![]() The heat exchanger, for instance, dissipates heat to a sheet of ice which sublimates and disperses into space. Space suits have a lot of relevant features, they're built for one specific environment. There can be a cooling and a heating system on one part of the suit and then it distributes water or another heat conductive liquid through the piping system that can be run parallel if some of the tubes get damaged. So it is a liquid climate control system, very much perfect for the HEV suit. I thought that this concept would be too complicated to make, but I can see that NASA already made a few. Peltier pumps can maintain be made to maintain some pretty high temperature differentials, so while they have a limit, they could reasonably protect the user in most environments.Ī temperature regulation system does increase the demand on the power source quite a bit, though. There might be some way to have Peltier pumps integrated into the skinsuit directly rather than use liquid, but that would probably be bulky and quite energy-intensive. That's the most space/power efficient method I can think of off the top of my head. Could use a LCVG like there is in the EMU, and maybe some sort of Peltier heat pump system for the heat exchanger that dissipates heat to certain sections of paneling that are sufficiently separated from the body.
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