Towards sustainable horizons: A comprehensive blueprint for Mars colonization. [PDF]
HeliyonNeukart F.
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Qualification of a pulsed, millinewton class metal plasma thruster for broad mission applications. [PDF]
J Elect PropulsFrankovich JK +3 more
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Transport of Volatiles in Agglutinates from Lunar Regolith of Chang'e-5 Mission. [PDF]
Research (Wash D C)Li L +9 more
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Survival of Filamentous Cyanobacteria Through Martian ISRU: Combined Effects of Desiccation and UV-B Radiation. [PDF]
MicroorganismsArribas Tiemblo M +5 more
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Exploring differential gene correlations in <i>Arabidopsis thaliana</i> for sustainable space farming. [PDF]
Biotechnol Rep (Amst)D'Annunzio F +5 more
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Domains of life sciences in spacefaring: what, where, and how to get involved. [PDF]
NPJ MicrogravityBerliner AJ +5 more
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Beyond Earth: Harnessing Marine Resources for Sustainable Space Colonization. [PDF]
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Simulation of dissociation using resources on the lunar for in-situ resource utilization (ISRU)
Nano-, Bio-, Info-Tech Sensors and Wearable Systems, 2021Humanity has achieved landing on Moon in 1969 and now humanity is looking forward to land on extraterrestrial regions, for example, Mars. To reach the extraterrestrial regions, In-Situ Resource Utilization (ISRU) is regarded as one of the most significant concepts because current technologies could not afford enough propellants and others.
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Commercial viability of lunar In-Situ Resource Utilization (ISRU)
Planetary and Space Science, 2020Abstract In this paper, we propose an architecture for lunar in-situ resource utilization (ISRU) which can provide propellant, typically cryogenic hydrogen and oxygen, to a cislunar aggregation point in support of future space missions to the Moon, Mars, and beyond at a price competitive with commercial delivery from Earth.
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