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I forgot about this idea, and just found it again. Why the [-1] and why no annotations. |
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Soda is known to give off CO2 bubbles when heated, and to absorb CO2 when cooled, or is my assumption off? |
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Not my fishbone, but this seems like an unlikely candidate
for Most Efficient System. |
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gotta admit the "pumping it through ice" doesn't do much for me, and I don't think you'd be carrying enough CO2 to do more than vaguely annoy any self-respecting turbine. |
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But it might work: you'd have a low-temperature and low-output "steam engine". |
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Maybe if I use high pressure at the input (by putting in electric energy to an electric powered air compressor) and leaving the system in a closed circuit (i.e. a tightly closed bottle) Would I then have a type of "Stirling Engine"? Seems to me a coke bottle given a good shake has quite a nice amount of power in it. Would easily throw a toast high into the air... |
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Stages b and d require sunshine. We already have quite good
ways of turning sunshine into useful energy, when the sun is
shining. The interesting problem is how to carry forward that
energy to when the sun isn't shining. |
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Now, might there be a way of running this coke- bottle turbine
on an ultra- slow cycle, so that energy goes in by day and comes
out by night? |
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Had anyone got a vast, bicameral subterranean thermos flask
they're not using? And does it have an internal surface
microengineered to expose nucleation points at some
temperatures but not others? |
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