Modern AI data centers consume enormous amounts of power, and it looks like they will get even more power-hungry in the coming years as companies like Google, Microsoft, Meta, and OpenAI strive towards artificial general intelligence (AGI). Oracle has already outlined plans to use nuclear power plants for its 1-gigawatt datacenters. It looks like Microsoft plans to do the same as it just inked a deal to restart a nuclear power plant to feed its data centers, reports Bloomberg.

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4 points

The amount of waste is tiny. Coal plants cause more radiation than nuclear plants because of tiny amounts of radioactive matter in coal. You need to burn so much coal the amount of radioactivity is higher per unit of energy.

Until we shut down all coal plants we shouldn’t even think about closing nuclear plants

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2 points
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That’s for normal activity and it’s totally irrelevant. So these are some stats about ionizing radiation dosages:

  • Average from all sources for an average person for 1 year: 4mSv
  • Additional if living within 50 miles of a nuclear reactor for 1 year: 0.09 µSv
  • Additional of living within 50 miles of a coal plant for 1 year: 0.3 µSv
  • Living within 30 km of Chernobyl before evacuation (10 days): 3-150 mSv
  • Maximum allowed dose for radiation workers over 1 year: 50mSv
  • 10 minutes next to the Chernobyl reactor after the meltdown: 50Sv
  • fatal lifetime dosage beyond our ability to treat: ~8Sv

So, yes, nuclear power plants and storage pools are designed to shield radiation and thus during normal operation release an insignificant amount of radiation so much so that even coal burning releases a heck of a lot more.

But both of those are extremely insignificant if you consider that living near a coal plant will only give you a tiny fraction of additional exposure as the amount of radiation you receive normally from natural sources.

The problem is that with nuclear fission waste, a tiny leak can cause fatal amounts of exposure in a very short time. If a storage pool cracks after the 100 years or so they’re designed to last, or if a flood happens and overflows a storage pool, or a tornado picks up that storage water, or any number of other catastrophic events happen within the 10,000-1,000,000 years before that waste is safe, depending on the type, the people living nearby will likely not survive very long and that area will be contaminated for many times longer than human life has existed.

Fukushima was a good example and had to rely on the vast Pacific ocean to disperse the radiation. Chernobyl will be unsafe for 10s of thousands of years even if the coffin is maintained for all that time.

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1 point

The radioactivity from the long half-life radionuclides is much less intense.

Radioactive iodine is still dangerous because it can stay in your thyroid gland

https://en.m.wikipedia.org/wiki/Long-lived_fission_product

You can still use newer technology to get rid of the most potent LLFPs, though

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1 point

Right I only got as far as talking about the ionizing radiation itself not even what happens if the radioation emitting materials themselves escape and so other types of radiation become dangerous through ingestion, not just incidental exposure.

And who is going to pay the trillions of dollars to develop those technologies to reduce the ionizing radiation into a usable product? The energy companies won’t because they’d go bankrupt. And what happened when we left companies to dispose of the waste? They sank it to the bottom of the ocean in barrels that some have since resurfaced. So instead we tried to build a temporary solution by dumping it in a mountain bunker, but that was too costly and we gave up and it’s all just sitting out in the open still in every country with nuclear power. No country has come up with a solution yet and that solution is part of the cost of generating the energy.

So how is nuclear power profitable if it’s exorbitantly expensive to store it indefinitely and exponentially more expensive to develop the technology to make it slightly safer to store indefinitely. And it costs billions and takes decades to decommission a reactor once it’s exceeded its lifespan. Which is why three mile island is still there and containment is still necessary. Again, how is nuclear power cost effective in the long term?

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