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Performance of Adsorption-Based CO<sub>2</sub> Acquisition Hardware for Mars ISRU

John E. Finn, Lila Mulloth, Bruce Borchers

Year
2000
Citations
8

Abstract

Chemical processing of the dusty, low-pressure Martian atmosphere typically requires conditioning and compression of the gases as first steps. A temperature-swing adsorption process can perform these tasks using nearly solid-state hardware and with relatively low power consumption compared to alternative processes. In addition, the process can separate the atmospheric constituents, producing both pressurized CO2 and a buffer gas mixture of nitrogen and argon. To date we have developed and tested adsorption compressors at scales appropriate for the near-term robotic missions that will lead the way to ISRU-based human exploration missions. In this talk we describe the characteristics, testing, and performance of these devices. We also discuss scale-up issues associated with meeting the processing demands of sample return and human missions.

Keywords

Mars Exploration ProgramAdsorptionProcess engineeringGas compressorArgonComputer scienceProcess (computing)Materials scienceEnvironmental scienceEngineering

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