only antimatter could provide more energy density, it’s insanely powerful.
Nuclear energy indeed has very high energy per mass of fuel. But so what? Solar and wind power doesn’t even use fuel. So the energy density thing is a bit of a distraction.
But it’s not done well. Just look at the new built plants, which are way over budget and take way longer to build then expected. Like the two units in Georgia that went from estimated 14bn to finally 34bn $. In France who are really experienced with nuclear, they began building their latest plant in 2007 and it’s still not operational, also it went from 3.3bn to 13.2bn €. Or look at the way Hinkley Point C in the UK is getting developed. What a shit show: from estimated 18bn£ to now 47bn£ and a day where it starts producing energy not in sight.
85% of used fuel rods can be recycled to new fuel rods. And there’s military uses for depleted uranium too. So, essentially every bit of the waste can be recycled. Can’t say the same for fossil fuels.
“85% of used fuel rods can be recycled” is like “We can totally capture nearly all the carbon from burning fossil fuels and then remove the rest from the atmosphere by other means”.
In theory it’s correct. In reality it’s bullshit that will never happen because it’s completely uneconomical and it’s just used as an excuse to not use the affordable technology we already have available and keep burning fossil fuels.
Capturing all the extra carbon from the atmosphere is not as expensive as it sounds like. It can easily be done by a few rich countries in very few decades once we stop adding more there every day.
Recycling nuclear waste is one of those problems that should be easy but nobody knows what the easy way looks like. It’s impossible to tell if some breakthrough will make it viable tomorrow or if people will have to work for 200 years to get to it. But yeah, currently it’s best described as “impossible”.
Capturing all the extra carbon from the atmosphere is not as expensive as it sounds like. It can easily be done by a few rich countries in very few decades once we stop adding more there every day.
What?
For starters, carbon capture takes an insane amount of power. And to follow up: we couldn’t even build the facilities is “a few decades” even if we free power and infinite money.
Yeah, you’re not making any sense. How is the recyclability of nuclear fuel rods an excuse to keep burning fossil fuels? That’s a massive leap in logic that demands an explanation.
While I understand where they’re coming from, it should be noted that they’re likely basing their experience with recyclability on plastic recycling which is totally a shit show. The big difference comes in when you realize that plastic is cheap as shit whereas uranium fuel rods are not.
If something is Nuclear enough it can generate heat, its just the reactors make use of an actual reaction that nuclear waste can’t do anymore. Yever watch the Martian, he has a generator that’s fuel is lead covered beads of radioactive material, it doesn’t generate as much as reactors but it’s still a usable amount.
If something is Nuclear enough it can generate heat
That’s an extreme oversimplification. RTGs don’t use nuclear waste. Spent reactor fuel still emits a large amount of gamma and neutron radiation, but not with enough intensity to be useful in a reactor. The amount of shielding required makes any kind of non-terrestrial application impossible.
The most common RTG fuel is plutonium (238Pu, usually as PuO2), which emits mostly alpha and beta particles, and can be used with minimal shielding. It can’t be produced by reprocessing spent reactor fuel. In 2024, only Russia is manufacturing it. Polonium (210Po) is also an excellent fuel with a very high energy density, but it has a prohibitively short half-life of just over a hundred days. It also has to be manufactured and can’t be extracted.
90Sr (strontium) can be extracted from nuclear fuel, and was used by early Soviet RTGs, but only terrestrially because the gamma emission requires heavy shielding. Strontium is also a very reactive alkaline metal. It isn’t used as RTG fuel today.
Energy density is a useless bullshit metric for stationary power.
Produces more waste than almost all of the renewables.
Reliable compared to… … … ok, I’m out of ideas, they need shutdowns all the time. Seems to me it’s less reliable than anything that isn’t considered “experimental”.
And it can’t work with renewables unless you add lots and lots of batteries. Any amount of renewables you build just makes nuclear more expensive.
They are an interesting technology, and I’m sure they have more uses than making nuclear weapons. It’s just that everybody focus on that one use, and whatever other uses they have, mainstream grid-electricity generation is not it.
only antimatter could provide more energy density, it’s insanely powerful.
produces amounts of waste orders of magnitude lower than any other means of energy production
reliable when done well
it shouldn’t be replaced with renewables, but work with them
Nuclear energy indeed has very high energy per mass of fuel. But so what? Solar and wind power doesn’t even use fuel. So the energy density thing is a bit of a distraction.
But it’s not done well. Just look at the new built plants, which are way over budget and take way longer to build then expected. Like the two units in Georgia that went from estimated 14bn to finally 34bn $. In France who are really experienced with nuclear, they began building their latest plant in 2007 and it’s still not operational, also it went from 3.3bn to 13.2bn €. Or look at the way Hinkley Point C in the UK is getting developed. What a shit show: from estimated 18bn£ to now 47bn£ and a day where it starts producing energy not in sight.
Do you know WHY they went over budget?
Yes, but energy density doesn’t matter for most applications and the waste it produces is highly problematic.
85% of used fuel rods can be recycled to new fuel rods. And there’s military uses for depleted uranium too. So, essentially every bit of the waste can be recycled. Can’t say the same for fossil fuels.
“85% of used fuel rods can be recycled” is like “We can totally capture nearly all the carbon from burning fossil fuels and then remove the rest from the atmosphere by other means”.
In theory it’s correct. In reality it’s bullshit that will never happen because it’s completely uneconomical and it’s just used as an excuse to not use the affordable technology we already have available and keep burning fossil fuels.
Capturing all the extra carbon from the atmosphere is not as expensive as it sounds like. It can easily be done by a few rich countries in very few decades once we stop adding more there every day.
Recycling nuclear waste is one of those problems that should be easy but nobody knows what the easy way looks like. It’s impossible to tell if some breakthrough will make it viable tomorrow or if people will have to work for 200 years to get to it. But yeah, currently it’s best described as “impossible”.
What?
For starters, carbon capture takes an insane amount of power. And to follow up: we couldn’t even build the facilities is “a few decades” even if we free power and infinite money.
Yeah, you’re not making any sense. How is the recyclability of nuclear fuel rods an excuse to keep burning fossil fuels? That’s a massive leap in logic that demands an explanation.
They’re saying that plausible uses don’t necessarily translate to real world use, in practice. I have no stake in this, just translating
While I understand where they’re coming from, it should be noted that they’re likely basing their experience with recyclability on plastic recycling which is totally a shit show. The big difference comes in when you realize that plastic is cheap as shit whereas uranium fuel rods are not.
It’s a solved problem. https://www.youtube.com/watch?v=4aUODXeAM-k https://www.youtube.com/watch?v=lhHHbgIy9jU
If something is Nuclear enough it can generate heat, its just the reactors make use of an actual reaction that nuclear waste can’t do anymore. Yever watch the Martian, he has a generator that’s fuel is lead covered beads of radioactive material, it doesn’t generate as much as reactors but it’s still a usable amount.
That’s an extreme oversimplification. RTGs don’t use nuclear waste. Spent reactor fuel still emits a large amount of gamma and neutron radiation, but not with enough intensity to be useful in a reactor. The amount of shielding required makes any kind of non-terrestrial application impossible.
The most common RTG fuel is plutonium (238Pu, usually as PuO2), which emits mostly alpha and beta particles, and can be used with minimal shielding. It can’t be produced by reprocessing spent reactor fuel. In 2024, only Russia is manufacturing it. Polonium (210Po) is also an excellent fuel with a very high energy density, but it has a prohibitively short half-life of just over a hundred days. It also has to be manufactured and can’t be extracted.
90Sr (strontium) can be extracted from nuclear fuel, and was used by early Soviet RTGs, but only terrestrially because the gamma emission requires heavy shielding. Strontium is also a very reactive alkaline metal. It isn’t used as RTG fuel today.
Right now we probably use more energy to produce antimatter than getting it back
Energy density is a useless bullshit metric for stationary power.
Produces more waste than almost all of the renewables.
Reliable compared to… … … ok, I’m out of ideas, they need shutdowns all the time. Seems to me it’s less reliable than anything that isn’t considered “experimental”.
And it can’t work with renewables unless you add lots and lots of batteries. Any amount of renewables you build just makes nuclear more expensive.
They are an interesting technology, and I’m sure they have more uses than making nuclear weapons. It’s just that everybody focus on that one use, and whatever other uses they have, mainstream grid-electricity generation is not it.