Floating Storage and Regasification Unit
Location
Miscellaneous, FEED of FSRU different type vaporizers
Building Type
Floating LNG Facility, LNG Receiving, Storage, and Regasification Unit
Key Features / Project Achievements:
Length:
Overall 280 m
Processing Capacity:
135,000 m3
Facility Type:
LNG Receiving, Storage, and Regasification Unit (FSRU)
Pipelines:
Stainless steel piping on above sea structures to shore facilities or flexible stainless piping from carrier to buoy, from buoy to underwater stainless piping
Operational Buildings:
LNG pumps, cargo tanks, cargo room and vaporizers unit
Engineering Services Provided:
Process Design:
• Liquefaction Processes: Selection of systems and equipment for cooling natural gas to −162°C to transform it into a liquid state.
• Compression and Turbine Equipment: Selection of compressors, coolers, and heat exchangers required for gas cooling.
• FSRU Tanker Integration: Exploration of using LNG tankers with integrated regasification systems to minimize the need for coastal territory, port infrastructure, and standalone LNG infrastructure such as storage tanks, high-pressure pumps, regasification units (vapor recovery, BOG), and vaporizers.
• Compression and Turbine Equipment: Selection of compressors, coolers, and heat exchangers required for gas cooling.
• FSRU Tanker Integration: Exploration of using LNG tankers with integrated regasification systems to minimize the need for coastal territory, port infrastructure, and standalone LNG infrastructure such as storage tanks, high-pressure pumps, regasification units (vapor recovery, BOG), and vaporizers.
LNG Storage System:
• Cryogenic Tanks: Design of cryogenic storage tanks capable of withstanding extremely low temperatures.
• Insulation Systems: Advanced insulation materials and technologies to minimize heat loss and LNG evaporation.
• Pressure and Vapor Management: Systems to prevent excessive pressure buildup in storage tanks due to LNG evaporation.
• Insulation Systems: Advanced insulation materials and technologies to minimize heat loss and LNG evaporation.
• Pressure and Vapor Management: Systems to prevent excessive pressure buildup in storage tanks due to LNG evaporation.
Loading and Transport Systems:
• LNG Loading/Unloading Systems: Design of pipelines, pumps, and valves to transport LNG to tankers or other delivery systems.
• Robotic Cranes and Pumps: For efficient handling of large LNG volumes.
• Specialized Piping: Designed to withstand cryogenic temperatures and high pressure. Stainless steel piping on above sea structures to shore facilities or flexible
• Robotic Cranes and Pumps: For efficient handling of large LNG volumes.
• Specialized Piping: Designed to withstand cryogenic temperatures and high pressure. Stainless steel piping on above sea structures to shore facilities or flexible
Safety and Environmental Protection:
• Leak and Fire Detection Systems: Advanced systems for detecting leaks and preventing accidents.
• Emergency Response Procedures: Design of backup systems and emergency installations such as fire suppression systems.
• Emission Reduction Systems: Solutions to minimize environmental impact, including the reuse of vaporized gas.
• Emergency Response Procedures: Design of backup systems and emergency installations such as fire suppression systems.
• Emission Reduction Systems: Solutions to minimize environmental impact, including the reuse of vaporized gas.
Automation and Control Systems:
• Process Monitoring and Control: Implementation of control systems to ensure stable operations, pressure management, temperature control, and equipment monitoring.
• Remote Monitoring and Control: Modern telemetry systems for managing infrastructure on remote facilities.
• Remote Monitoring and Control: Modern telemetry systems for managing infrastructure on remote facilities.
Facility Expansion or Modernization:
• Needs Assessment: Evaluation of required additional capacities or new technologies, identification of locations for new equipment, and piping integration.
• New Technology Integration: Implementation of innovative solutions to enhance productivity, reduce energy consumption, and minimize environmental impact.
• Detailed Expansion/Modification Design: Comprehensive plans for technological and operational improvements.
• New Technology Integration: Implementation of innovative solutions to enhance productivity, reduce energy consumption, and minimize environmental impact.
• Detailed Expansion/Modification Design: Comprehensive plans for technological and operational improvements.