tag:blogger.com,1999:blog-2675974463524895416.post2739578306963905779..comments2024-03-28T10:26:00.255-05:00Comments on An Ex Rocket Man's Take On It: Suits and Atmospheres for SpaceGary Johnsonhttp://www.blogger.com/profile/06723964751681093047noreply@blogger.comBlogger2125tag:blogger.com,1999:blog-2675974463524895416.post-68705333670095506862021-06-03T09:30:27.247-05:002021-06-03T09:30:27.247-05:00No, nothing submitted for publication. Just post...No, nothing submitted for publication. Just posted here. If you do mechanical counterpressure suits correctly (as vacuum-protective underwear), there is no need for a cooling system at all! You sweat-cool right through the garments, just like we do here. It's even more efficient at very ambient low pressures, or in vacuum. -- GWGary Johnsonhttps://www.blogger.com/profile/06723964751681093047noreply@blogger.comtag:blogger.com,1999:blog-2675974463524895416.post-83804235232381840432021-06-03T02:09:07.306-05:002021-06-03T02:09:07.306-05:00Dear Sir
I find your review fascinating and agree...Dear Sir<br /><br />I find your review fascinating and agree with your conclusions that EVA suit and habitation pressures need to be reduced. Have you submitted this review for publication? <br /><br />Have you looked at the issue of EVA suit cooling on Mars? Cooling systems are a major source of EVA suit mass, and Mars EVA suit masses need to be reduced substantially for people to be able to move round on the surface. There is also the issue that current sublimation cooling will not work in the martian atmosphere.<br /><br />Jon<br /><br />I find it fascinating and agree with your conclusions that EVA suit and habitation pressures need to be reduced pressuresjononmars@gmail.comhttps://www.blogger.com/profile/11334589915377181222noreply@blogger.com