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Ir. Ikhwan Yussoff, PEng. MIEMTechnical Professional, Front End Engineering & Design
Group Technical Solutions, Project Delivery & TechnologyPETRONAS
OFFSHORE TECHNOLOGY AND OPERATIONS (OTO)SESSION NUMBER : 18 - SUBSEA AND OFFSHORE TECHNOLOGIES
ABSTRACT NUMBER : 1133PETRONAS FLOATING LNG - COMPLETING THE LNG VALUE CHAIN THROUGH TECHNOLOGY
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1. PFLNG – The Project Development Background2. PFLNG – The Overview & Business Opportunity3. Why Floating LNG ?4. PFLNG Key Design Parameters5. Project Development Initiations6. PFLNG Technology Screenings7. Possible Offshore Configurations8. Design Selection Criterias9. Key Technology Selections10.PFLNG Construction Sequence11.Safety Considerations12.Advantages & Challenges13.Conclusion
Table of Contents
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Since 2006, PETRONAS has considered many options to monetise the small and stranded gas fields
GTL SSLNG
NGHCNG
TECHNOLOGYOPTIONS TO MONETISE SMALL GAS
FIELDS
FLNG
Gas to LiquidSmall-scale LNG
Liquefaction Plant
Natural Gas HydratesCompressed Natural Gas
Floating LNGCompression ratio : 1/600
FLNG Final Investment Decision (FID) Current Progress Project Status
PFLNG 1 March 2012 100% In Operation
PFLNG 2 January 2014 90% Under Construction
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Floating LNG (FLNG) is:
• An integrated LNG floating production, storage and offloading (FPSO) unit
• Stationed offshore at a gas field to extract natural gas from the wellhead and processed into liquefied natural gas (LNG)
• The produced LNG is stored in the FLNG containment system and is offloaded directly into LNG carriers offshore
• Solution to monetise stranded gas field or as an early production option
• To be proven operationally and may be a widely used solution for future LNG production
Changing the traditional LNG Landscapes
Internal
Gas Production Liquefaction ShippingStorage &
RegasificationOffshore pipelineStorage & offloading
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Global FLNG Projects Overview
Field Location Operator Capacity (Mtpa)
Kanowit Malaysia PETRONAS 1.2
Rotan Malaysia PETRONAS 1.5
Prelude Australia SHELL 3.6
Coral Mozambique ENI 3.4
Offshore Kribi Cameroon PERENCO 2.0
GOM US Gulf DELFIN LNG 13
Etinde Africa NEW AGE LNG 1.2
Fortuna Equatorial Guinea OPHIR 2.2
Browse Australia WOODSIDE 10 - 12
Abadi Indonesia INPEX 2.5
Bonaparte Australia GDF SUEZ 2.3
Cash/ Maple Australia PTT 2
Source: LNG World Shipping, June 2017
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A business opportunity to unlock and monetise stranded gas fields via FLNG
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The resource may be too remote or “far” from a market for natural gas, where construction of a pipeline prohibitively expensive due to seabed condition or “water depth”.
What is stranded gas?
How far is far?
How deep is deep?
In the case of PFLNG, it is fair to define more than 150km from shore line as “FAR”
In the case of PFLNG, it is fair to have more than 200m water depth as “DEEP”
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LNG – Onshore vs Offshore
Onshore Offshore
CAPEX (excluding
production systems)
Extra cost for land, pipeline, jetties, infrastructure
One facility at gas location and direct shipping to LNG buyers
EIA and Permitting Longer process and potentially area limitations
Simpler and easier process expected for offshore locations
Installation & Abandonment Permanent installation Relocatable offshore floating units
Screening of Locations
Limitations by suitability of seafronts, water depth etc.
Can be located at source even if remote area, few restrictions
Homeland Security Close to the population Lower risk, less exposure to public
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Physical Dimension of PFLNG1 & PFLNG2
PFLNG Satu
LBP:321m
LBP: 300m
450
400
350
300
250
200
150
100
50
PETRONAS Twin Towers PFLNG Dua
Level 75
Level 80W : 60m W : 64m
Height (m)Weight PFLNG1 PFLNG2
TS (MT) 46, 500 50, 000
Hull (MT) 85, 000 102, 000
Total (MT) 131, 500 152, 000
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Parameters PFLNG 1 PFLNG 2
Type Shallow Water Deep Water
Water Depth 70-200m 500-1500m
Hull Size 300 m (L) x 60 m (W) x 33 m (D) 333 m (L) x 64 m (W) x 30.5 m (D)
Tonnage 131500 tonnes 152000 tonnes
Train Capacity 1.2 MTPA (200 -230 mmscfd) 1.5 MTPA (270 -300 mmscfd)
Distance from shore 200km 180km
PFLNG Key Design Parameters
TurretLivingQuarter
Inlet & Agru
Liquefaction
Utilities
Flare
Mooring chain
Helideck
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PFLNG 1 & PFLNG 2 Current Picture
Internal
PFLNG1
PFLNG2
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Conceptual DesignConcept selections of major PFLNG components:
• type of LNG process systems• type of cargo containment • type of LNG transfer system• type of mooring system
Front End Engineering DesignDevelopment of detailed PFLNG Project Specifications and Design Basis Memorandum (DBM).
Project Development Initiations
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PFLNG1 technology screening processes prior to receiving Approval in Principal (AiP) during FEED
Loading Arms
Process Plant
LNG Tanks
Turret
Combinationof proven
components
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Possible Configurations
1) Connecting to Central Processing Platform (CPP)
2) Full Well Stream
PLETSeabed Gas Pipeline
Central Processing Platform
FLNG
Satellite Platform
Satellite Platform
Riser
Reservoir
Reservoir
Mooring lines
PLETSeabed Gas Pipeline
FLNG
Riser
Reservoir
Mooring lines
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• Inherent safety design
• Production capacity and field development strategy
• Process robustness, efficiency and reliability
• Proven operational experience on onshore LNG Plant
• Research and development on marinisation
• Sea state conditions (stability and structural integrity)
• Relative sizes of FLNG and LNG Complex
Key Selection Criterias
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• Turret & Mooring System
• Acid Gas Removal (AGR) Process
• Liquefaction Process
• Cargo Containment System
• Marine Loading Arm
Key Technologies
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• Function: to station-keep the FLNG – weathervane• External turret is employed
Turret & Mooring SystemKey Technologies
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• Function: to remove contaminants
• Key parameters considered:
− Reservoir gas compositions. E.g: Could be divided in phases depending on field specific:
Phase 1 = 10 mol% CO2
Phase 2 = 20 mol% CO2
− High availability (marinisation) and other considerations due to motion
− Smaller foot print
− Available technologies such as amine, membrane & hybrid
Acid Gas Removal (AGR) ProcessKey Technologies
Source: UOP/ BASF
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• Function: to liquefy the natural gas
• Several technologies considered from various technology providers; Dual N2, C3/MR, Cascade etc.
• Redundancy for increased availability and robustness
• Rapid ramp-up
• Safety consideration
• N2 is selected due to lean gas field
Liquefaction ProcessKey Technologies
LNG
WarmExpander
MiddleExpander
ColdExpander
Natural Gas
Nitrogen Refrigeration
Source: APCI
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• Function: to store the LNG
• Available technologies: semi-prismatic, moss, membrane etc.
• Considerations:
− Least susceptible to sloshing and Structural Integrity
− Footprint, weight & vessel displacement
− Cost competitiveness
− Operating cost and boil off gas (BOG) efficiency
− Shipyard capability and constructability
Cargo Containment System Key Technologies
Source : GTT, IHI and Moss
Membrane GTT Mark III
Membrane GTT No 96
Independent Moss Type
Independent IHI-SPB
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• Function: to transfer the LNG into the LNGC• Marinised loading arm is employed
Marine Loading Arm Key Technologies
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OFFLOADING SYSTEMS
Side-By-Side
Flexible Aerial Hose
Loading Arm
Tandem
Aerial Hose Floating Hose
Highlight on PFLNG1 Offloading System Screening
Steel Cutting Component Fabrication Pre-outfitting Block Painting
Pre-erection & Super Block Outfitting
Keel LayingHull Launching & Quay Side Outfitting
Block Assembly (~8 weeks) Pre-Outfitting (~2 weeks)
~2 weeks
Pre-Erection(~2 weeks) Super Block Outfitting (~8 weeks)
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Completing Hull Erection from Steel Cutting to Dock Erection
Steel Cutting Assembly & Pre-PE*Block Stage Outfitting
Pre-outfitting*Before Turnover Outfitting
Block Painting
Turnover & PE*Turnover, Outfitting
and Pre-erection
Module Outfitting*Deck Stage
Equipment Installation & Outfitting
Module Outfitting*On Module stage
Ready for Lifting
Assembly (~10 weeks) Pre-Erection (~2 weeks)
~6 weeks ~3 weeks
Turnover of Deck (~1 day) Turnover Outfitting (~2 weeks)
Pre-Erection (~1 week)
Module Outfittin (~10 weeks)
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Completing Topside Erection from Steel Cutting to Lifting Readiness
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Highlights on latest equipment/ technology used in PFLNG.
Safety Considerations
FROG personal transfer systemDeck Integrated Fire Fighting
System (DIFFS)
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• Small and accessible to stranded gas fields
• Faster overall Project schedule as compared to conventional grass root facility
• Early Production System (EPS) for gas
• Mobile and re-locatable
Advantages and where FLNG is applicable
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• No track record / reference
• Marinisation of topside equipment
• Towing window due to typhoon
• Feed gas composition vs. process design envelop
• Multi-product handling (LNG, condensate, LPG if any)
Challenges in the development of FLNG
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• FLNG is a breakthrough technology and an industry game changer. It requires bolddecision in becoming the pioneer
• FLNG signifies technology advancement solution which adds value to marginal andstranded offshore gas resources, which otherwise would be uneconomical to develop viaonshore LNG
• PETRONAS FLNG will become a reference/ benchmark for future projects
• Though all aspects of risk have been taken into account and evaluated at design phase,we are consolidating the lessons learn and best practices of operating the facility
• Adhering to regulatory requirements are vital in achieving operations excellence
Conclusion
THANK YOUIr. Ikhwan Yussoff, PEng. MIEM
Technical Professional, Front End Engineering DesignGroup Technical Solutions, Project Delivery & Technology
PETRONAS
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