Coastal Floating Power Barge
Overview
Coastal Floating Power Plants (C-FSRP) are integrated, scalable modular power solutions, which are located and moored at the coast in shallow waters. The Power Generated is transmitted onshore and connected into the grid for both commercial and domestic end users.
C-FSRP solutions allow diverse use of fuel (LNG, Bio-LBM and other alternative fuels), providing security of supply with options for continuous operations for island locations not connected to the mainland grid or coastal mainland grid requirements or other coastal regions.
C-FSRP’s integrate floating energy solutions and provide an environmentally friendly, robust, modular and deployable solution using and blending LNG/Bio-LNG and H2 blending capability with high efficiency engines from 80 to 200MW configuration.
Our C-FSRP technology has been developed in conjunction with our partners, Houlder Engineering.
C-FSRP solutions allow diverse use of fuel (LNG, Bio-LBM and other alternative fuels), providing security of supply with options for continuous operations for island locations not connected to the mainland grid or coastal mainland grid requirements or other coastal regions.
C-FSRP’s integrate floating energy solutions and provide an environmentally friendly, robust, modular and deployable solution using and blending LNG/Bio-LNG and H2 blending capability with high efficiency engines from 80 to 200MW configuration.
Our C-FSRP technology has been developed in conjunction with our partners, Houlder Engineering.
Overview
Coastal Floating Power Plants (C-FSRP) are integrated, scalable modular power solutions, which are located and moored at the coast in shallow waters. The Power Generated is transmitted onshore and connected into the grid for both commercial and domestic end users.
C-FSRP solutions allow diverse use of fuel (LNG, Bio-LBM and other alternative fuels), providing security of supply with options for continuous operations for island locations not connected to the mainland grid or coastal mainland grid requirements or other coastal regions.
C-FSRP’s integrate floating energy solutions and provide an environmentally friendly, robust, modular and deployable solution using and blending LNG/Bio-LNG and H2 blending capability with high efficiency engines from 80 to 200MW configuration.
Our C-FSRP technology has been developed in conjunction with our partners, Houlder Engineering.
C-FSRP solutions allow diverse use of fuel (LNG, Bio-LBM and other alternative fuels), providing security of supply with options for continuous operations for island locations not connected to the mainland grid or coastal mainland grid requirements or other coastal regions.
C-FSRP’s integrate floating energy solutions and provide an environmentally friendly, robust, modular and deployable solution using and blending LNG/Bio-LNG and H2 blending capability with high efficiency engines from 80 to 200MW configuration.
Our C-FSRP technology has been developed in conjunction with our partners, Houlder Engineering.
Integrated Island Applications
Integrated Island Applications
Standalone Island Applications
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Benefits Of Coastal Floating Power Plants
- Mature LNG/Bio-LBM supply or dual fuel security or H2 blending capability.
- Proven technology systems and blocks/systems.
- Modules fabricated, tested, commissioned and operated at the yard.
Eco-friendly
- Utilizing clean natural gas and blending capabilities with alternate fuels (Bio-LBM and H2 blending capability) to reduce emissions to meet regulatory requirements, resulting in almost zero PM, SOx, CO2 and low Green House Gas emissions.
- Minimized environment impact around the operational facility.
- C-FSRP’s moored at the coast, result in making it more aesthetic to the local community as opposed to an onshore facility.
Flexible
- C-FSRP facilities can be redeployed to another location
- Higher asset security from natural disasters, geopolitical instability
- Re-installed with Higher Residual value and more attractive to investors
Fast Track Delivery
- Shorter Permitting Period
- Operational time from 18-24 months for the gas engines or 24-30 months for the CCGT options
- Low Execution Risk with Complete Facility Construction/Testing in an industrial shipyard quality-controlled environment and assurance supervision by tier-1 Classification Society
- Overall higher quality and faster lead time vs. onshore power plants
Economical
- Lower CAPEX & therefore a lower generation of kWh unit price in comparison with onshore HFO/diesel power plants when comparing costs utilizing high efficiency state of the art engines and GHG reduction technology modules.
- Competitively sourced LNG/Bio-LBM price by direct import and using own integrated LNG/Bio-LBM C-type storage tanks, results in reduces costs and increased benefits for end users.
- Constructed in state-of-the-art shipyards that ensure controlled fabrication conditions results in optimum quality and CAPEX utilization.
LNG/Bio-LBM storage and bunkering hubs enable opportunities to train local labour markets into highly skilled operatives. - LNG/Bio-LBM storage and bunkering services can also add significantly to the local and regional economies.