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I'm not sure if should be posted in "off grid", "battery technology" or "solar energy technology". Anyway, I thought it was interesting:
Basically, NASA is holding a competition for ideas on how to design an energy storage system for a rover that works on the moon. Two weeks of light, and then two weeks of dark.
The highlights:
I did some back of the napkin calculations. Using LiCoO2 batteries, you're looking at 250kg of batteries. And that's assuming 100% DoD and no other electronics. RTG's not allowed, so you're left with something chemical / exothermic with off gassing.
Yes, NASA is effectively outsourcing new energy storage technology on the cheap. But... it's an interesting problem...
Basically, NASA is holding a competition for ideas on how to design an energy storage system for a rover that works on the moon. Two weeks of light, and then two weeks of dark.
The highlights:
- Design a system to store 30kWh over two weeks (and supply 85w continuously over that time)
- 100kg maximum mass
- 2m x 1m x 1m maximum size
- Solar input is available during the two weeks that the rover is facing the sun
I did some back of the napkin calculations. Using LiCoO2 batteries, you're looking at 250kg of batteries. And that's assuming 100% DoD and no other electronics. RTG's not allowed, so you're left with something chemical / exothermic with off gassing.
Yes, NASA is effectively outsourcing new energy storage technology on the cheap. But... it's an interesting problem...
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