Nuclear fission is the answer.
Today there are 440 nuclear reactors operating in 32 countries.
Nuclear fission power plants are expensive to build but once built the plant can last 50 years (maybe 80 years, maybe more) and the uranium fuel is very cheap, perhaps 10% of the cost of running the plant.
This is in stark contrast to natural gas, where the plant is less expensive to build, but then fuel costs rapidly accumulate. The fossil fuel is the dominant cost of running the plant. And natural gas is a poor choice if you care about greenhouse emissions.
Sam Altman owns a stake in Oklo, a small modular reactor company. Bill Gates has a huge stake in his TerraPower nuclear reactor company. Amazon recently purchased a "nuclear adjacent" data center from Talen Energy. Oracle announced that it is designing data centers with small modular nuclear reactors (https://news.ycombinator.com/item?id=41505514).
In China, 5 reactors are being built every year. 11 more were announced a few weeks ago. The United Arab Emirates (land of oil and sun) now gets 25% of its grid power from the Barakah nuclear power plant (four 1.4 GW reactors, a total of 5.6 GW).
Nuclear fission will play an important role in the future of grid energy. But you don't hear about it in the mainstream news yet. And many people (Germany, Spain, I'm looking at you) still fear it. Often these people are afraid of nuclear waste, despite it being extremely tiny and safely contained (https://en.wikipedia.org/wiki/Dry_cask_storage). Education will fix this.
Nuclear fission is safe, clean, secure, and reliable.
I don’t understand why wind solar is subject to absolutes devoid of probability - “what if the sun and wind stop simultaneously for 2 months?”
We know the probability that the sun stops shining and the wind stops blowing for N days, we can calculate it from historical data.
You can absolutely build solar+wind+storage systems that deliver 24/7/365 energy with many nines SLAs, on the real earth with real statistics on weather.
This isn't aimed at you, but more at the people dismissing the utility of solar and wind power.
Once you start adding nines, nuclear starts to be become attractive again. Hence these deals.
Exactly. And everyone is putting their heads in the sand over this calculation.
Seasonal energy storage is simply not a problem we have even begun to solve yet. We know the numbers, we're just not talking about them.
Something close to that happens almost every year in Europe. Last year there was nearly 3 weeks in winter where there was very little wind across the continent (<20% capacity production on all wind farms), and obviously little to no solar (high latitudes).
Build all of it.
Anything alive after that wouldn't be human and wouldn't be worried about electricity.
Forget about two months, the cost to battery store just for two or three days is enormous. At the same time, it does not happen often enough to justify the cost over just using natural gas as a backup, so that is how it is done.
But apparently, in zero marginal cost energy it’s impossible. The only energy systems where you can have reliability have rent seeking minerals companies selling you fuel.
Question though... do we understand the tail risk from volcanos on solar outputs, either natural-occurring eruptions or maliciously-triggered ones?
Same reason why almost no one goes 100% solar at home deep in the south/north because you'd need 20x your needed capacity in batteries to account for that once in a decade bleak winter week
We absolutely do not have long-term climate models with that sort of accuracy.
You’re totally correct that renewables and batteries aren’t yet able to bridge the gap in times of bad weather, but what they are excellent at is spoiling the economics of any other type of cheap electricity generation that comes with high capital costs.
In the short run, sure. In the long run, cheap power builds its own demand. A country that commits to a certain amount of nuclear baseload, even if run at a loss in the short term, is injecting a very real industrial subsidy into its system. (The way to ensure you don’t get a dog is to subsidise long-term loans for private borrowers. They still need to make a profit someday. But you reduce the time value of money for them.)
The investment doesn’t make sense for a non-nuclear power. But if you’re already producing nuclear waste at scale for your military, it’s a little silly to pretend you’re safer without a civilian reactor in the middle of a desert while all manner of subs and ships patrol your coast.
EVERYBODY deserves clean water, electricity, housing and food.
The only time it won't scale to meet output is if the price stays high, but if the nuclear energy is already on the grid and has elastic pricing, the rest will take care of itself.
In a rational environment you run your nuclear at 100% 24x7. The cost of the fuel is not material running at 10% vs. 100%. Letting parasitic intermittent power sources screw this up is simply financial engineering by largely bad actors. At least currently.
Then you use intermittent power sources to provide your peak loads during the day, and any excess you ideally start putting into storage - whatever that may be. If you have effectively free marginal power during certain peak times, I'm positive industry will find a way to turn that into money.
I still have hope sanity returns to the energy discussion, but it likely won't happen in the US during my lifetime. The cost of solar and wind is entirely politics - the storage cost is literally never considered when reading articles on the subject. The hidden costs are likely 10x or so what the marginal cost per kwh everyone loves to spew. Lots of folks getting massively rich off this disinformation so there is huge inertia behind ignoring it - even from very smart people that should absolutely know better after a few hours of reading on the subject. Just look at many of the posts here at HN.
The environmental costs of methane (natural gas) are simply not being considered. The methane leaks into the environment are underestimated by at least 10x if not much, much, more. Pivoting from nuclear and to natural gas has been an utter environmental disaster.
They pulled the green crowd along for the ride hook, line, and sinker.
See also: the 2001 California electricity crisis.
https://en.wikipedia.org/wiki/2000–2001_California_electrici...
See also: Enron
https://en.wikipedia.org/wiki/2000–2001_California_electrici...
If we have designed our markets to price cheap, reliable electricity out of the market and instead prefer expensive unreliable electricity, we've really f*ed up.
Get down your "education" horse and solve your own problems first, asuming you are from the USA. In terms of energy we are good, thank you, and need no lessons from the USA.
> We are at 20% nuclear,
Doesn't this prove the parent comment's point, that the best mix of energy is renewables supplemented by a base of nuclear power?
> Get down your "education" horse and solve your own problems first, asuming you are from the USA
This feels unnecessary. Spain has done an amazing job building an energy base, let's talk about how we can export to different countries and climates instead of putting people down.
You can get to 100% carbon free by using a combination of overprovisioning, source diversity, geographic diversity, storage and statistics. You can't get to 100% but you can get to an arbitrary number of nines and say "good enough". The grid is only 99.99% reliable so having generation be better than that has little value.
If you really want 100% reliability out of a primarily-solar grid you choose something the opposite of nuclear: something cheap to build but expensive to fuel. For example, synthetic natural gas. The cost of the fuel has little relevance when it only has a duty cycle of 0.1%. And they're cheap to build and likely don't even need building because we already have lots of them.
China built a lot of nuclear reactors in the 2010's, but is slowing their build rate. 10GW/year of nuclear power is not very impressive in a country that built 100GW of solar in the first half of 2024.
That being said, I still support restarting TMI. The main costs of nuclear are in building and decomissioning them. We've already incurred the cost of building TMI and we're already on the hook for decomissioning it, so running it is likely cost-effective once you remove the sunk costs.
I think this is why they call it baseload. Yes it costs the same, used or unused... but it's always there, ready to be used. This is its strength, not a defect.
> If you really want 100% reliability out of a primarily-solar grid
But no reasonable person wants that. They want "100% reliability, and who cares where it comes from". If you're environmentally minded, you can tack on a "with no carbon"... but even that isn't the same thing as a "primarily solar grid".
An energy mix is the answer.
One of the parts that is mixed in, can be nuclear. Probably should be. But always a small part of the mix. Nuclear is slow: slow to power up, slow to adjust to demand or supply from others in the mix. And extremely slow to build.
Nuclear plants that already run, often take days, some even weeks to adjust significant: so if on monday the wind stops blowing, on tuesday it gets cloudy, and on tuesday afternoon everyone needs to charge their EV or fire up the AC, it'll often take until next week friday before a nuclear plant can deliver this. Modern plants are faster, and theres many "hacks" where energy is blown out (wasted) for short peaks down, or where there's always 10% wasted for short peaks up.
So nuclear needs innovation. But most of all, needs to be "just a piece of the puzzle" and never the only piece.
Nuclear fission, and other of this "innovation" isn't there. That's the other slow part of nuclear. Even if its production ready today, that plant won't run for another decade, often 20+ years (except china, which tells you the reason why it's so rediculous slow: NIMBY, regulations, democracy)
So, sorry, aside from all the other (fictive) problems with nuclear (waste, risk etc), nuclear has a serious problem of being just too damn slow to solve *todays* energy crisis on its own.
Edit: Source, I've interned in power plants. A comparable coal plant, took one and a half month to power up from zero to producing electricity: which happened every 5 years for revision and three months to power down. It could adjust 10% in a few hours, but everything over 30% needed week(s) of planning ahead. I made those plannings.
All of those things, to me, mean that it should be a large part of the mix. Nuclear should be the backbone of our energy production, and should be sufficient to supply our baseline needs.
That said, in places where hydro or geothermal are practical, those should be used in preference to nuclear. They're cheaper, more reliable, and just better in almost every way.
Solar, wind, tidal, wave action, and so on should be what we build on top of that baseline. They should be cheaper to build and operate, but far less consistent.
If you want to train a huge LLM, or smelt metals, or do anything that's energy-intensive but not very time-sensitive, you schedule those loads during times where energy production exceeds existing demand.
... and you know when that happens by pricing energy based on availability. Electricity should be cheapest when we have more than we need, and more expensive when the inconsistent sources listed above aren't producing. In other words, market forces are sufficient to make this happen.
In fact, one of the cool things about solar and wind in particular is that they are so aggressively cyclical that it's possible that energy prices could actually go negative - not often, or regularly, but possible. That opens the door to all kinds of use cases that would otherwise never be profitable, and using those types of technologies often leads to efficiency gains that can eventually make them more efficient than the current alternatives.
> No.
> An energy mix is the answer.
Maybe that “No.” was unnecessary.
Gas peakers are cheap compared to nuclear, and arguably much more appropriate for the foreseeable future when it comes to making up for renewable energy's inconsistency problems.
I mostly disagree with your initial assertion as well. A sufficiently large and diversified grid will largely cover itself, and when it doesn't, that's what peakers and so on will handle.
It's always a question of probability and risk. If we get extreme weather conditions that our storage cannot keep up then we have to temporarily reduce usage and in the longer term increase storage capacity.
That said, I'm not against nuclear. But I'm against simplisticly dismissing renewables.
I never understood the hysteria of the anti-nuclear people. I mean, the stats are out there for everyone to verify. Even the worst nuclear disaster killed no more than 100 people[1]. Plus, the new generation of the nuclear reactor can auto shut down when the temperature keeps rising. As for the nuclear waste, we need just one football field to store all the waste even before the recycling, which can recoup 90% of the material.
I'm also aware of the argument that even one death is too many. But if we follow this argument, wouldn't we need to account for the deaths caused by the alternative energy source, like coal? And the death would be in the thousands, right? And why won't we protest that?
[1]https://en.wikipedia.org/wiki/List_of_nuclear_and_radiation_...
Basically, yes most fears of nuclear power are irrational. But that's part of the problem—even if nuclear power polluted in a manner similar to coal power and there wasn't the risk of acute disaster, I still think Americans would be quite wary of the technology purely due to cultural priors.
Nuclear has the potential to fulfill all this future growth in energy requirements. The fundamental problem of nuclear is not safety, or waste, or proliferation. It is cost. And this is a solvable problem. The total cost of the 4 Barakah reactors you mentioned was $32 billion, or $5.7 billion/GW. The cost of utility solar is about $1 billion/GW, but the capacity factor is only about 30%, while the capacity factor of nuclear is about 90%. So $5.7 at 90% is still a bit more expensive than $1 at 30%, but if the cost of nuclear goes down by a factor of 2, it's at the same level as solar. And there is no reason to think such a reduction is not possible.
I'm in favor of nuclear too, but this is a ridiculous point. Your first sentence mentions solar and wind and your second only addresses solar. If the sun doesn't shine for n+1 days, the wind is still going to be available most or all of those days.
The US (and Europe) are big places with diverse energy demand and weather patterns, and smart renewable energy developers will seek out resources that are decorrelated with existing supplies because the power can be sold at higher prices.
Batteries are also getting cheap enough to profitably arbitrage intraday price variability.
Another thing that gets ignored in these discussions is that in any net zero scenario there is going to be a fair bit of green hydrogen/biofuels/synfuel produced for transport and industrial use. A fraction of that could be diverted to gas peaker plants when monster dunkelflautes manifest themselves.
The key difference here is that HVDC is exceedingly efficient in energy transfer and has effectively negligible losses compared to AC over distance.
The US is big enough that any impact from weather should basically average out over that distance.
Generally agree. However, I want to point out that it could defined be possible if designed the right way. You can use "batteries" like pumped hydro, which could protect against longer duration outages. Bonus is that when there's no sun, there's usually rain, which one would hope would also offset some of the draining of the water.
Nuclear is not safe. Every time proponents say "new designs are safe" eventually a new disaster proves this lie. Then the nuclear proponents say "oh well that was an old design, new designs are safe!"
Nuclear is too expensive. Renewables even with storage are way cheaper! We can way over build renewables. We can distribute them, because "bad weather" is regional. All for much cheaper than nuclear.
Stop pushing this out-dated, unsafe and expensive technology. Its time has passed.
Nothing is 100.0% safe - but as far as I can find nuclear comes incredibly close[0] even when including Chernobyl and Fukushima.
1. People are educated about true risk AND forget about Fukushima, Three Mile Island, and Chernobyl. Or the need to have iodine pills if you live near one. ("If it's so safe, why do I need the iodine pills?")
2. Bad actors face actual prison time, not just corporate fines. Meanwhile, today, the bad actors still get bonuses.
(You can kinda blame this one on the simpsons, but I do want for Christmas this year a Simpsons Springfield Isotopes Hockey Jersey with the 3-eyed fish. https://jerseyninja.com/springfield-iceotopes-simpson-hockey...)
3. We grow a lot of crops in the desert in the US. We need a lot of water to do that. There's gigawatts of solar potential there. And the cost of one reactor is $35B US for 1GW. For solar/wind you could have 10GW for around $10B US and then there's $25B US for batteries.
[1] https://arstechnica.com/science/2021/07/climate-events-are-t...
I don't quite understand how this makes sense financially for Microsoft. A 1 GW offshore wind farm costs about 1 billion [1]. The Gemini Solar + Battery Storage Project in Nevada is about 1.1 billion (690 MW + 380 MW battery). [2]
With solar, wind and battery prices continuously trending downwards, how does it make sense to invest in nuclear which nearly always has cost overruns, bad PR and unknown potential future costs?
[1] https://businessnorway.com/articles/cost-of-wind-turbines [2] https://commercialsolarguy.com/americas-first-gigawatt-solar...
These old plants are ridden with hidden costs, and I would bet all of my money no one at Microsoft is aware of the scale of this. I'm not talking "hidden costs" like you didn't do your homework. I'm talking hidden costs like you need to be on the inside, on the ground, to know about. Hidden costs like "everyone subtly nods but doesn't say it out loud" kind of hidden costs.
The NRC has beyond suffocating regulation for nuclear energy. This is maybe a good thing in some regards. But let me put it this way:
Imagine you bought a car from 1975 and could _only_ put in original parts. Need a new battery? Better find out how to get a factory one from 1975. Can't get one from 1975? Be prepared to pay millions, perhaps tens of millions, for a mountain of testing and certification for a new $100 part that is still just an off the shelf battery.
Are you suggesting Constellation will be surprised at the hidden costs?
Edit:
The article linked states:
> Roughly, one could assume that the energy storage portion of the project – 1.4 GWh worth
So, at the 690GW (which is unrealistic) nameplate capacity of the solar field, they are installing roughly 120 minutes worth of energy storage to back it. This is actually a better number than most projects I've seen, but still utterly inadequate and representative of the typical project.
At the moment the goal of battery storage additions to solar plants is to soften their peak power production and broaden the time they provide power to extend to the morning and dinner time.
690 MW.
A 1 GW offshore wind farm does not produce anywhere close to 1 GW most of the time.
A 1 GW nuclear reactor can produce 1 GW 90%+ of the time, with the downtime being _scheduled_ maintenance.
And many of those nuclear down times are for month+ times. Good luck getting enough batteries to get through that!
Offshore wind typically has a capacity factor of ~50%. Add a smaller number of batteries than you would need for nuclear, and it's going to be cost competitive against any new build.
As far as if it's cost competitive with TMI, I'm not so sure. New build nuclear is likely going to be >$190/MWh. Running the numbers being bandied about for the "Pennsylvania GDP increase", which is a really funny way to say "cost of the electricity for 20 years," and you get $115/MWh. Which is really pricy still. I'm not saying that it's a bad idea to get TMI going again, just that it's pricy, and there's likely lots of other constraints that went into deciding to do this.
The AI space seems to have weird overlaps with nuclear that I don't quite get.
Not sure if it's just the social circles the AI people run in.
Zuckerberg was all excited on a podcast about how energy was the limiting factor for AI, waited for him to say something about how cheap and fast rollouts of renewables made sense but no, nuclear. Even this refurb is talking minimum 4 years to get going. All very strange.
Also maybe good for PR?
But when a few hundred people, or really just 0 people[2] die in one place at one time, people lose their minds.
[1]: https://www.theguardian.com/environment/2023/nov/23/coal-pow... [2]: An inter-agency analysis concluded that the accident did not raise radioactivity far enough above background levels to cause even one additional cancer death among the people in the area https://en.wikipedia.org/wiki/Three_Mile_Island_accident
Nuclear power plants, in contrast, very rarely have issues: https://ourworldindata.org/grapher/death-rates-from-energy-p...
Nobody died at Fukushima (from the nuclear incident that is, 10000 died because of the Tsunami)
Hundreds of people died at Chernobyl.
Those are all the major accidents at production nuclear power plant that have ever occured. There are no others.
There is just one that was deadly, and it is about as representative of the safety of nuclear power as flying in a 1920s' plane compared to a state of the art Airbus.
That would not be a problem. FAANG controls the OSs and the media. /s
The representative democracy does attempt to solve this problem; you pick a representative you understand is aligned with your interests on the issues you do understand and trust they and their experts will do well on the rest.
It's not a perfect system, but unless the populace can be given free time and education to consider individual policies based on reliable evidence and not hearsay from biased sources, it's the best we can do.
Generally a NIMBY is anti-progress and very selfish, putting themselves ahead of everyone. My dad was called to help resolve TMI during the meltdown and was part of the engineering design group the the Beaver Valley nuclear power station. People were complaining they had cows dying of radiation years before the plant was completed. NIMBYs suck.
The climate activists should really be advocating for nuclear. It's cheap, has the lowest emissions, and is really safe. But, of course, people will object. It's hard for PR to say that, even if you can show the data. People rarely change their mind because of data.
That hasn't been the case for at least a decade now - not after safety requirements were brought to where they are now.
And that 60-80 year lifetime which is supposed to spread the cost is a myth. Most plants are decommissioned before they turn 40 years of operation:
https://www.statista.com/statistics/272139/age-distribution-...
Also you can't really make meaningful conclusions based on that plot due to obvious reasons. It only includes "Number of nuclear reactors shutdown worldwide". The construction peak was ~1980. The oldest commercial plant was opened only 68 years ago and obviously the early plants much less safe and had a shorter lifetime which introduces another bias...
The ballooning of costs is not even significantly due to changing safety requirements, but often due to compliance and environmental requirements. Those are political requirements that could be removed in one fell swoop.
This of course is nonsense because it requires the entire industry to ignore market conditions for no good reason. You can't fight the market, not on a large scale, and especially not in the US. Power plants are only built if they will be profitable in a reasonable time frame. If power was too cheap to meter then nobody would be building new plants, there would be no return on the investment.
This is also why nobody builds nuclear power plants anymore. They are too expensive to build and can't compete on price. Especially not with renewables cratering the price. There's a reason solar installs are outpacing even the most optimistic projections from a few years ago. You can argue theory all day long on the Internet, but the people doing the actual work have made their decision.
> If you're an AI hater, it's frustrating to see what you consider a useless technology growing to take up more and more of our energy mix, eating into climate gains being made from the immense growth of renewable energy. If you're an AI maximalist, on the other hand, the significant energy use projected for AI is a small price to pay for a technology that you think will revolutionize our lives much more than technologies like air conditioning, refrigeration, or the automobile ever did.
> The answer probably lies somewhere in the middle. In the long run, AI's energy use will likely level off at a significant but not grid-melting level that's roughly commensurate with the collective economic value we as a society get from it. Whether the trade-offs inherent in that shift are "worth it" involves a lot of value judgements that go well beyond how much electricity a bunch of servers are using.
Source: https://arstechnica.com/ai/2024/06/is-generative-ai-really-g...
We might have a severe lack of people who can work in the field at plants and tech getting involved is probably a good thing on making that field more prominent for new students than it currently is.
"Nuclear Engineer for Microsoft" is a cool title.
Reading the commission report, they have about $733m in the decommissioning fund, while decommissioning is projected to cost $1B. Active demolition projected to start 2046, completed in 2052. They've started some work on debris demoval, but it looks they're going to take a break 2030-2046 to let the fund accrue (at expected 2% real RoR) enough to get the fund to $1B.
Isn't that insane? So from 2030-2046, it will just sit there "mothballed" with a minimum spent on security and so on, just for the fund to gain value?
https://www.nrc.gov/reading-rm/doc-collections/fact-sheets/3...
If this story shocked you, do yourself a favor and check out Erik Townsend's docuseries on the need for nuclear to even come close to filling humanity's need for energy in the coming decades.
Or is Microsoft just buying power from the plant's owner on the energy market?
A lot of renewable energy projects were financed through similar agreements, called PPAs.
There are pros and cons of each approach, market-based is a little less intuitive but not necessarily worse, it depends on the application.
They are better for the corps communication and worse for anyone else.
Transporting electricity over distance has a non trivial cost in $ but also ressources and energy, as well as relocating an industry near a clean energy source or optimizing the production units.
Carbon-matching systems are great for entreprise wanting to claim they don’t produce carbon (24/7 carbon neutral) while they do. It does not depict the CO2E one (entreprise) did product de facto.
Wait, it literally was.
So someone is paying massive insurance premiums on this right?
Not "privatize the profits, socialize the costs" right?
Given how difficult it’s proven to build new nuclear around the world, what are the odds of this recommissioning being on time and budget?
The delay is usually heavily on the permitting/legal challenges/etc. stage, not actual concrete-pouring and equipment installation, so an already-once-permitted site will probably do better relatively, too.
Extra reactors at exising operating sites would make even more sense, though. Putting 2-4 extra AP-1000 at ~1GW/ea at each of the 54 facilities operating today would be huge and minimal incremental risk, and if there were a shortcut one time permitting process for it...
Average construction times have been more or less constant the last five decades and are currently at 6.5 years (trend: slightly falling). Median (typical) time is lower.
https://www.sustainabilitybynumbers.com/p/nuclear-constructi...
(Although to be fair there's been a fair bit of wind and solar subsidized heavily by crypto, as well as flare gas power generation, and a bit of PV solar)
This shit is largely what this voracious drive for more power is helping build. Even crypto wasn't this shitty, since at least its fundamental application wasn't nearly so broadly parasitic. Yet now I hear very little about uselessly burning vast loads of energy.
I guess if the companies responsible for the above trash heap are largely the same ones that hire or indirectly subsidize the jobs of so many people in the tech world as represented by a site like HN, then the whole dumpster fire is okay.
I'm also fairly sure that OpenAI, Microsoft and others would happily burn baby seals in coal furnaces if it meant powering their precious AI data needs. It's only for PR that they make useful noises about using clean power.
Ah yes, the ‘noted’ Three Mile Island. I wonder why this particular plant enjoys a degree of fame? The name certainly is familiar…
Seems like a rebranding might have made sense - like the UK switched Sellafield to Winscale.
Yeah, as shown by this very thread (and that your comment is greyed out).
Nuclear energy is good. Whether or not AI consuming that energy is good or not, depends on how much you value AI as a technology. No one cares about how much energy gaming PCs or refrigerators uses, because their existence is not currently controversial.
See: https://arstechnica.com/ai/2024/06/is-generative-ai-really-g...
How far we’ve come. Is it all due to the prospect of finally seeing a feasible road to AGI?!
All you need to look at is the carbon footprint of people who clamor and demonstrate for green policies. Including idiots gluing themselves to roadways —all the idle traffic they create and the manpower necessary to remove them and repair the damage. It’s a sucker’s game.
ESG is a huge thing. Some of it is greenwashing, some is outright scam, some is legitimate pressure to make better environmental decisions.
But insisting that ESG proponents can’t make suboptimal individual choices is silly.
Or just hope. AGI is a capitalist's wet dream: it would completely undercut labor's power or allow it to be replaced completely, and it could also allow the developer to muscle out a large fraction of other capitalists from the economy.
Even though AGI would be terrible for the rest of us, it's got so much upside for VC types they can't help themselves.
