Resilience evaluation of the environmental control and life support system of a spacecraft for deep space travel
Author:
Funder
FAPESP – São Paulo Research Foundation
NASA Ames Research Center
Publisher
Elsevier BV
Subject
Aerospace Engineering
Reference19 articles.
1. Crew autonomy for deep space exploration: lessons from the antarctic search for meteorites;Love;Acta Astronaut.,2014
2. The perfect boring situation - addressing the experience of monotony during crewed deep space missions through habitability design;Peldszus;Acta Astronaut.,2014
3. A novel approach for life-support-system design for manned space missions;Aydogan-Cremaschi;Acta Astronaut.,2009
4. The water treatment and recycling in 105-day bioregenerative life support experiment in the Lunar Palace 1;Xie;Acta Astronaut.,2017
5. A hybrid plasma technology life support system for the generation of oxygen on Mars: considerations on materials and geometry;Gruenwald;Acta Astronaut.,2016
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