1 1 Tigor M H GKU ITB Apr 26,10 Platform Concept in Offshore Development Faculty of Civil and Environmental Engineering of Bandung Institute of Technology April 26, 2010 Tigor Martahan Hutabarat* Lead Structure Engineer *) Guest Lecture for Prof. Ricky Tawekal PhD Reference: 1. Steve Balint, Overview of Deepwater Structures Design, Shell Malaysia, Miri January 2007 2. Tigor M.H, Subsea Wellhead Foundation, Shell EPA Structure Forum, Miri Nov 2007 3. N.D.P Barltrop, Floating Structure, a guide for design and analysis 2 Tigor M H GKU ITB Apr 26,10 TOPICS • Platform Concepts • Field Development • Fixed Offshore Platform • Deep Water Design Compliant Tower TLP SPAR Semi submersible FPSO • Riser and Pipeline • Subsea Wellhead
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1Tigor M HGKU ITB Apr 26,10
Platform Concept in Offshore Development
Faculty of Civil and Environmental Engineering of Bandung Institute of Technology
April 26, 2010
Tigor Martahan Hutabarat*Lead Structure Engineer
*) Guest Lecture for Prof. Ricky Tawekal PhD Reference:1. Steve Balint, Overview of Deepwater Structures Design, Shell Malaysia, Miri January 20072. Tigor M.H, Subsea Wellhead Foundation, Shell EPA Structure Forum, Miri Nov 20073. N.D.P Barltrop, Floating Structure, a guide for design and analysis
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TOPICS• Platform Concepts• Field Development • Fixed Offshore Platform• Deep Water Design
Compliant Tower TLPSPARSemi submersibleFPSO
• Riser and Pipeline• Subsea Wellhead
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Offshore Development Options
FixedPlatform
CompliantTower
TLP SPAR FPSO SubseaCompletion
[ ]{ } [ ]{ } [ ]{ } { }FxKxCxM =++ &&&
Dynamic Response of Offshore Platforms
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Development Strategy
Field development strategy• Create sub-surface( reservoir )
Leadership and CommitmentPolicy and Strategic ObjectivesOrganization and ResourcesRisk Evaluation and ManagementPlanningMonitoring and ImplementationAudit and Review
Safety Continual Improvement
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Platform Concept Elements in the oil/gas production process include• Wellhead
Surface/ dry wellheadSubsea wellhead
• Production Manifold • Production Separator• Glycol process to dry gas, • Gas Compressor • Water injection pumps • Oil/gas export metering and • Main online pumps. • Production and Storage
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Oil and Gas Production Overview
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Wellhead- Casing Design
Conductor
Surface Casing
Production Tubing
Production casing
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Block Development Options
18" x 100 km
ADGF PLEM
BELANAKFPSO/ FSO
KERISI
24" x 93 km
WHP-K
KERISIPLEM
NORTH BELUT
WHP-D
WHP-C
22" x 10 km
gas phase - 16" x 37 kmliquid phase - 12" x 37 km
gas phase - 16" x 23 kmliquid phase - 12" x 23 km
DUYONG
CPP
16" x 0.5 km
MALAYSIA
INDONESIA
HIUSUBSEA
CPP
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Hub Option
101Ubah (Block G)
78Malikai (Block G)
179TOTAL
Oil (MMbbl)SFR (100%)
Discovered volumes (incr. to Sabah Gas)
Ubah
Malikai
N
Sabah GasFields
Malikai
NUbah
Slide: 1
Sabah Gas Pro ject – La rg e Sca le In frastructu re Sco pe
Kinabalu
Erb W est
Samarang
Sarawak – Sabah Gas Pipeline750 MMscf/ d, 530km
Onshore gas plant with condensate export and pipeline gas compression.
24” gas pipeline
Kebabangan Hub Drilling, Processing & Link platforms750 MMscf/ d, Condensate 20kb/ d WD 130m, 13 wells, Compression
Kumunsu East Subsea tieback, W D = 800 m, 5wells
Kumunsu East U & UCSubsea tieback, W D = 1100m, 6wells
Pipeline 34” Multiphase
34” gas pipelineKBB-SOGT 125km
2x18”
2x18”
MLNG
SOGT
SOGT Condensate slug catchers, gas condensate stabilisation
MLNG25 mtpa, 4 bcf/ d
2x18”
Sabah Gas Project Scope
Sabah Gas: Gas custody transfer poi nt
Sabah Gas: Condensate custody transfer point
KBB
Malikai ? ? ? ?
Ubah Crest
?
Malikai is marginal as a tie-back to KBBUbah is subeconomic (TLVC highlighted upside potential which is being tested by appraisal well in 2008)
Other prospects with Shell interests include Leban (Block G)
Northern Area Development plan has been compiled
Malikai
Ubah
Leban
Kebabangan HubGas 750 MMscfpd
Oil 80 kbopd
GJ
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Key Challenges and Needs• Reduced CAPEX for (small) tie-back fields
Structure Design CriteriaStructure Design BriefWeighing Control Procedure
• CALCULATION NOTEIn Place AnalysisSeismic AnalysisFatigue AnalysisLoad Out AnalysisTransportation AnalysisJacket On Bottom Stability and Mudmat DesignPile Drivability Analysis Cathodic ProtectionWeight Control ReportMaterial take off- MTODeck Local check / Miscellaneous Calculation
• DRAWINGStandard DrawingMain and Secondary framingDetail drawing PDMS model
LEAD/ SENIOR STRUCTURE ENGINEER
SENIOR STRUCTURE ENG.STRUCTURE ENG.
SENIOR DESIGN STRUCTURE ENG.DESIGN STRUCTURE ENG.
RESPONSIBILITY
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Deep Water Development Floating Platform Advantage • Well testing can be extended and overlap with production to know long term
production rate without committing the large risk of field specific platform Disadvantage • Move too much in larger waves so that drilling or production may suspended
during storms
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Organization Chart, illustration
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Compliant Tower Main Feature
• Custom design for site specific application
• Single Drilling centre• Surface completed well • Integral drilling / work-over
facilities • No oil storage, pipeline, FSU or
direct tanker loading • Tension rigid riser for production• Flexible or steel catenary for
import/export • Insensitive to topside load • Long development schedule
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Skid-able Platform Rig
Tendons
Production Risers/Wells
Direct Tendon/Pile Connection
Deck & Production EquipmenHull
245’ x 245’ x 40’ high5 separate modules100 MBOPD 150 MMCFD≅ 15,000 tons
H&P Lease≅ 6,000 Tons
8 wells maximum 4 - 13 5/8” risers4 -10 3/4” risers 12 -32” diameter x 1.25”
2900’ long≅ 625 tons each
URSA- type connectors12 piles 82” diameter x 340’ long≅ 245 tons each
• Single Drilling center• Surface completed well• Integral drilling/ work-over
facilities• No Oil Storage, Pipeline, FSU
or direct tanker loading• Tension rigid riser for
production• Flexible or steel catenaries for
import/ export• Sensitive to topside load• Relatively long development
schedule
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Tendon Tension Components
TLP offset:MEAN OFFSET
TENSION
TLP motions:DYNAMICTENSION
MAXIMUM TENSION= mean offset tension
+ dynamic tension+ allowances
PRETENSION= Static Top
Tension
MINIMUM TENSION= mean offset tension
- dynamic tension- allowances
Bottom Tension= top tension- self weight
- the avoidance of wave impacts on the under side of the deck,
- the wave and low frequency horizontal forces and motions,
- the wave and current induced vortices,- the avoidance of slack tethers,- the maximum tether
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Wave Action
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HULL DESIGN - STRENGTH, GUIDELINES, STANDARDS
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HULL DESIGN –Finite Element Model
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SPAR Main Feature
• Custom design for site specific application
• Well OptionSingle Drilling center, surface completed well, integral work-overRemote well completed subsea by specialist vessel
• Export optionIntegral oil storage, export via offshore loading unit No oil storage, pipeline or direct tanker loading
• Tension riser, flexibles or catenary steel riser Flexible or steel catenaries for import/ export
• Medium development schedule
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Spar
Photo
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Semi Submersible • New Built or conversion • Well Option1 Remote subsea with work over by specialist vessel• Well Option 2 Wells below with Integral drilling/ work-over facilities• No storage, pipeline, FSU, direct tanker loading • Sensitive to topside load• Flexible riser, large number flexible • Short to medium development schedule
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Semi Submersible
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FPSO- Floating Production Storage Offshore
MAIN FEATURE • New build or tanker conversion• Remote wells, normally completed
subsea• Drilling/ work-over required special
vessel• Integral Oil Storage and offloading
Flexible riser• Insensitive to topside load• Short development schedule
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FPSO- Turret
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FPSO- Internal Turret
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STRUCTURE-DESIGN PROCESS
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FPSO- Discipline Dream Ships
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Design of Floaters – Naval Architectural Principles
Archimedes Principal “The upward force on a
submerged body in a fluid is equal to the weight of the fluid displaced by the volume of the body”
RELATED ISSUEStendon components / fatigue liferiser components / fatigue lifedeck loading and strengthhull loading and strength
DEEP WATER DESIGN
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Facilities Design Considerations
• Potential equipment height limitations• Limitation of gravity systems caused by inadequate deck height• Maximum use of lightweight equipment• Shared utilities with drilling and hill systems• Loads generated by horizontal, vertical, and rotational movements of TLP
during fabrication, tow out, mooring, and operations.• Damping liquid movement and stabilize process levels• Drain system influence on buoyancy and CG.• TLP hydrodynamics impact • Riser connection locations• Regulatory requirements• Cool flowing temperatures and possible hydrate formation due to extreme
water depth• Potential souring of reservoir due to water injection.• Large power consumption associated with gas compression, product pumping
and water injection.
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Riser System • Production riser• Export and import riser
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Platform Export Riser and Pipeline
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Riser Type •Rigid: Usually steel, nominally vertical, top tensioned pipes•Flexible: usually steel polymer composite pipes hung in a simple or S shape catenary•Metal catenary riser ; steel or possibly titanium pipe hung in catenary
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Deep Water Free Standing hybrid riser SLOR=Single Line Offset riser
COR=Concentric Offset Riser
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Deep Water Free Standing hybrid riser
Seabed
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Malikai seabed features
Sub sea tie back to existing facilities • Custom design for site specific application
• Multiple drilling centre• Remote subsea well • Well work over by specialist vessel• Integral drilling/ work-over facilities• No Oil Storage, oil/gas exported from
determined by host platform• Short development schedule
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Malikai seabed features
Sub sea tie back to existing facilities
Pipeline• 24” Dry gas pipeline• Concrete weight coated• 650 MMscf/day total capacity so ~150 MMscf/d
spare (if operating pressure increased to 204 bara)Flowlines • 2 x 16” CRA wet gas flowlines (design
rate of 550 MMscf/d per flowline)• Scope for 3rd wet gas flowline (2021?)• Scope for additional control umbilical to
Malampaya/Camago
Wells• 5 Development wells• 4 Additional development wells (2009/2010)• Horizontal Xmas tree • 7” production tubing, max rates 200 MMscf/d (erosional velocity constrained) • 30-70 degree deviation• Cased and perforated (crestal interval 120-200 ’ or m? along hole)
Platform• 500 MMscf/d at OGP outlet conditions (conditioned gas)• 32,800 bbl/d condensate• 4,500 bbl/d aqueous phase• 30 yr design life (20-22 yr GSPA's)• 2 x 100% gas export compression• Continuous MeOH injection, MeOH coalescers• Supports for Spare risers (3rd Flowline, Camago, SC-38) & J-tubes
(3 x SSIV, 3 x Control Umbilicals)• Future depletion compression • Future additional facilities for depletion compression (fuel, water,
air)• Future compression re-wheeling • Future methanol injection control skid• Designed for load and space for all above
Subsea Manifold• 10 slot, 2-header manifold (5 slots used)• 2 slots planned for Camago, 2 for Malampaya, 1
"spare"• Electro hydraulic subsea control• 2 x control umbilicals• Tie-in porch for 3rd flowline• Tie-in porch for 3rd umbilical
Onshore Gas Plant• 2x 450 MMscf/d trains• Support systems up to 500 MMscf/d• 1000 ppm H2S• 300 ppm Methanol• Potential component of condensate
offtake scheme to Tabangao• Onshore operation of offshore
platform from Q2 2004
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Malikai
Ubah
Slump scars
TaranganPinitukidan
Morongo
20 km
GumusutPoint source
Rendered 3D image of the NW Borneo Slope
Malikai seabed features
Seabed Relief
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Subsea ArchitectureSubsea Package•Subsea wellhead, trees, PFB•Subsea Control Module•Electro-Control hydraulic Umbilical
BUTA=Bullnose umbilical termination assemblySUTU= Subsea umbilical termination unit TUTU= topside umbilical termination unit