction anchors, vertically loaded anchors, synthetic ropes. Riser technologies – top-tensioned, SCRs, flexibles & hybrid systems.
The supply of FPS units – the newbuild, upgrade & redeployment, and conversion options; FPS leasing; construction & conversion problems; the influence of globalization and local content requirements and the impact of speculative construction.
Floating Storage & Offloading Vessels – rationale, applications and supply options including leasing. Overview of global FSO fleet - historic and future.
Innovative FPS concepts – drivers for innovation; designs based on FPSOs, FPSSs, TLPs, spars, FPDSOs & other concepts including floating LNG and GTL systems.
FPS regions – overview of the global FPS fleet 2004-2008 by region, vessel type, water depth and operator. Profiles of regional activity – Africa, Asia, Australasia, Latin America, North America and Western Europe - and their future prospects.
FPS case studies – descriptions of FPS-led projects featuring examples of each floater type in the various regions of the world.
The FPS Market – historic & forecast demand in the FPS market (2004-2013). Vessel numbers & Capex by type and region; leading operators and the deepwater segment.
Appendices – data set of identified future FPS-based field development prospects 2009-2013; Profiles of leading companies in the FPS sector.
Top of Page
Table of Contents
1 Summary and Conclusions 17
1.1 Introduction . 18
1.2 Summary .. 18
1.3 Conclusions 22
2 Floating Production Systems 24
2.1 Introduction . 25
2.2 Field development for FPS 26
2.3 Floating Production, Storage and Offloading 26
2.4 Barge FPS 31
2.5 Semi-submersible FPS . 32
2.6 Tension Leg Platform FPS . 35
2.7 Spar FPS 41
2.8 Summary .. 45
3 FPS Applications, Drivers and Alternatives . 46
3.1 FPS Applications . 47
3.2 FPS Drivers . 52
3.3 Alternatives to Floating Production . 55
4 Topside Facilities . 60
4.1 Factors Impacting on FPS Topsides Design .. 61
4.2 Topsides Functions 61
4.3 Topsides Installation . 69
5 Moorings, Dynamic Positioning and Risers . 71
5.1 Introduction . 72
5.2 Mooring Systems . 72
5.3 Anchors . 76
5.4 Turret Mooring Systems . 78
5.5 Dynamic Positioning .. 82
5.6 Riser Technologies . 84
6 The Supply of FPS Units .. 91
6.1 Introduction . 92
6.2 Gaps in the supply chain . 97
6.3 FPS Construction Facilities . 100
6.4 Newbuilds, Conversions, Upgrades and Redeployments 103
6.5 FPS Leasing .. 114
7 Floating Storage and Offloading Vessels 121
7.1 Introduction .. 122
7.2 FSO Supply Options 125
7.3 The Global FSO Fleet .. 127
8 Innovative Floating Production Concepts .. 130
8.1 Introduction – The Drivers for Innovation .. 131
8.2 Dynamic Positioning 132
8.3 Hull Materials 134
8.4 Semi-submersible Production Platforms 138
8.5 Tension Leg Platform Production Platforms 141
8.6 Spar Production Platforms .. 144
8.7 Floating Drilling and Production .. 148
8.8 Circular Hull designs .. 151
8.9 Floating LNG & GTL facilities . 154
8.10 Oil & Gas Production in the Arctic . 156
9 Global & Regional Overview of the FPS Sector .. 158
9.1 Introduction .. 159
9.2 The Global FPS Fleet by Region .. 160
9.3 The Global FPS Fleet by Vessel Type 2004-2013 .. 161
9.4 Water Depth Distribution of the Global FPS Fleet 2004-2013 161
9.5 Major Operators in the FPS Sector 2009-2013 163
9.6 Africa 163
9.7 Asia 166
9.8 Australasia 167
9.9 Latin America .. 168
9.10 North America . 171
9.11 Western Europe . 174
10 FPS Case Studies . 177
10.1 Introduction .. 178
10.2 Petrobras’ Tupi .. 178
10.3 Petrobras’ Roncador .. 179
10.4 Totals’ Pazflor . 182
10.5 Shells’ Perdido 184
10.6 Helix Energy Solutions’ Phoenix . 187
10.7 Eni Norge’s Goliat 189
11 The Floating Production Market 2009-2013 . 191
11.1 Introduction .. 192
11.2 The Forecasting Process . 192
11.3 Pricing Procedures .. 192
11.4 The Potential for Upside .. 192
11.5 Timing of Installation and Expenditure Forecasts 193
11.6 FPSOs .. 194
11.7 Forecast FPSO Installations by Supply Type .. 195
11.8 FPSSs .. 196
11.9 Spars 197
11.10 TLPs 198
11.11 FSOs 199
11.12 Africa 200
11.13 Asia .. 201
11.14 Australasia .. 202
11.15 E. Europe & FSU .. 203
11.16 Latin America . 204
11.17 Middle East .. 205
11.18 North America 206
11.19 Western Europe 207
11.20 The Global FPS Market by Vessel Type . 208
11.21 The Global FPS Market by Region. 209
11.22 Leading Operators in the FPS Market . 210
11.23 The Deepwater FPS Market 212
12 APPENDIX 1 - Profiles of FPS Companies 214
12.1 ABB (Switzerland) . 215
12.2 Advanced Production & Loading (Norway) .. 215
12.3 Aker Solutions (Norway) 215
12.4 Aker Floating Production (Norway) 215
12.5 Amec (UK) .. 216
12.6 Anadarko Petroleum Corporation (USA) . 216
12.7 A.P. Moller-Maersk Group (Denmark) 216
12.8 Atlantia Offshore (USA) . 216
12.9 ATP Oil & Gas Corporation (USA) .. 217
12.10 Bluewater (Netherlands) .. 217
12.11 BW Offshore (Norway) .. 217
12.12 China Ocean Shipping Company (China) . 217
12.13 Cuming Corporation (USA) 217
12.14 Consafe Engineering (UK) . 217
12.15 Daewoo Shipbuilding & Marine Engineering (Korea) 217
12.16 Delmar (USA) . 218
12.17 Dry Docks World (United Arab Emirates) . 218
12.18 Excelerate Energy (USA) 218
12.19 Flex LNG (UK) 218
12.20 Flotation Technologies (USA) . 218
12.21 FloaTEC (USA) .. 218
12.22 FPS Ocean (Norway) . 218
12.23 Fred Olson Group (Norway) . 218
12.24 Frontier Drilling (Norway) .. 219
12.25 Griffin-Woodhouse (UK) . 219
12.26 Gulf Island Fabricators (USA) . 219
12.27 Gusto MSC .. 219
12.28 GVA Consultants (Sweden) .. 219
12.29 Heerema Marine Contractors (Netherlands) .. 219
12.30 Helix Energy Solutions Group (USA).. 219
12.31 Hoegh LNG (Norway) 220
12.32 Hyundai Heavy Industries (Korea) 220
12.33 IHC Merwede (Netherlands) .. 220
12.34 IHI Corporation (Japan) .. 220
12.35 Intec Engineering (USA) . 220
12.36 IOS Offshore (Norway) . 220
12.37 Irving Shipbuilding (Canada) .. 220
12.38 J. Ray McDermott (USA) . 220
12.39 Kellogg Brown & Root (USA) .. 221
12.40 Keppel Offshore & Marine, Keppel FELS (Singapore) . 221
12.41 Kiewit Offshore Services (USA) . 221
12.42 Leirvik Emtunga (Sweden) . 221
12.43 Lincoln Composites (USA) . 222
12.44 Matrix Composites & Engineering (Australia) 222
12.45 McNulty Offshore (UK) . 222
12.46 Mitsui Ocean Development & Engineering Company (Japan) . 222
12.47 Nexus Floating Production (Norway) .. 222
12.48 NKT Flexibles (Denmark) 222
12.49 Offshore Ship Designers Group (Netherlands) . 222
12.50 Prosafe (Norway) . 223
12.51 Ramboll (Denmark) . 223
12.52 Rubicon Offshore International (Singapore) .. 223
12.53 Samsung Heavy Industries (Korea).. 223
12.54 Songa Production (Norway) .. 223
12.55 Saipem (Italy) . 223
12.56 SBM Offshore (Netherlands) . 224
12.57 SBM Imodco (USA) . 224
12.58 Scana Industrier (Norway) . 224
12.59 Sea Drill (Norway) 224
12.60 Sea Production AS (Norway) 224
12.61 Sembawang Marine & Offshore Engineering (Singapore) . 224
12.62 Sevan Marine (Norway) 225
12.63 SOFEC (USA) . 225
12.64 STX Europe (Norway) 225
12.65 Tanker Pacific Offshore Terminals (Singapore) 225
12.66 Technip (France) .. 225
12.67 Teekay Corporation (Norway) .. 225
12.68 Trelleborg (Sweden) .. 226
12.69 Yantai-Raffles Shipyards . 226
Figures
Figure 1: FPS Installations & Prospects 2004-2013 by Region 19
Figure 2: Report Editions Comparison by Order Year Expenditure 21
Figure 3: Report Editions Comparison - Installation Year Expenditure 21
Figure 4: FPS Capex 2009-2013 by Vessel Type 22
Figure 5: Global FPS Installations by Region 2004-2013 ($ billion) .. 23
Figure 6: Regional Shares of FPS Capex 2009-2013 23
Figure 7: Offshore Production Systems 25
Figure 8: Loading of process plant onto an FPSO vessel 25
Figure 9: Subsea field development using an FPSO . 26
Figure 10: The P-54 FPSO on Petrobras’ Roncador Field . 28
Figure 11: Regional Distribution of FPSO Deployments to Date . 28
Figure 12: Operational FPSOs by Region 29
Figure 13: FPSO Installations & Prospects 2004-2013 by Region . 30
Figure 14: Operators of FPSO Installations & Prospects 2004-2013 31
Figure 15: The FPSO II on the Marlim Sul Field .. 31
Figure 16: The West Seno production barge . 32
Figure 17: The back-deck of the NOR Supporter 32
Figure 18: The Balmoral FPSS (left) and Petrobras' P-18 FPS (right) . 33
Figure 19: Semi-submersible FPS Installations by Region . 33
Figure 20: The Northern Producer heading for McNulty Offshore .. 34
Figure 21: Semi-submersible FPS Installations and Prospects 2004-2013 35
Figure 22: The Hutton TLP .. 35
Figure 23: The Brutus TLP FPS under construction .. 36
Figure 24: The Mars TLP FPS after four hours in the eye of Katrina 37
Figure 25: The SeaStar TLP FPS concept.. 39
Figure 26: The Typhoon TLP after capsize in 2005 39
Figure 27: Regional Distribution of TLP Prospects 2009-2013 . 40
Figure 28: Topsides Installation on the Neptune Spar .. 41
Figure 29: The Perdido Spar being installed .. 42
Figure 30: A Truss Spar 43
Figure 31: Crystal Ocean FPSO .. 47
Figure 32: The BW Cidade de São Vicente 48
Figure 33: The Discoverer Enterprise drillship .. 48
Figure 34: Location map of the Casablanca Field .. 49
Figure 35: The Petrojarl Varg FPSO .. 50
Figure 36: The Maersk Guardian jackup drilling platform 50
Figure 37: The Independence Hub FPS being towed out to field 51
Figure 38: A possible Subsea Field Layout . 52
Figure 39: Deep Water – Oil and Gas Offshore Production Forecast to 2013 . 53
Figure 40: The Maersk Inspirer jack-up in transit to the Volve Field .. 54
Figure 41: Capixaba FPSO . 55
Figure 42: The Petronius Compliant Tower 56
Figure 43: Schematic of the Mensa Project 57
Figure 44 Control Buoy for East Spar 58
Figure 45: Ocean Resources Sea Commander Control Buoy .. 59
Figure 46: MppT – Bi-Phase Rotary Separator Turbine .. 62
Figure 47: A cleaning and gauging pig for Ormen Lange 65
Figure 48: Subsea Pig launcher 66
Figure 49: The West Alliance (foreground left) . 67
Figure 50: Modern offshore accommodation . 68
Figure 51: 4,400 tonne capacity Specialized Lifting Device (SLD) . 69
Figure 52: Technip's Unideck Platform . 70
Figure 53: Catenary and Taut-Leg Mooring Systems 72
Figure 54: Wire rope 73
Figure 55 Studded mooring chain 74
Figure 56: 274mm diameter Superline installed on the Shell BC10 project .. 74
Figure 57: Schematic Showing the Snorre TLP’s Tendons at the Seabed . 75
Figure 58: Deepest TLP Installations by Year 1984-2009 .. 76
Figure 59 160-tonne suction anchor prior to installation .. 77
Figure 60: Installation of a Vertically Loaded Anchor (VLA) .. 77
Figure 61: FPSO Swivel Stack .. 79
Figure 62: External Turret mooring system . 79
Figure 63: Internal turret system at the bow of the Tui FPSO 80
Figure 64: Yoke FPSO mooring System .. 80
Figure 65: LNG yoke mooring (disconnected) .. 81
Figure 66: Submerged Turret Buoy in connected position .. 81
Figure 67: Connection of a Ballgrab mooring connector, monitored by ROV 82
Figure 68: DP Console .. 82
Figure 69: Basic forces and motions on a vessel 83
Figure 70: Azimuthing stern thrusters on the FPSO Seillean 83
Figure 71: Heerma’s “Balder” semi-submersible installing SCR .. 85
Figure 72: The Subsea 7 “Seven Oceans” vessel receiving pipe 86
Figure 73: The Subsea 7 “Skandi Navica” reel-lay vessel .. 86
Figure 74: The multitude of layers in a “Flextreme” flexible riser . 87
Figure 75: The Lazy Wave configuration . 88
Figure 76: Kristin FPS Topsides on Boabarge 19 being towed into position . 93
Figure 77: The Kristen hull and topsides connected .. 93
Figure 78: The “DB-50” derrick barge 93
Figure 79: Bulkhead cable penetration assembly 94
Figure 80: Riser hook-up on a deepwater FPSO . 94
Figure 81: Addition of a bow turret to the former Amazing Falcon VLCC 95
Figure 82: The Saipem 7000 heavylift vessel with folded cranes 95
Figure 83: Terex CC 2800-1 crawler (600 tonne capacity) . 98
Figure 85: Howaldtswerke Deutsche Werft shipyard overhead gantry crane 98
Figure 86: Floating sheer-leg crane transferring a load to shore . 98
Figure 87: Super-heavy lift vessel Thialf & heavy transport vessel 99
Figure 88: SSP-300 hull being loaded onto a heavy transport vessel .. 99
Figure 89: The “Stella” single point mooring buoy in the Bonga field . 102
Figure 90: Chevron’s Kuito Project off Angola 104
Figure 91: The Glas Dowr FPSO – An Upgraded FPS .. 105
Figure 92: The topsides of the former Hutton TLP on heavy transport barge 106
Figure 93: Bluewater’s Haewene Brim FPSO . 108
Figure 94: Example Production Profiles for FPS Substitution . 109
Figure 95: The Petrojarl Foinaven FPSO .. 112
Figure 96: The Schiehallion FPSO 113
Figure 97: The Petrojarl I FPSO. 115
Figure 98: The Navion Saga FSO Vessel . 122
Figure 99: The Ta’kuntah FSO 123
Figure 100: The helideck of the YOHO terminal FSO . 123
Figure 101: The Okha FSO .. 124
Figure 102: The Åsgard C FSO . 124
Figure 103: The Nordic Apollo in the Banff field 125
Figure 104: The next generation ABB Azipod . 127
Figure 105: Historic & Prospective FSO Installations by Region .. 128
Figure 106: Number of FSO Installations by Region 2004-2013 .. 129
Figure 107: Regional Share of FSO Installations: 2004-2008 and 2009-2013 129
Figure 108: DP Console . 132
Figure 109: Basic forces and motions used in Dynamic Positioning .. 133
Figure 110: Azimuthing stern thrusters on the FPSO Seillean .. 133
Figure 111: The concrete hulled SS Arthur Talbot 134
Figure 112: The Heidrun platform . 136
Figure 113: The Troll “B” platform . 136
Figure 114: Inside one of the legs of Troll “A” . 136
Figure 115: The N’Kossa Production Barge . 137
Figure 116: The hull of the N’Kossa under construction 137
Figure 117: Deep Draft Semi-submersible design 138
Figure 118: Construction of the Exmar Offshore “OPTI-EX” 139
Figure 119: Truss Semi .. 139
Figure 120: Extended-Semi.. 139
Figure 121 The Technip Extendable Draft Platform . 140
Figure 122: The MODEC Central Pontoon Semi .. 140
Figure 123: ATP Octabuoy design 141
Figure 124: The FloaTEC Extended TLP design .. 141
Figure 125: The Magnolia ETLP 142
Figure 126: The MODECSSIP design. 142
Figure 127: SBM Atlantia's FourStar design 143
Figure 128: SBM Atlantia's SeaStar (tow-out installation) 143
Figure 129: Construction of the Red Hawk Spar .. 144
Figure 130: Topside of the Red Hawk Spar . 144
Figure 131: MiniDOC 3 145
Figure 132: MiniDOC 3T 145
Figure 133: Atlantis ABS 145
Figure 134: The FloaTEC Single Column Floater . 146
Figure 135: The Devils Tower being transported to the USA . 147
Figure 136: The FloaTEC Truss spar with ring hard tank . 147
Figure 137: The Azurite FDPSO 148
Figure 138: The Multi Purpose Floater (FDPSO) .. 148
Figure 139: The Dynamic Producer under construction late 2008 149
Figure 140: Drilling version of the ABS .. 150
Figure 141: Production version of the ABS .. 150
Figure 142: SSP Operating as an FPSO .. 151
Figure 143: Accommodation SSP . 151
Figure 144: FPSO Sevan Voyageur . 152
Figure 145: Aker Solutions Tentech Buoyform .. 153
Figure 146: The OPE SS-320 . 153
Figure 147: Energy Bridge concept .. 155
Figure 148: Flex LNG liquefaction and transport concept vessels .. 156
Figure 149: Historic FPS Installations & Prospects 1975-2013 . 159
Figure 150: Historic FPS Installations & Prospects by Region .. 160
Figure 151: FPS Installations & Prospects by Region 160
Figure 152: Global FPS Installations & Prospects by Vessel Type . 161
Figure 153: WD Distribution of FPS Installations 2004-2008 by Region .. 161
Figure 154: WD Distribution of FPS Prospects 2009-2013 by Region .. 162
Figure 155: Historic Deepwater FPS Installations & Prospects by FPS Type 162
Figure 156: Leading Operators in the FPS Sector 2009-2013 .. 163
Figure 157: FPS Prospects off Africa 2004-2013 by Vessel Type 163
Figure 158: African FPS Installations & Prospects by Water Depth 164
Figure 159: BP’s Greater Plutonio FPSO .. 165
Figure 160: FPS Prospects off Asia 2004-2013 by Vessel Type .. 166
Figure 161: FPS Prospects off Australasia 2004-2013 by Vessel Type 168
Figure 162: FPS Installations & Prospects off Latin America by Vessel Type 169
Figure 163: FPS Installations & Prospects off Brazil by Water Depth 169
Figure 164: Schematic of Shell’s Bijupirá/Salema Project 170
Figure 165: Recent FPSO Installations in Brazil’s Campos Basin 170
Figure 166: The Terra Nova FPSO .. 171
Figure 167: US GoM Prospects 2004-2013 by Water Depth .. 172
Figure 168: North American FPS Installations & Prospects by Vessel Type .. 173
Figure 169: Atlantia SeaStar TLP concept 173
Figure 170: The Åsgard B FPSS 175
Figure 171: FPS Installations & Prospects off W. Europe by Vessel Type .. 175
Figure 172: Sevan SSP300 .. 176
Figure 173: Tupi Location . 178
Figure 174: BW Cidade de São Vicente 178
Figure 175: Module and facility layout . 180
Figure 176: P-36 Semi-submersible FSO prior to capsize 180
Figure 177: Roncador Field Layout (Module 1A Phase 2) 181
Figure 178: Roncador subsea gas injection manifold . 181
Figure 179: Pazflor location . 182
Figure 180: Technips Deep Blue pipeline installation vessel .. 183
Figure 181: Perdido development layout .. 184
Figure 182: Ballgrab connectors awaiting deployment .. 185
Figure 183: The Mighty Servant 1 with the Perdido Spar . 185
Figure 184: The Perdido Spar being up-ended by the Balder 186
Figure 185: The Olympic Intervention IV subsea construction vessel 186
Figure 186: The Thialf and the Perdido Spar .. 186
Figure 187: Mangapinna Squid .. 187
Figure 188: Phoenix field layout . 187
Figure 189: Helix Producer 1 .. 188
Figure 190: The Disconnectable Transfer System 189
Figure 191: Location of Goliat . 189
Figure 192: Goliat FPSO 190
Figure 193: FPSO Installations by Region 2004-2013 ($ million) . 194
Figure 194: FPSO Capex by Supply Type 2009-2013 ($ million) . 195
Figure 195: FPSS Installations by Region 2004-2013 ($ million) . 196
Figure 196: Spar Installations by Region 2004-2013 ($ million) 197
Figure 197: TLP Installations by Region 2004-2013 ($ million) . 198
Figure 198: FSO Installations by Region 2004-2013 ($ million) 199
Figure 199: FPS Installations off Africa 2004-2013 ($ million) 200
Figure 200: Asia FPS Installations 2004-2013 ($ million) . 201
Figure 201: Australasia FPS Installations 2004-2013 ($ million) .. 202
Figure 202: E. Europe & FSU FPS Installations 2004-2013 ($ million) . 203
Figure 203: Latin America FPS Installations 2004-2013 ($ million) . 204
Figure 204: Middle East FPS Installations 2004-2013 ($ million) . 205
Figure 205: North America FPS Installations 2004-2013 ($ million) 206
Figure 206: Western Europe FPS Installations 2004-2013 ($ million) 207
Figure 207: Global FPS Installations by Vessel Type 2004-2013 ($ billion) 208
Figure 208: Global FPS Installations by Region 2004-2013 ($ million) . 209
Figure 209: Regional Shares of FPS Capex 2009-2013 209
Figure 210: Leading FPS Operators 2004-2013 ($ million) . 210
Figure 211: Leading FPS Operators 2009-2013 by Vessel Type . 211
Figure 212: Leading FPS Operators 2009-2013 by Region. 211
Figure 213: Deepwater FPS Installations by Vessel Type ($ million) . 212
Figure 214: Regional Distribution of Deepwater FPS Capex 2004-2013 . 213
Figure 215: Regional Distribution of Deepwater FPS Capex .. 213
Tables
Table 1: FPS Installations, Prospects and Forecasts (2004-2013) 19
Table 2: Changes Since the Previous Forecast 21
Table 3: Global FPS Installations by Region 2004-2013 (Units) . 22
Table 4: FPSO Operational by region 29
Table 5: Semi-submersible FPS Deployments by Operator .. 34
Table 6: Advantages & Disadvantages of Dry Completion Units . 35
Table 7: TLP Deployments to Date (end of 2008) .. 38
Table 8: Identified TLP Prospects 2009-2013 40
Table 9: Historic and Prospective TLP Deployments by Operator . 41
Table 10: Spar FPS Deployments to Date .. 43
Table 11: Identified Spar Prospects 2009-2013 44
Table 12: Historic and Prosepctive Spar Deployments by Operator . 44
Table 13: Summary of FPS Types .. 45
Table 14: FPSOs and FPSSs Expected to End Service in 2009-2013 .. 110
Table 15: Leading Leasing Contractors & their FPSOs . 118
Table 16: Leased FPSOs from Other Significant Players . 119
Table 17: First FSO Deployments in Major Offshore Regions 127
Table 18: FPS Prospects off Africa 2009-2013 by Country . 165
Table 19: FPS Prospects off Asia 2009-2013 by Country 167
Table 20: FPS Prospects off Australasia 2009-2013 by Country . 168
Table 21: FPS Prospects off Western Europe 2009-2013 by Country .. 176
Table 22: FPSO Installations by Region 2004-2013 194
Table 23: FPSO Installations by Region 2004-2013 ($ million) . 194
Table 24: Forecast FPSO Installations 2009-2013 by Supply Type (Units) 195
Table 25: FPSS Installations by Region 2004-2013 196
Table 26: FPSS Installations by Region 2004-2013 ($ million).. 196
Table 27: Spar Installations by Region 2004-2013 .. 197
Table 28: Spar Installations by Region 2004-2013 ($ million) 197
Table 29: TLP Installations by Region 2004-2013 198
Table 30: TLP Installations by Region 2004-2013 ($ million) . 198
Table 31: FSO Installations by Region 2004-2013 .. 199
Table 32: FSO Installations by Region 2004-2013 ($ million) . 199
Table 33: FPS Installations off Africa 2004-2013 .. 200
Table 34: FPS Installations off Africa 2004-2013 ($ million) 200
Table 35: Asia FPS Installations 2004-2013 201
Table 36: Asia FPS Installations 2004-2013 ($ million) . 201
Table 37: Australasia FPS Installations 2004-2013 . 202
Table 38: Australasia FPS Installations 2004-2013 ($ million) .. 202
Table 39: E. Europe & FSU FPS Installations 2004-2013 203
Table 40: E. Europe & FSU FPS Installations 2004-2013 ($ million).. 203
Table 41: Latin America FPS Installations 2004-2013 204
Table 42: Latin America FPS Installations 2004-2013 ($ million) . 204
Table 43: Middle East FPS Installations 2004-2013 205
Table 44: Middle East FPS Installations 2004-2013 ($ million) . 205
Table 45: North America FPS Installations 2004-2013 .. 206
Table 46: North America FPS Installations 2004-2013 ($ million) 206
Table 47: Western Europe FPS Installations 2004-2013 .. 207
Table 48: Western Europe FPS Installations 2004-2013 ($ million) 207
Table 49: Global FPS Installations by Vessel Type 2004-2013 . 208
Table 50: Global FPS Installations by Vessel Type 2004-2013 ($ million) .. 208
Table 51: Global FPS Installations by Region 2004-2013 209
Table 52: Global FPS Installations by Region 2004-2013 ($ million) . 209
Table 53: Leading FPS Operators 2004-2013 (Units & Capex $ million) . 210
Table 54: Deepwater FPS Installations by Vessel Type 2004-2013 212
Table 55: Deepwater FPS Installations by Vessel Type ($ million) . 212
Table 56: Deepwater Installations by Region 2004-2013 (units) .. 213
Table 57: Deepwater Installations by Region 2004-2013 (Capex) .. 213
For full details, please email keithw@cmsinfo.com
Top of Page
Buy now!
Top of Page
|
|
