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Google commits to buying power generated by nuclear-energy startup Kairos Power

(www.wsj.com)
589 points atomic128 | 5 comments | 14 Oct 24 19:06 UTC | HN request time: 0s | source
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philipkglass ◴[14 Oct 24 19:32 UTC] No.41841019[source]
Based on the headline I thought that this was an enormous capital commitment for an enormous generating capacity, but the deal is with a company called Kairos that is developing small modular reactors with 75 megawatts of electrical output each [1]. 7 reactors of this type, collectively, would supply 525 megawatts (less than half of a typical new commercial power reactor like the AP1000, HPR1000, EPR, or APR1400).

Kairos is in a pretty early stage. They started building a test reactor this summer, scheduled for completion by 2027:

https://www.energy.gov/ne/articles/kairos-power-starts-const...

EDIT: Statement from the official Google announcement linked by xnx below [2]:

Today, we’re building on these efforts by signing the world’s first corporate agreement to purchase nuclear energy from multiple small modular reactors (SMRs) to be developed by Kairos Power. The initial phase of work is intended to bring Kairos Power’s first SMR online quickly and safely by 2030, followed by additional reactor deployments through 2035. Overall, this deal will enable up to 500 MW of new 24/7 carbon-free power to U.S. electricity grids and help more communities benefit from clean and affordable nuclear power.

[1] https://kairospower.com/technology/

[2] https://news.ycombinator.com/item?id=41841108

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onepointsixC ◴[14 Oct 24 19:37 UTC] No.41841055[source]
Yeah I’m not going to lie, that’s quite disappointing. Google funding several AP1000’s would be huge.
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iknowstuff ◴[14 Oct 24 19:39 UTC] No.41841072[source]
seeing how 2GW of nuclear cost $34B in Georgia, why would Google waste $120B when they can get the same output for at most half the price (and realistically more like 1/10th) using renewables and batteries? and they’d have results in 2 years instead of 2 decades.

edit: to be clear, 1GW of wind or solar is $1B. Build 3GW for overcapacity and you’re still at just 17% of the cost of 1GW of nuclear, and you technically have 3x more capacity. Now figure out how many megapacks you can buy for the $14B/GW you saved https://www.tesla.com/megapack/design (answer: 16GW/68GWh)

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JumpCrisscross ◴[14 Oct 24 19:45 UTC] No.41841147[source]
> using renewables and batteries? and they’d have results in 2 years instead of 2 decades

We have nothing close to the battery fabrication pipeline to make that timeline true, certainly not at scale. If this move works, Google will have cemented its power needs and economics for decades to come.

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matthewdgreen ◴[14 Oct 24 20:21 UTC] No.41841512[source]
Global battery manufacturing capacity was 2,600GWh in 2023 [1], and has probably already exceeded that this year. The IEA projects closer to 4TWh by 2025, and nearly 7TWh by 2030 [2].

You need to pay attention because this is happening fast.

[1] https://www.bloomberg.com/news/newsletters/2024-04-12/china-... [2] https://www.iea.org/data-and-statistics/charts/lithium-ion-b...

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JumpCrisscross ◴[14 Oct 24 20:31 UTC] No.41841634[source]
> nearly 7TWh by 2030

That's a big number. Here's a bigger one: 30,000 TWh, about our current electricity consumption [1]. 7 TWh in 2030 is less than 1/4,000th total electriciy production today. (You obviously don't need 1:1 coverage. But 2 hours in 2030 against a year's demand today is still a nudge.)

Now consider EVs. Then add the tens of TWh of annual power demand AI is expected to add to power demand [2]. (And I'm assuming a free market for battery cells, which obviously isn't where we're heading. So add local production bottlenecks to the mix.)

Battery numbers are going up. But they aren't going up fast enough and never could have, not unless we ditch electrifying transportation. Nukes or gas. Anyone pretending there is a third way is defaulting to one or the other.

[1] https://www.iea.org/reports/electricity-information-overview...

[2] https://www.goldmansachs.com/insights/articles/AI-poised-to-...

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ViewTrick1002 ◴[14 Oct 24 21:18 UTC] No.41842132[source]
5 hours of storage and a 98.6% renewables system.

https://reneweconomy.com.au/a-near-100-per-cent-renewable-gr...

Investing in nuclear power today is an insane prospect when the energy market is being reshaped at this speed.

In Europe old paid off nuclear plants are regularly being forced off the markets due to supplying too expensive energy.

This will only worsen the nuclear business case as renewable expansion continues, today being a bonanza fueled by finally finding an energy source cheaper than fossil fuel.

Nuclear power is essentially pissing against the wind hoping the 1960s returns.

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JumpCrisscross ◴[14 Oct 24 21:57 UTC] No.41842457[source]
> nuclear power today is an insane prospect when the energy market is being reshaped at this speed

We’re still more than a decade away from having enough batteries to make this shift. Again, excluding EVs and AI. That’s why we’re reänimating coal plants and building new gas turbines.

I’d also love to see the numbers on that simulation going from 98.6% coverage to what we expect from a modern grid. (And if the balance is provided by gas or something else.) It should surprise nobody that going from 1 sigma to 2 can cost as much as 2 to 3, even if the percentage gap is much smaller.

> Europe old paid off nuclear plants are regularly being forced off the markets due to supplying too expensive energy

Europe has invested €1.5tn into new gas infrastructure. That doesn’t go poor without a fight and collateral damage.

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ViewTrick1002 ◴[14 Oct 24 22:07 UTC] No.41842571[source]
A study recently found that a nuclear powered grid to be vastly more expensive than a renewable grid when looking at total system cost.

Nuclear power needs to come down by 85% in cost to be equal to the renewable system.

Every dollar invested in nuclear today prolongs our reliance on fossil fuels. We get enormously more value of the money simply by building renewables.

  The study finds that investments in flexibility in the electricity supply are needed in both systems due to the constant production pattern of nuclear and the variability of renewable energy sources. However, the scenario with high nuclear implementation is 1.2 billion EUR more expensive annually compared to a scenario only based on renewables, with all systems completely balancing supply and demand across all energy sectors in every hour. For nuclear power to be cost competitive with renewables an investment cost of 1.55 MEUR/MW must be achieved, which is substantially below any cost projection for nuclear power.
https://www.sciencedirect.com/science/article/pii/S030626192...
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1. Moldoteck ◴[15 Oct 24 08:43 UTC] No.41846394{9}[source]
https://www.sciencedirect.com/science/article/abs/pii/S03605... here's another one or this https://liftoff.energy.gov/advanced-nuclear/
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2. ViewTrick1002 ◴[15 Oct 24 09:38 UTC] No.41846759[source]
> https://www.sciencedirect.com/science/article/abs/pii/S03605...

Yes, that shit study which models supplying the entire grid with one energy source and lithium storage through all weather conditions.

I would suggest reading the study I linked so you can see the difference in methodology when credible researches in the field tackle similar questions.

The credible studies are focused on simulating the energy system and market with real world constraints. Which apparently works out way cheaper when not involving nuclear in the picture.

> https://liftoff.energy.gov/advanced-nuclear/

That entire report is an exercise in selectively choosing data to misrepresent renewables and present nuclear power in the best possible light and wishful thinking.

To the degree that the prominent "renewables vs. nuclear" graph they keep repeating on the webpage and figure 6 in the report is straight up misleading.

This is the source:

What is different about different net-zero carbon electricity systems?

https://www.sciencedirect.com/science/article/pii/S266627872...

Utilizing storage costs from 2018 and then of course making the comparison against the model not incorporating any hydrogen derived zero carbon fuel to solve seasonal problems.

Which is todays suggestion for solving the final 1-2% requiring seasonal storage in the late 2030s.

Something akin to todays peaker plants financed on capacity because they run too little to be economical on their own, but zero carbon.

Would they have chosen the ReBF model the difference between made up optimal nuclear power and 2018 renewables would be: $80-94/MWh and $82-102/MWh.

It is essentially: Nukebros writes reports for nukebros, they confirm their own bias. Simply an attempt to justify another massive round of government subsidies on nuclear power.

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3. Moldoteck ◴[15 Oct 24 09:48 UTC] No.41846812[source]
lmao, you say shit study but you suggest using green h2 as backup which not only isn't economically feasible (for now at least) but current generators are either using a mix with gas or use pure h2 with huge nox releases due to high temp burning. Not just that, most lcoe costs magically assume that 4h storage is enough. Look at yesterday's Germany generation and tell me how 4h storage will be enough there. Or maybe I should link to amount of subsidies Germany is pouring each year in renewables like https://www.bloomberg.com/news/articles/2024-05-29/germany-s... or like https://www.reuters.com/business/energy/germany-looks-specia... It's funny that when I ask ren-bros how much subsidies edf in France is getting they are either silent or are linking to price shielding that's totally unrelated and is present in most eu countries after russia's invasion. Renewable bros as usual are dunking on nuclear and promoting their clean supply like a mecca without facing hard reality - most renewables now are subsidized by fossils and will be in any close future
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4. Qwertious ◴[15 Oct 24 13:32 UTC] No.41848410{3}[source]
>you suggest using green h2 as backup which not only isn't economically feasible (for now at least)

That's poor logic, h2 as a last-2%er doesn't need to be feasible until we've gotten to the 98% mark. And honestly, h2 feasibility is a function of cheap energy anyway, which probably means midday solar while solar farms are chasing dusk prices.

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5. Moldoteck ◴[15 Oct 24 13:57 UTC] No.41848661{4}[source]
not, h2 feasibility in the context of power generation depends on many more factors, including how frequent the plant is used when day hours will be mostly tapped by solar generation and how you'll do price compensation. And in the context of h2 for renewables as a peaker, it'll need to be much more than 2%. And again, the emission problem for h2 generation isn't solved yet beyond fuel cells