SAE Technical Paper Series 1997
DOI: 10.4271/972496
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Investigation of Mars In-Situ Propellant Production

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“…Their findings were significantly detailed from the standpoint of mission design. Later, in 1997, Reddig and MacKnight devised an integrated system that was capable of producing 0.7 kg/day of liquid methane from atmospheric carbon dioxide via a ruthenium-catalyzed Sabatier reaction (Reddig and MacKnight, 1997). They validated their methodology with a thermodynamic analysis of the ISPP system using black-box process modeling software.…”
Section: Introductionmentioning
confidence: 99%
“…Their findings were significantly detailed from the standpoint of mission design. Later, in 1997, Reddig and MacKnight devised an integrated system that was capable of producing 0.7 kg/day of liquid methane from atmospheric carbon dioxide via a ruthenium-catalyzed Sabatier reaction (Reddig and MacKnight, 1997). They validated their methodology with a thermodynamic analysis of the ISPP system using black-box process modeling software.…”
Section: Introductionmentioning
confidence: 99%
“…Numerous studies have supported the use of in situ resources to reduce mission mass, cost, and risk for both robotic and human exploration, as well as to enhance, extend, or enable science and exploration objectives (Kaplan, 1996;Connolly and Zubrin, 1996;Zubrin et al 1997;Reddig and MacKnight, 1997;Green et al 1999;Sridhar et al 2000Sridhar et al , 2004. Previous studies have shown that producing propellants from Mars' atmospheric CO 2 and hydrogen brought from Earth can reduce initial mass launched by 20 to 45%, as compared to carrying all of the propellant for a round-trip mission to Mars (Sanders et al 2001).…”
Section: Introductionmentioning
confidence: 99%