h a l f b a k e r yI think, therefore I am thinking.
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While this certainly sounds like it'd be better than nothing, I think it's informed by the same thinking that calls the rush of air that comes in when a subway train leaves the station "ventilation." In other words, not quite enough to just air-condition based on relatively random events. Better to have some enviromentally terrible freon-hogging monster. |
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As the air expands, it will cool rapidly and transfer all the heat energy generated by braking to the commuters. This would be worse than nothing: it'd heat the bus up. |
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I think you'd need a heat pump with the low--pressure part of the heat-pump circuit _outside_ the bus, where expansion will release the heat into the environment. But you could use braking energy to lower the pressure of the freon or whatever you're using for the heat-pump circuit. You wouldn't want to use the brakes to increase the pressure in the part of the heat-pump circuit _inside_ the bus: again, that would only heat the bus up. Let the heat inside the bus increase the pressure in the freon in the heat-pump circuit, and then decompress the freon outside, to release that heat. |
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......Or you could open the window..... |
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Regenerative braking (using brakes as
generators) is already commonly used on
trains and newer buses. Why not use some
of this energy to power conventional air
conditioners? |
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The regen energy is returned to the grid. Peltiers are massively inefficient. There's no saving over having conventional, grid-powered AC fitted, at least on the trains, and a loss in dragging all that extra gear around. |
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But if you do use compressed air, why not use an air-driven refrigeration compressor? |
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