As an infrastructure project its conceptually pretty sick. A nuclear power plant would be fairly ideal for the first long-term human presence on the moon.
The problem is that it’s Russia and China doing it.
I can imagine a rocket full of plutonium and uranium rods, sitting above immense tanks of combustible liquid: what the odds of such a rocket exploding during ascent? What are the effects of solar and cosmic radiation energy over these rods (even if they’re lead shielded), especially around Van Allen radiation belt? So many questions.
We’ve been launching nuclear reactors into space for decades (mostly RTGs) they’re just much smaller. There isnt any chance of them exploding or anything when exposed to radiation, but yes the chance of the rocket failing, exploding and showering radioactive material over the ocean is why this has to be done incredibly carefully if it is done.
Only operate when your side of the moon is dark or even near the poles where it can be coldest? I’m not sure what the plan is for daytime operations since it apparently gets really hot.
No atmosphere up there to insulate so the temperatures fluctuate to extremes
No atmosphere means very little thermal radiation is pulled from radiators.
I imagine the best bet would be to drill into the surface of the moon and sink your radiators into the ground, fill the gaps with a material that transfers heat well.
Easiest version of that would probably be to lay the radiators on or just below the surface and bury them in a regolith concrete mixture of some sort. Probably not as efficient as drilling straight in, but way less complicated I imagine.
Cooling is the process of offloading heat from one atom to another. In space and the moon, there’s very little…anything. You can’t transfer heat onto nothing - so an “air cooled” heat vent doesn’t work. Another user suggested they use the moon itself or moon dust as a heat sink, and you could do that in theory.
I suppose the regolith itself could be used as a heat sink. I don’t know what its thermal properties are like?
But yeah, I imagine heat dissipation is a limiting factor. Everything I’ve read suggests the 1st gen reactors will put out something on the order of 10s of kilowatts, so rather modest by nuclear standards but still plenty for a nascent Moon base I imagine?
The issue isn’t space exploration or the concept of a base on the moon. The issue is a nuclear plant on the moon. There’s a reason solar cells are so universal in space applications near the Earth, and it isn’t because the space industry is obsessed with being green.
They already use nuclear power in loads of applications. The mars rover, perseverance satellites and even satellites in LEO. They can provide power during lengthy lunar nights and the heat they produce as a byproduct would be useful for keeping people warm. This isn’t even even mentioning advancements in nuclear reactor designs that make meltdowns conditions considerably less likely. Your right that solar cells are a great way to produce power in LEO but on the moon there are more variables that make it viable for a nuclear reactor to be a rational power source.
You’re out of your depth here… Those reasons for affordable solar cells on earth in no way directly translate to applications in completely different environments (planets or moons)
This idea of “well earth has solar, so solar must work just as well on the moon!” doesn’t take into account natural lunar resources (solar needs rare earth metals) , atmospheric conditions, thermal conditions, material transport, etc… Sure, a well-functioning moon settlement would probably have a combination of thermo, solar, and nuclear power, but it is strange how you’re writing off one of the most promising forms of energy that excites and interests space scientists most.
These issues you’re having just sound like cope due to the fact that the US is now lagging in space science.
You’re out of your depth here… Those reasons for affordable solar cells on earth in no way directly translate to applications in completely different environments (planets or moons)
‘on earth’
Did you miss the bit where I specified space applications, or did you just ignore it?
The Apollo programme’s own geologist, Harrison Schmidt, has repeatedly made the argument for Helium-3 mining, whilst Gerald Kulcinski at the University of Wisconsin-Madison is another leading proponent. He has created a small reactor at the Fusion Technology Institute, but so far it has not been possible to create the helium fusion reaction with a net power output.
This idea of “well earth has solar, so solar must work just as well on the moon!” doesn’t take into account natural lunar resources (solar needs rare earth metals) , atmospheric conditions, thermal conditions, material transport, etc… Sure, a well-functioning moon settlement would probably have a combination of thermo, solar, and nuclear power,
Holy fucking shit, dude, natural atmospheric and thermal conditions and material transport are exactly why nuclear power seems dubious to me as the basis for a moon base. I’m a proponent of nuclear power here on earth.
but it is strange how you’re writing off one of the most promising forms of energy that excites and interests space scientists most.
“Space scientists” here meaning ‘you’, apparently, since major investment into space-based nuclear power for earth-orbit and lunar applications has been very slim since the 60s despite niche applications and a small chorus of proponents, not unlike ‘Practical fusion in 20 years’ types.
These issues you’re having just sound like cope due to the fact that the US is now lagging in space science.
But it would require a stable power supply – which only a nuclear reactor can provide, as the Moon’s lengthy lunar nights make solar energy unreliable.
The trouble with solar on the moon is that the day-night cycle is a month long. You have to figure out what to do during the 2 Earth weeks worth of night.
I suppose with a polar base, you could have several solar farms strategically placed so that at least one of them is operational at any given time, but that’s a lot of infrastructure and this is early days.
Ukraine’s controversial but wildly successful fledgling domestic space program has successfully landed exo-atmospheric tactical drones on the moon and destroyed crucial construction components of Russia’s moon reactor facility, forcing many to question if it’s feasible to continue the project