I question your estimation of the capital cost. LCOE for most nuclear power plants is way below that: https://www.oecd-nea.org/lcoe/
For the US it's $33 per MWh, so doubling it still gives reasonable cost.
As for wind, it simply can not compete right now for guaranteed capacity. The adequacy rating for most wind power plants is around 10%, so you need 10x overbuild to even compete.
And so what? Modern nuclear reactors are licensed for 60 years and are expected to last 80-100 years with maintenance (reactor vessel annealing, mainly).
So where's the "solar spills" or "wind contamination?"
One of these solutions is encumbered by problems of safety, the other capacity. It's easier to scale up capacity than it is to scale safety.
If I had to make long term bets, radioactive materials will continue to be radioactive, green capture, storage and transmission will get cheaper and more reliable.
Speaking of transmission, that's another huge problem. You can't go plopping powerplants just anywhere, and power generation needs to be somewhat close to those consuming it.
Distributed collection and storage helps reduce challenges around transmission infrastructure in low density or hard to travel areas.
Consider Puerto Rico, their investments in solar have skyrocketed, especially with the need to rebuild so much infrastructure. They had nuclear, and they were cleaning up contamination for decades after shutting it down. Also part of the issue with power there is transmission. You don't get the efficiency out of tiny boilers to make them cost effective for these folks.
I think you're pushing a bit hard for a tech that has a lot of problems and while it could play a role in our future, it's unlikely to be a dominant force.
> So where's the "solar spills" or "wind contamination?"
At the factories that produce silicon and composites for the windblades.
> One of these solutions is encumbered by problems of safety, the other capacity. It's easier to scale up capacity than it is to scale safety.
So far, no large country has managed to move to 100% carbon-free renewable generation. And I'm not seeing this changing.
> Distributed collection and storage helps reduce challenges around transmission infrastructure in low density or hard to travel areas.
If we're talking about Europe, they are facing the problem of Dunkelflaute - long periods of no wind, no sun, and low temperatures in the middle of the winter. A worst-case once-in-century scenario would require around a _month_ of storage.
Dunkelflaute can be dealt with by burning hydrogen, not fossil fuels. You need backup turbines, but a simple cycle combustion turbine power plant is about 20x as cheap to build as a nuclear power plant, per unit of power output. So backing up the entire grid with these "Dunkelflaute turbines" is not expensive compared to the nuclear solution.
Europe has many petawatt hours of potential hydrogen storage capacity in its salt formations.
> At the factories that produce silicon and composites for the windblades.
And if we compared these factories and their environmental impacts we would see a net increase from the production of solar and wind products? That's the point, and you ducked it hard.
> So far, no large country has managed to move to 100% carbon-free renewable generation. And I'm not seeing this changing.
Who said that we had to hit 100%? There is a place for burning stuff for fuels in our society for long to come, the point is not having it the default way we power larger systems.
> If we're talking about Europe, they are facing the problem of Dunkelflaute - long periods of no wind, no sun, and low temperatures in the middle of the winter. A worst-case once-in-century scenario would require around a _month_ of storage.
> So far no technology is even close to that.
Okay, that's a great argument to not continue investing in storage solutions, but let's be real, a new nuclear steam turbine isn't coming online _tomorrow_ either.
Let's do both, and not pretend like the more risky one is less dangerous than it is, when things go wrong.
If we are trying to determibe the cost of power from new nuclear plants, looking at the marginal cost of upgrading/refurbishing existing plants makes no sense, as that is much cheaper.
For the US it's $33 per MWh, so doubling it still gives reasonable cost.
As for wind, it simply can not compete right now for guaranteed capacity. The adequacy rating for most wind power plants is around 10%, so you need 10x overbuild to even compete.