Ask HN: Can you both take climate change seriously and against nuclear energy?

62 points by mrits ↗ HN
We could have switched most of the planet to pure nuclear energy decades ago. If you believe climate change is an existential threat, how can you be against nuclear energy?

We are at a point where huge investments in renewables are becoming a reality, but the damage is already done.

154 comments

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I don't think so. It's fairly clear that nuclear is incredibly safe in comparison with coal and other fossil fuels. Nuclear is going to be part of the solution, unless we figure out a way to massively scale up renewables. Thankfully, Europe seems to be doing some of this.
Coal also produces more radioactive waste - https://skeptics.stackexchange.com/questions/1018/do-coal-pl...
This is a bad stat. Chernobyl is still radioactive. Coal plants don’t irradiate whole regions
> Coal plants don’t irradiate whole regions

They absolutely do. Where do you think that radioactive soot goes?

> incredibly safe in comparison

I assume you mean this empirically, not based on the actual risk profile.

The cost, in lives, of a major nuclear containment failure is easily in the millions to tens of millions. The cost, in lives, of a major coal disaster is at worst maybe in the hundreds, even in principle.

So it comes down to a belief in whether we have properly contained the risk. My priors on this shifted tremendously after Fukushima.

> The cost, in lives, of a major nuclear containment failure is easily in the millions to tens of millions.

> My priors on this shifted tremendously after Fukushima.

I'm curious why, despite Fukushima being pretty close to the worst-case scenario with modern technology, you feel these are mutually compatible feelings?

> despite Fukushima being pretty close to the worst-case scenario with modern technology

I mean, we all know what the worst-case scenarios actually look like because we have deliberately triggered containment failures for military purposes. Are you comfortable with the idea that nuclear reactors may melt down, but if we're lucky they will have minimal impact? Before Fukushima I feel like the message was unambiguously that meltdowns in modern technology are impossible. Now I do not trust that message.

I think there's a difference between the theoretical worst-case scenario and the realistic worst-case scenario. A one-two punch of the largest recorded earthquake on record followed by a tsunami feels pretty close to realistic worst-case scenario. We can always fret and wring our hands about plausible issues, but we also need to recognize the cost of inaction as well. The risk of catastrophic meltdowns costing millions of lives is so small it's hardly worth factoring into a cost-benefit equation at all.
Do you have any evidence for these claims?
The claim for the millions to tens of millions number? I mean, we have deliberately initiated containment failures for military purposes, so we know what they can look like.
Do they look like Fukushima or Chernobyl?
To redirect back to my original point -- this is an empirical argument.

Russian Roulette is not safe because nobody got shot in the first two rounds. The turkey is not safe because he was well treated through October.

Containment failures of nuclear reactors have a very large upper bound of damage.

> I mean, we have deliberately initiated containment failures for military purposes, so we know what they can look like.

This is an empirical argument.

Is the upper bound of damage higher for nuclear reactors or fossil fuels?

Man, you've got more patience than I do for someone dancing around the question. Especially when the dancer thinks that the worst case for a modern nuclear plant is Hiroshima circa 1945, but won't actually come right out and say it (for reasons I suspect are obvious).
They will post a source for the millions dead figure soon, I'm sure of it.
> The cost, in lives, of a major coal disaster is at worst maybe in the hundreds, even in principle.

Sure, if you completely ignore what's coming out of coal plants' smokestacks day in and day out. Every day that coal plants exist and operate is a major coal disaster.

And the water! Storing ash in ponds and in the ground seemed like a great idea; and it's still not cleaned up.
> The cost, in lives, of a major nuclear containment failure is easily in the millions to tens of millions

The worst of the worst, Chernobyl, where there was a design issue, the design skimped on many safety features, and everyone involved was incompetent or ignorant, result in a few tens of direct deaths and few tens of thousands of premature deaths. Where are you getting millions from?

Specifically regarding Fukushima, less people died from the nuclear disaster caused by the tsunami than an oil tank fire caused by the same tsunami.

> Where are you getting millions from?

We have deliberately initiated containment failures for military purposes -- we know what this looks like.

After Chernobyl we were told that it was a design failure compounded by human failure, etc., etc., and that in a modern reactor, meltdown was simply not possible.

Then Fukushima melted down.

So my priors right now are that we can not place a good bound on the total odds of a meltdown. How confident are you that with a modern reactor a meltdown is impossible? How confident are you that in a meltdown scenario the impact will be small?

Can you provide a specific source for the "millions to tens of millions" figure?
The cost could be that much - but we've had 2 bad incidents, both considered "worst case", without anything near that situation. That is only 2 data points, and things could be worse - but that is the prior we have.

How to weight a .00(0000)1% chance at tens of millions of affected, versus the guarantee of millions of life-years made worse by the actual coal plants? That is a philosophical plan, but the likelihood * badness is one approach. We also appear to have good control over the worst case situation with a plant - it looks to me like a bounded problem space with modern nukes.

Nuclear Energy is fantastic. Humans are awful. Who guarantees the long term stability safe Nuclear installations require? We've seen that military forces can be very casual about them. We've seen that corruption in procurement is hard to control. I think that's a reasonable line to take.
Sure. The two aren’t mutually exclusive. And you should be skeptical of anyone pushing an agenda.

I’m pro nukes (best phrasing), but it’s understandable why people are scared of it. I hope that the costs can come down and we can start doing some small scale experiments to show the reliability and safety. Most people just don’t have experience with the recent tech.

> I’m pro nukes (best phrasing)

On my side I would say I'm "pro" nuke a) by default (because I can't see an alternative as to how we could reasonably achieve stable renewable with current tech on a short enough timescale) and thus b) as a transition technology.

I mean, I hate the waste, the impact of a catastrophic event can be terrible, but when taking a step back it feels like peanuts compared to the global scale and very real impact of what's currently happening, and for which we need to hit the brakes, like, yesterday, and continue to do so real hard for a very long time.

To bring the costs down we need to shoot a few regulators.

The problem is that the safety standards are to make them as safe as reasonably possible--this *inherently* means they're going to be too expensive because if they weren't that means it would be feasible to improve the safety. We get huge cost overruns because the safety standards get changed in construction and they have to go back, reevaluate and modify. And because the greens manage to tie things up in court causing delays.

Instead, I would like to see (generally, not just in this case) that safety say twice as good as the best alternative is deemed good enough. (And note that solar and wind are not alternatives without a suitable storage system--which doesn't yet exist. The best alternative is natural gas--and it turns out my memory was faulty, natural gas is two orders of magnitude worse and coal is three orders of magnitude worse.)

Apparently so, as it's been the standpoint of the Green Party in the UK for many years: https://policy.greenparty.org.uk/safe-climate.html
Same with the green party of Canada
The same goes for the green party in Germany afaik.
And the Green Party in Belgium, which had the audacity to say natural gas is necessary to transition from nuclear to renewables. The cognitive dissonance is incredible.
I don't know the details of whatever claim you are disputing, but basically all sensible plans include some natural gas burning in the short term.

As has France with their nuclear fleet.

So mocking a Green Party for being factually correct, pragmatic and effective in achieving their aims seems a bit cheap.

Sometimes feels like people only like nuclear because it lets them talk smack about Greens. Who are generally well educated people with sensible ideas. So why are we attacking them again?

Indeed, we simply can't do without non-renewables at the moment, nobody can.

Just wait until everybody really does have a ton of renewable energy, and you get headlines like "<area> ran on 100% renewables all week!", and thus it seems obvious we don't need the gas plants anymore. Except, that is, for when there's no wind or sun, then you absolutely need them.

But why would companies keep those plants going, when most of the time nobody buys energy off them? They'll just shut them down, since they'd just lose money keeping them online -- resulting in massive outages at times without wind/sun.

Meaning the government will have to subsidize carbon-belching gas plants just to keep them open.

We already have gas plants that only run for short periods of time. So there's no need to build more or shut down the existing ones. The important part is to stop burning fossil fuels and venting the CO2.

Which is most quickly done by installing renewables and not running the existing gas plants.

I have no real objection to paying money to firms that keep gas plants ready for use. It's the money going to the people who sell the gas that I fret about. And again, the quickest way to reduce that flow is building more renewables, now.

> I have no real objection to paying money to firms that keep gas plants ready for use

Yeah well, you're one of the good ones then. I expect that to be a real test of faith for greens and small-government liberals both.

The reason for that is the green parties, certainly in Europe, got their start protesting nuclear weapons and nuclear energy both, and they were true believers in the cause. That was the 60s/70s.

But in the mean time it's become clear that the biggest climate problem we have is not nukes, it's carbon -- and nuclear energy is really great in that respect: it doesn't produce any at all and it's reliable 24/7, and relatively cheap. It has a massive NIMBY problem, but ok.

So while that's clear to anyone who thinks rationally, for green party types it requires changing their mind, their entire point of view, one they've held for maybe decades: nuclear energy is now good, we need more of that and less of the other.

Some simply will not be convinced no matter that the facts have changed. Some turn to the whole "everybody must now ride bicycles and live off the land".

Have you ever tried to have a rational discussion with somebody who believes in the green cause so strongly they joined a political party? I have, and it's painful -- not unlike trying to convince a religious fundamentalist that there is no god. It's all dogma.

I think your comment is broadly correct, though I should disclose that I am a Green Party member ;-) I think the characterisation is probably a little unfair for British Greens in particular who seem to be a "broad church" - I disagree with the party stance on nuclear, but I don't feel being a member requires a full buy in, any more than with any other party.
Ask Germany, they take both seriously. They are now dependent on natural gas imports. Guess where most natural gas is coming from for Germany...
Germany has 350g CO2 per kWh and they are also burning coal for energy. France has 50g CO2 per kWh. IMO they don't take climate change serious...
> gas imports

And, all the while being a major electricity exporter itself (towards e.g Poland), Germany also depends heavily on electricity imports from... France's nuclear generators.

https://www.nsenergybusiness.com/features/electricity-export...

TIL that Germany's inroads into green electricity production is more or less offset by its electricity exporting economy.

Also Germany was a major exporter of reprocessable nuclear waste towards France (2nd place with 17% in reprocessed material at la Hague, 1st being France with 70%). That's old data though, IIRC they shut down 3 reactors (out of 6) since, the three remaining ones were due to shutdown this year but this is being reconsidered because gas x Ukraine.

https://en.m.wikipedia.org/wiki/La_Hague_site

I suspect at least a few people displaced by Chernobyl or Fukushima hold the position of anti-nuclear and acknowledge climate change.

I would argue yes, you can rationally arrive at that stance.

Giving up nuclear power because of Chernobyl would be like giving up pesticides because of Bhopal.
Its not truly renewable and the topic of waste is a real issue.

Its a short term solution but ultimately not the solution for sustainable environmentalism.

Solar isn't "truly renewable" either because the Sun will eventually burn out, and we have enough fissile material to last a similar amount of time, if we keep reprocessing it.
Nucleur power has historically been problematic in that it creates waste, it takes a fuckton of money to decommission safely after the useful life of the reactor is over, and there have been incidents of massive environmental contamination.

Can all these things be overcome? I don't know. Let's hope so. But in the mean time there's every reason to proceed cautiously here. It's certainly not a stop-gap while green energy comes online - projects are many decades in length.

Nuclear would've been a great solution in the 70s and 80s to cut down on greenhouse emissions, but it is too late now to help from what I understand.
[citation needed]
It takes at least 10 years to build a latest generation nuclear power plant such as Flamanville 3 or Hinkley Point C.

According to the IPCC, we can't wait that long to reduce our emissions.

That is also not true, and not supported by the IPCC.

What do you mean "we can't wait that long?" Any time we start reducing emissions is better than never. There will never be a "too late" point to reach net zero.

Secondly, what is the alternative to reducing our carbon outprint in 10 years?

The alternative to building thousands of reactors that finish construction in ten years if we're lucky is building millions of wind turbines and solar panels that incrementally reduce our dependence on fossil fuels.
1. There is no "10 year" time limit. There is a window of time to keep our overall warming below 1.5c, which is virtually impossible regardless of which policies we choose to pursue, collectively.

2. There is no indication that we will be able to produce lithium-ion batteries with a high enough wh/kg density to create high enough energy storage capacity to replace carbon-based energy sources. Until such a time as that technology becomes possible and production-ready, we will need other sources of energy.

Not building nuclear with the assumption that grid-scale battery storage will become feasible is a potentially catastrophic policy decision.

There is no x year limit, there is a x ton of CO2 limit. Gradually reducing CO2 output has a lower area under the curve than doing something for ten years and then dropping output to zero.
You're drawing a huge false equivalence here. The idea that we can deploy renewables at scale within even two or three decades sufficient to reach net zero is patently false.
It's about as false as the idea that we can deploy nuclear at scale in that timeline.
I’m no expert, but I want to fight climate change and I am against nuclear energy.

https://actu.epfl.ch/news/what-if-half-of-switzerland-s-roof...

I am genuinely interested in your position : what are your concerns with nuclear energy?
Three Mile Island, Chernobyl, Fukushima, for example.

Or the fact that we don't really know where to store 'normal' nuclear waste safely.

And the fact that it takes ages to build a nuclear plant.

And they are always late, and over budget.

And that solar power and wind power apparently are cheaper.

> Three Mile Island, Chernobyl, Fukushima, for example.

And yet nuclear is still safer per unit of energy than any other sort of power.

> Or the fact that we don't really know where to store 'normal' nuclear waste safely.

The quantities are tiny, especially compared to the fossil fuel plants they'd be replacing (said plants happily spewing their far larger quantities of waste into the atmosphere).

> And the fact that it takes ages to build a nuclear plant.

> And they are always late, and over budget.

Due to regulatory hurdles, NIMBYism, and the usual government expenditure bloat that affects all public works projects (at least here in the US).

> And that solar power and wind power apparently are cheaper.

Per kilowatt, that's doubtful - particularly once you factor in the batteries needed to make solar/wind a suitable replacement for nuclear.

If you're going to advocate we skip nuclear, then the best bet would be to advocate a push for geothermal. The Earth is hot 24/7, and using that heat for power is "simply" a matter of digging a sufficiently-deep hole.

While I personally support nuclear energy as part of the solution, I am keenly aware that the Chernobyl Exclusion Zone (CEZ) (currently 1600 square miles) if applied to either of the decommissioned reactors in South East New York State would constitute a crisis of epic proportion.

The CEZ applied to the Shoreham reactor would make most of Long Island uninhabitable and in the event of a disaster there would be no practical way to evacuate the bulk of Long Island. In fact this evacuation concern lead to the decommissioning of the plant.

The CEZ applied to the Indian Point reactors would potentially make New York City north of Upper Manhattan similarly uninhabitable with similar evacuation issues.

I think Indian Point particularly should not have been decommissioned and replacing it with natural gas was a mistake but I am also empathetic to the concerns others have around safety.

Climate activists who predict doom but don’t want nuclear power are just cosplaying.

The modern world can’t run on renewables alone. It’s impossible.

>The modern world can’t run on renewables alone. It’s impossible.

Also true for nuclear.

> The modern world can’t run on renewables alone. It’s impossible.

It's not only possible, it's cheaper than many of the alternatives.

https://mitpress.mit.edu/books/electrify

That’s why Denmark and Germany, two EU countries with highest % wind, have the highest electricity cost in Europe. Math checks out.
Germany gets 75% of its energy from fossil fuels. Of course its electricity price went up.

British Columbia gets 99% of its energy from renewables. It's electricity price decreased in 2022.

This was before the war. You see the same with France and Belgium. Respectively 80 and 60 % nuclear. Very cheap prices until renewables were introduced.

99 % is impossible. Storage systems to achieve 99 % don't exist yet.

BC electricity is 87% hydroelectric, so 100% renewable is easy there, since all that hydro can act as giant batteries.

The link to the Electrify book in my original comment shows how to get to 100% green electricity. It's possible. Not easy nor cheap, but possible. It uses existing nuclear because that's cheap and rational. It doesn't include building more nuclear, though because that would add trillions to the cost.

Price is set at the margin. The price of a commodity is equal to the cost of production of the most expensive unit that meets demand.

Let's take good foo. Foo has three producers, A can make them for $1/unit, B for $2/unit and C for $3/unit. If A can satisfy demand then the price will be $1 and B&C won't make or sell anything. If A&B can satisfy demand then the price will be $2. But if A, B & C are required to meet demand the price will be $3 while A&B will be rolling in the profit.

Therefore the fact that the price of electricity is going up commensurate with fossil fuel prices is good evidence that fossil fuel electricity is the most expensive source.

No we couldn't switch the whole planet to nuclear that easily. If you are a proponent of nuclear, we are living on the biggest nuclear power plant we would ever want, we just have lay some pipe and extract the heat. I'm talking about geothermal.
Nuclear energy would have been a good idea about thirty or forty years ago. Today it is probably cheaper and faster to just build renewables.
Flagging this because it's a rhetorical question.
> If you believe climate change is an existential threat, how can you be against nuclear energy?

Mainstream nuclear power technology is easily repurposed to the manufacture of nuclear weapons. A corollary is that a world with no nuclear reactors is a world incapable of making nuclear bombs. If one considers nuclear war an existential threat on the same scale or greater than climate change, it may seem paradoxical to construct the tools that would proliferate that risk to fight another existential risk.

It's unlikely that this Pandora box can be closed now. As long as any geopolitical rivalry exists, it takes one crazy dictator to make this into the prisoners dilemma scenario.

The knowledge of physics cannot be unlearned easily, unless you imagine our future as a Dune-like world with strict prohibition on physics knowledge and experiments.

No it isn't. Refining Uranium to the purity usable for bombs is notoriously difficult, much harder than is needed for power generation.
Most (all?) power reactor designs produce plutonium as a by-product, as with many small-scale reactors. For example, Canada built a small research reactor [1] in India in 1954, similar to many Canadian heavy water reactor designs. It was supplied with natural uranium. It was repurposed to manufacture several kilograms of plutonium per year. As I understand it, any country with power reactors and a decent industrial-engineering base - such as Finland, Canada, Japan, Argentina, etc. -- could, in principle, build a fission weapon on rather short notice. Separation of plutonium from reactor waste is a horribly nasty business, but not challenging in the same way as uranium enrichment.

[1] https://en.wikipedia.org/wiki/CIRUS_reactor

> Mainstream nuclear power technology is easily repurposed to the manufacture of nuclear weapons. A corollary is that a world with no nuclear reactors is a world incapable of making nuclear bombs

That doesn't follow, just because <X> is one way to do <Y> doesn't mean you can't do <Y> without doing <X>.

It also doesn't really hold up in the real world - we had nuclear weapons before we had nuclear power plants. Admittedly we do refer to some of the devices used to make the first nuclear bombs as "reactors" (though they produced no electricity).

Nobody makes bombs with power reactors.

Plutonium production requires the reaction U238 + n => U239, decays to Np239 and then to Pu239.

However, there is also the reaction Pu239 + n => Pu240.

If you change your fuel out frequently you mostly get the first reaction, little of the second. If you leave the fuel in for too long you get a lot of the second.

Pu240 is a big headache for bomb makers. The problem is that you need to be able to *fully* assemble your bomb before it produces any substantial amount of heat that will interfere. It's not merely a matter of getting it past the critical point, you need to get it far past that point so the whole reaction goes before the heat blows it apart. There have been multiple criticality accidents in the atomic era--too much material in one place but assembled by ordinary forces. They're deadly to those nearby but they don't blow up much of anything.

Pu240 emits a lot of neutrons, it's prone to setting the mass off before full assembly is attained. If that happens you would have gotten a lot more boom for your buck simply piling up ordinary explosives.

One can hold any opinion you want, but I don't think it would be a very grounded opinion. Renewables like solar and wind should be the priority, but right now we're missing key pieces like 1) an effective power grid connecting the places that have solar and wind to the places that need power, and 2) a cost effective mechanism for smoothing over wind and solar's inconsistency.

Coal and natural gas are incredibly effective in these respects. The plants can be built near the places the power is needed and / or in places where the required grid already exists, and they inherently produce steady power on demand. Nuclear power is a drop in replacement for these attributes that can supplement renewables in a low emission way today.

Without it, or a series of technological breakthroughs in renewables, we'll just end up with an overall mix of renewables supplemented by coal and natural gas -- which isn't going to be enough. And it's not good to bet the world on the hope that we have some technological breakthrough.

Given enough time, we might instead focus purely on solar and wind, but we don't have enough time. We need to get to zero net emissions as soon as possible, and we need to use all options available to us if we want to take climate change seriously.

> 2) a cost effective mechanism for smoothing over wind and solar's inconsistency.

> Coal and natural gas are incredibly effective in these respects. [...] Nuclear power is a drop in replacement for these attributes that can supplement renewables in a low emission way today.

If I understand you right, you're saying that nuclear would be a feasible "drop-in" solution for coal/gas to solve the inconsistency problem of renewables. This is precisely /not/ the case, as nuclear power plants are extremely slow to adapt to sudden changes in the power grid (to get a feeling, a short research suggests that the shutdown time for a Pressurized Water Reactor, common e.g. in France, is about 90h [1]). Since crucially nuclear power cannot address the shortcomings of renewables, you still need a way to deal with high-frequency supply/demand changes (gas/coal/hydrogen/batteries/connected grid). Then you can decide whether you prefer covering the baseline with nuclear or renewables.

You can choose to use both, but you could also argue that why bother with nuclear in the first place if you can "usually" cover all your needs with renewables + some dynamic technology and then cover the gaps (no wind no sun) by maxing out your dynamic technologies. This might have high CO2 emissions in the moment, but is still amortized small.

Finally, electricitymap.org[2] gives a great overview of how the energy is composed in different countries.

[1]: https://patents.google.com/patent/US6944254B2/en

[2]: https://app.electricitymap.org/zone/DE

> This is precisely /not/ the case, as nuclear power plants are extremely slow to adapt to sudden changes in the power grid

Yes it is the case. Nuclear power plans are typically operated at baseload mode, where they run at their max capacity whenever online, but this is not a necessity of the technology.

Shutdown times are long, yes, but you don't shut down a plant to vary its output. Shutdown and start up times are long for many plants, independent of fuel. For example, most steam turbine natural gas and coal plants take more than 12 hours to start up.

Since you referred to France as an example, I'll use them too. France's EDF believes they vary their nuclear output by as much as 80 percent twice per day once renewables make up a significant contribution to overall power. They're currently equipped to handle swings as big as 21 gigawatts in under 30 minutes.

> you can "usually" cover all your needs with renewables + some dynamic technology and then cover the gaps (no wind no sun) by maxing out your dynamic technologies. This might have high CO2 emissions in the moment, but is still amortized small.

The math doesn't work out this way. We'll need to 3x our worldwide energy production by 2050. Developing countries are reaching for coal to do this because they aren't willing to pay the premiums required to make renewable energy work consistently. Energy storage needs to get an order of magnitude cheaper, or we need low carbon ways like nuclear to smooth that output.

On the map you shared, the majority of gray areas look like India does, and they're going to use a lot more energy in the next 30 years.

As much as I am for nuclear energy, your question is rather naive. The first mention of CO2 warming was made in the early 1900s and the research was definitive by 1981 [0].

The reality is that there was a coordinated disinformation and obfuscation campaign made by Exxon, Shell, BP, et al. They sacrificed our planets Goldilocks zone for 50 years of corporate profit.

Certainly grab your pitchfork. This is a human atrocity that will soon trump all others. But the ones you should be skewering are sitting in boardrooms right now figuring out how to squeeze the last few dollars from our planet before wet bulb temperatures reach 50C.

[0] https://pubs.giss.nasa.gov/abs/ha04600x.html

I don't know how much nuclear reactors have advanced. But I can understand the fear in the someone's back of their mind: What if something goes wrong?

I see this risk = Fallout x Probability. Even though the proponents argue that the tech is much more safer, the fallout is so huge and generational that its it neutralises the low probability of any accidents.

PS: I am neither for or against the nuclear tech.

But wouldn't even another Chernobyl-scale disaster be a drop in the bucket compared to what the climate doomsday cult says will happen if we don't stop burning coal and gas?
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Relevant: the intermittency of solar and wind production vs nuclear, in France over a small period of time.

https://mobile.twitter.com/tristankamin/status/1471538237739...

This tweet is a joke. Tristan knows perfectly that France did everything in its power to deploy renewables in the worst possible way (so as to prove that we must always rely on nuclear energy and support France's nuclear giants).

We have a word in French "foisennement" (https://fr.wikipedia.org/wiki/Foisonnement#En_.C3.A9nerg.C3....): although it may not be possible to rely only on renewables without storage, it's also easy not to have such intermittent sources. Wind and solar compensate one another quite well when the grid is designed for that.

As we speak, one out of two French nuclear plant is offline. We had to restart coal plants recently.

Even RTE (>50% owned by EDF, a nuclear giant) says going 100% renewables by 2050 in France is both feasible and affordable: https://www.rte-france.com/analyses-tendances-et-prospective...

It's real hard to argue against that kind of energy density.
http://www.daretothink.org/numbers-not-adjectives/how-long-w...

Nuclear as it exists is a finite energy source. We could have been in a similar situation if we doubled down on nuclear decades ago.

At some point, we will need to transition to nuclear systems built with different technologies, if they are feasable, which is still questionable, or other renewable energy sources, like solar and wind. No solution is going to be a magic bullet that solves the effect of climate change because it is the outcome stemming from several technological and social limitations.

It's only finite in the technical sense. Unless you do something really stupid like seal off "waste" that could still have a bunch more energy easily extracted, we have enough fissile material available for nuclear to be our sole energy source until the Sun blows up (which makes solar "finite" too, btw): https://whatisnuclear.com/blog/2020-10-28-nuclear-energy-is-...
I would say this is firmly in "Modest Proposal" territory, in the sense that the solution proposed would certainly contribute to solving the problem, but has enough negative effects that it doesn't make sense. As a parallel example, it's clear that if we killed off 50% of the earth's population we would substantially reduce the environmental impact of human activity on the climate. Yet nobody would seriously consider this as a solution to the climate problem, and there is no one proposing this and nobody would support it. But how can you be against this, if climate change in an existential threat?

Frankly I find it difficult to believe that there are still nuclear supporters out there. Fukushima was thankfully somewhat small in impact, but let's not lose sight of the fact that there was a full-on containment failure -- an actual honest-to-god meltdown. I have been assured so many times by so many nuclear experts and proponents that this sort of failure mode is simply not possible anymore.

Given that the impact of a major containment failure can be extremely dramatic, with death tolls in the millions, what makes people think that we understand the engineering problem enough?

Fossil fuels kill way more people, it’s just not dramatic so you don’t notice.

https://ourworldindata.org/nuclear-energy

You're speaking empirically, not in terms of risk exposure.

We're basically one major containment failure that is less lucky than Fukushima to completely invert those numbers.

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Nuclear power is too expensive and takes too long to build.

Renewables + storage is about 1/3 the price of nuclear and a new plant can go from proposal to delivering power in under 2 years. Nuclear takes more than 20 years.

I'd rather have 3x as much CO2 reduction per dollar 2 years from now than 1x as much 20 years from now.

Even as little as 5 years ago nuclear was a good choice. But renewables and storage have overtaken it.

> Renewables + storage is about 1/3 the price of nuclear and a new plant can go from proposal to delivering power in under 2 years

What storage that can provide the same availability and stability as a nuclear power plant? There is no such deployment today, and many of those planned are based on theoretical designs, and are thus with theoretical costs.

Renewables and storage are anti-fragile. Constantly fluctuating, their capacity to deal with interruptions is regularly tested and measured. They're also small, so any individual failure is easy to substitute.

Nuclear plants are quasi-stable. They can work properly for years, lulling their users into a false sense of security. But they do have occasional failures, resulting in massive outages.

A solar plant can withstand a Russian missile strike. https://www.pv-magazine.com/2022/06/02/ukrainian-solar-plant...

Any chance you have anything to support renewables + storage generating the same amount of power as a nuclear power plant are 1/3 the price? Preferable I would like to see reports that include all the cost of mining and processing for the battery material as well as how the used renewables sources are going to be disposed of.

Also as you are claiming nukes are take to long to build can you provide evidence of how long it would take to build and install enough renewables to output 1GW of power at all time? You would have to have massive battery farms to do this, so those must be included too.

You claim it takes under 2 years to get a renewable up yet a quick google search returns taking between 16-20 weeks for 1MW so 1GW (average output of one reactor) would take 16 weeks * 1000 so 16000 weeks. Which is 307 years.

Solar has a LCOE of $29-32. Nuclear has an LCOE of $129-$198.

https://www.lazard.com/perspective/lcoe2020

The US is adding 30GW of renewables in 2022 alone. It's expected to add over 50GW in 2023.

The 2.3GW of nuclear at Vogtle 3 & 4 cost $28.5B. The first permit was applied for in 2006 and if it is lucky it will go online in 2023.

Basically if the funding was there we could remove the fossil fuel problem by building renewables alone - before the first new nuclear power plant was able to come online.