Thin Red Line Aerospace - Capabilities
http://www.thin-red-line.com/press-release-05-03-11.html
Thin Red Line Aerospace completes first Undersea Energy Storage Structure
Canadian firm Thin Red Line Aerospace has completed the first structure specifically designed and built for undersea compressed air energy storage (CAES). The structure, also referred to as an “Energy Bag”, is to be anchored to the seabed off the coast of Scotland next month as part of a major renewable energy research project conceived and led by Professor Seamus Garvey of the University of Nottingham and supported by European renewable energy leader E.ON. The project is the first to investigate large scale offshore storage of wind, tidal and wave power as compressed air.
Compressed air energy storage - Wikipedia, the free encyclopedia
http://en.wikipedia.org/wiki/Compressed_air_energy_storage
Conceptual representation of the compressed-air energy storage concept. Off-peak (low-cost) electrical power compresses air into an underground air-storage “vessel” (the Norton mine), and later the air feeds a gas-fired turbine generator complex to generate electricity during on-peak (high-price) times. A similar concept [1] uses wind powered air compressors.Types
Compression of air generates a lot of heat. The air is warmer after compression. Decompression requires heat. If no extra heat is added, the air will be much colder after decompression. If the heat generated during compression can be stored and used again during decompression, the efficiency of the storage improves considerably.
There are three ways in which a CAES system can deal with the heat. Air storage can be adiabatic, diabatic, or isothermic
Compressed air energy storage has bags of potential | In-depth | The Engineer
http://www.theengineer.co.uk/in-depth/the-big-story/compressed-air-energy-storage-has-bags-of-potential/1008374.article
At these pressures, the heat from compressed air can reach temperatures of 650°C. Seamus Garvey, a professor of dynamics at Nottingham University, believes he has come up with a solution that will allow for cost-effective heat storage. Garvey’s idea is to compress air in containments called Energy Bags held down on the sea bed in deep ocean water. ’Underwater bags are an attractive option because the sea acts as the pressure vessel,’ he said. ’You don’t have to pay for the full structure, just the structural material required to hold the bag down. No matter how full or empty your container is, the pressure stays the same, and that’s lovely for the machinery at the sea surface.’
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