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by ceejayoz23 hours ago |
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upvoteby Joker_vD21 hours ago|
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> Sure, and enriched uranium comes from the ground

Uranium can also come from the ocean water (there is, apparently, quite a lot of it in there, relatively speaking). Japan experimented with the technology in the nineties, but it really was much cheaper to just mine it from the ground, so they abandoned it.

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upvoteby somenameforme12 hours ago|
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It's about 3 parts per billion. Uranium is about $85/pound, so you'd need to be able to completely process/extract about 40 million gallons of saltwater for $85 to break even. The real cost there is orders of magnitude higher. It's one reason the claim about the Earth having vast amounts of uranium is quite disingenuous. The amount of cost efficient accessible uranium is only enough to last ~1 century at current consumption rates. If nuclear energy scaled up significantly, we'd run out in a matter of decades if not less, or we send the price of uranium skyrocketing and the price arguments would need to be significantly adjusted.
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upvoteby numpad020 hours ago|
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Japan is also barred from doing own enrichment, being a non-nuclear state. Though, there nevertheless is a dormant set of requisite facilities.
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upvoteby redsocksfan4516 hours ago|
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You're wrong. Japan does do their own enrichment, 150k SWUs at Rokkasho with plans to bring that up to 500k SWUs a year soon. If they chose to make.bombs instead of fuel, they could make dozens a year.
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upvoteby numpad011 hours ago|
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That's the dormant plant. Rokkasho-mura plant is officially incomplete for decades, doing tests and upgrades without actual production.

If you think otherwise and you're not wrong, and I think you ARE not mistaken since this isn't the first time someone other than myself mentioned it here, that means they're making bombs because we in Japanese public aren't told about it. There has only been just some routine commentaries from local mayors at most.

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upvoteby yorwba10 hours ago|
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I think you might be confusing the Rokkasho Reprocessing Plant (not yet operational, intended for plutonium extraction from spent fuel) and the Rokkasho Uranium Enrichment plant, which has been running at 75 tSWU/year (I think that should be kSWU or tSW) since 2023-08-24 https://www.jnfl.co.jp/ja/business/about/uran/daily/enrichme... 112.5 tSWU/year since 2025-06-26 https://www.jnfl.co.jp/ja/business/about/uran/daily/enrichme... and 150 tSWU/year since 2025-11-20 https://www.jnfl.co.jp/ja/business/about/uran/daily/enrichme...

It's a bit weird though that they have a graph of tons of uranium hexafluoride shipped that shows the last shipment in 2018 and nothing since then.

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upvoteby SoftTalker23 hours ago|
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The analogy would be if you "un-enrich" it. Then it's safe. Or at least no worse than when you took it out of the ground.
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upvoteby ceejayoz23 hours ago|
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> The analogy would be if you "un-enrich" it.

But you're doing that with the same water you're trying to make in the first place!

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upvoteby SoftTalker22 hours ago|
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You could just dilute it using fresh seawater, if you used enough and (maybe) spread it over a wider area. The amount of water people need for drinking is a relative drop in the ocean.
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upvoteby ceejayoz22 hours ago|
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Brine doesn't necessarily behave the way you imagine.

https://en.wikipedia.org/wiki/Brinicle

https://en.wikipedia.org/wiki/Brine_pool

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upvoteby jaggederest22 hours ago|
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Blue Planet video of a brinicle, content warning for kind of horrifying death of sea creatures: https://www.youtube.com/watch?v=lAupJzH31tc
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upvoteby ianthehenry15 hours ago|
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And a Blue Planet II video of a brine pool, stronger content warning for much more horrifying death: https://www.youtube.com/watch?v=ZwuVpNYrKPY
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upvoteby threwrfaway21 hours ago|
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You can dilute the brine in a facility before disposing.
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upvoteby ceejayoz20 hours ago|
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Go on. With what?
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upvoteby asdff18 hours ago|
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Seems like you could just dilute it with seawater at like 100:1 ratio and it would be negligible done offshore. We already dump our shit 5 miles out.
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upvoteby threwrfaway17 hours ago|
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100:1 is overkill and energetically very wasteful. It's a fairly straightforward chemical engineering problem.
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upvoteby 12 hours ago|
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upvoteby threwrfaway17 hours ago|
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...sea water. You take 10 units of sea water for every unit processed and you'll get a slight increase in salinity.

A phase diagram tells you exactly how far you need to go.

You know this makes more thermodynamic sense than carbon capture, right?

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upvoteby wlesieutre19 hours ago|
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With fresh water, we’ll get it from desalinization! Hey wait a second…
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upvoteby threwrfaway17 hours ago|
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Sarcasm aside, your comment actually works: you can use the freshwater from desalination!

Just wait for the saltwater to come back around in the sewer.

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upvoteby wlesieutre16 hours ago|
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Globally about 70% of freshwater is used for agriculture so less than a third of it will come back around, if it's exclusively for residential/commercial use you might do better but overall not a strategy that balances out
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upvoteby threwrfaway7 hours ago|
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70% of desalinated water wont ever go to agriculture because its too expensive to use for corn. Only very high value crops need apply.

But, so what? 30% sewage is still a strong dilluant... especially when mixed with more seawater

Im shocked how many people cannot grasp that you can dilute brine's salinity arbitrarily close to seawater's with energetically cheap pumps.

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upvoteby turkeyboi16 hours ago|
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Enriched uranium is perfectly safe to dump but it would be stupid to do so. Fission products are nasty but uranium itself is not, comparatively.
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