The exhaust from retrograde rockets fired by spacecraft landing on the Moon can accelerate lunar dust particles to high velocities. Information obtained from NASA's Apollo 12 mission confirmed that these high-speed dust particles can erode nearby structures. This erosive wear damage can affect the performance of optical components such as solar concentrators. Solar concentrators are objects which collect sunlight over large areas and focus the light into smaller areas for purposes such as heating and energy production. In this work, laboratory-scale solar concentrators were constructed and subjected to erosive wear by the JSC-1AF lunar dust simulant. The concentrators were focused on a photovoltaic cell and the degradation in electrical power due to the erosive wear was measured. It was observed that even moderate exposure to erosive wear from lunar dust simulant resulted in a 40 percent reduction in power production from the solar concentrators.
[1]
Philip T. Metzger,et al.
Apollo 12 Lunar Module exhaust plume impingement on Lunar Surveyor III
,
2011
.
[2]
Irebert R. Delgado,et al.
Erosive Wear Characterization of Materials for Lunar Construction
,
2012
.
[3]
David M. Klaus,et al.
Three-Body Abrasion Testing Using Lunar Dust Simulants to Evaluate Surface System Materials
,
2010
.
[4]
Paul W. Hodge,et al.
Primary and secondary micrometeoroid impact rate on the lunar surface: A direct measurement
,
1972
.
[5]
J. Lane,et al.
Lagrangian Trajectory Modeling of Lunar Dust Particles
,
2008,
2305.19993.