Frontiers in Astronomy and Space Sciences (Apr 2022)

Photovoltaics-Driven Power Production Can Support Human Exploration on Mars

  • Anthony J. Abel,
  • Anthony J. Abel,
  • Aaron J. Berliner,
  • Aaron J. Berliner,
  • Mia Mirkovic,
  • Mia Mirkovic,
  • William D. Collins,
  • William D. Collins,
  • Adam P. Arkin,
  • Adam P. Arkin,
  • Adam P. Arkin,
  • Douglas S. Clark,
  • Douglas S. Clark,
  • Douglas S. Clark

DOI
https://doi.org/10.3389/fspas.2022.868519
Journal volume & issue
Vol. 9

Abstract

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A central question surrounding possible human exploration of Mars is whether crewed missions can be supported by available technologies using in situ resources. Here, we show that photovoltaics-based power systems would be adequate and practical to sustain a crewed outpost for an extended period over a large fraction of the planet’s surface. Climate data were integrated into a radiative transfer model to predict spectrally-resolved solar flux across the Martian surface. This informed detailed balance calculations for solar cell devices that identified optimal bandgap combinations for maximizing production capacity over a Martian year. We then quantified power systems, manufacturing, and agricultural demands for a six-person mission, which revealed that photovoltaics-based power generation would require <10 t of carry-along mass, outperforming alternatives over ∼50% of Mars’ surface.

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