Strange that the article would say that when, in point of fact, the US is also working plans for lunar nuclear power. It’s really the only sensible way to power a moon base with current technology, so anyone who is considering one is working designs for a nuclear power plant.
The big problem with space is overheating. Space may be cold but there is no way to get rid of that heat except for radiators. Convection doesn’t exist in a vacuum.
Not really. Current battery technology is to put it lightly not the type of thing you want to rely on for long term life support. Lithium ion the current go to for rechargeable batteries physically degrades as you charge it. One of the main things you can do to reduce this is don’t fully charge the battery. For example if the battery degradation from 0%* to 100%** is a cycle then 50% to 80% is only 21% of a cycle. That’ll extend the lifetime of the battery (not the capacity) by about 5 times! That’s pretty significant but you lose out on 20% of the batteries capacity permanently, even as the capacity decreases from degradation.
You’ve probably seen the hype about Sodium batteries which are currently 50% less energy dense which just immediately means NOPE for use in space.
* Lithium ion batteries are extremely difficult to actually fully discharge (controller won’t let you)
**Lithium ion batteries should never be fully charged it causes them excessive damage so the controller prevents this from happening
Although Li-Ion batteries typically have shorter lifetimes than Ni-H2 batteries as they cannot sustain as many charge/discharge cycles before suffering notable degradation, the ISS Li-Ion batteries have been designed for 60,000 cycles and ten years of lifetime, much longer than the original Ni-H2 batteries’ design life span of 6.5 years.
Strange that the article would say that when, in point of fact, the US is also working plans for lunar nuclear power. It’s really the only sensible way to power a moon base with current technology, so anyone who is considering one is working designs for a nuclear power plant.
How do you cool a nuclear reactor on the moon?
It’s already pretty cold
The big problem with space is overheating. Space may be cold but there is no way to get rid of that heat except for radiators. Convection doesn’t exist in a vacuum.
Is solar power combined with battery storage not an option?
Not really. Current battery technology is to put it lightly not the type of thing you want to rely on for long term life support. Lithium ion the current go to for rechargeable batteries physically degrades as you charge it. One of the main things you can do to reduce this is don’t fully charge the battery. For example if the battery degradation from 0%* to 100%** is a cycle then 50% to 80% is only 21% of a cycle. That’ll extend the lifetime of the battery (not the capacity) by about 5 times! That’s pretty significant but you lose out on 20% of the batteries capacity permanently, even as the capacity decreases from degradation.
You’ve probably seen the hype about Sodium batteries which are currently 50% less energy dense which just immediately means NOPE for use in space.
* Lithium ion batteries are extremely difficult to actually fully discharge (controller won’t let you)
**Lithium ion batteries should never be fully charged it causes them excessive damage so the controller prevents this from happening
They do it on the ISS though?
Although Li-Ion batteries typically have shorter lifetimes than Ni-H2 batteries as they cannot sustain as many charge/discharge cycles before suffering notable degradation, the ISS Li-Ion batteries have been designed for 60,000 cycles and ten years of lifetime, much longer than the original Ni-H2 batteries’ design life span of 6.5 years.
Electrical system of the international space station, batteries
Also related:
Peak of eternal light, Lunar North Pole