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A compressed-air vehicle (CAV) is a transport mechanism fueled by tanks of pressurized atmospheric gas and propelled by the release and expansion of the gas within a pneumatic motor. CAV's have found application in torpedoes, locomotives used in situations where standard locomotives are a hazard, and early prototype submarines. Compressed-air vehicles operate according to a thermodynamic process where air cools down when expanding and heats up when being compressed and those are thermal energy losses that drain the capacity factor, however with the recent developments in isothermal compressed air energy storage ICAES plants, compressed air storage has reached 4 times the capacity factor of lithium-ion batteries with 2.7Mj/kg or 3.6Mj/m3 and in 2020 there has been developments in ICAV car or isothermal compressed-air vehicle published by Dr. Reza Alizade Evrin from Ontario Tech University with a first prototype that uses low pressure air tanks and exhaust air recovery to power a paraffin heat exchanger system with a global energy efficiency of 74% (reaching 73–90% efficiency of lithium-ion electric cars) with a driving range of 140 km. This efficiency and range can be increased by using storage tank as vehicle chassis structure, high pressure tanks, new rotary engines, and a more efficient heat exchanger, this breakthrough together with the availability of recycled and bio-based thermoplastics for tanks and pneumatic components and renewable energy means this technology can be the basis of a free green transportation revolution with energy and circular industry decentralization with open source numerical control machines fabrication including additive manufacturing while multistage air compressors and coolers or hydraulic pumps can be attached directly to VAWT wind turbines, stirling engine with a parabolic or fresnel lens solar concentrator or river, tidal, wave hydropower turbine with no electric energy or electric grid needed nor energy conversion inefficiencies or additional energy storage, also instead of onboard heat recovery system there can be used a refillable molten salt (from fresnel lens or parabolic Concentrated solar power) reservoir in a heat exchanger system.

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