Plasma-based conversion of martian atmosphere into life-sustaining chemicals: The benefits of utilizing martian ambient pressure
Seán Kelly, Elizabeth Mercer, Yury Gorbanev, Igor Fedirchyk, Claudia Verheyen, K. Werner, Pluton Pullumbi, Aidan Cowley, Annemie Bogaerts
Abstract
We explored the potential of plasma-based In-Situ Resource Utilization (ISRU) for Mars through the conversion of Martian atmosphere (∼96% CO2, 2% N2, and 2% Ar) into life-sustaining chemicals. As the Martian surface pressure is about 1% of the Earth’s surface pressure, it is an ideal environment for plasma-based gas conversion using microwave reactors. At 1000 W and 10 Ln/min (normal liters per minute), we produced ∼76 g/h of O2 and ∼3 g/h of NOx using a 2.45 GHz waveguided reactor at 25 mbar, which is ∼3.5 times Mars ambient pressure. The energy cost required to produce O2 was ∼0.013 kWh/g, which is very promising compared to recently concluded MOXIE experiments on the Mars surface. This marks a crucial step towards realizing the extension of human exploration.