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this post was submitted on 06 Apr 2024
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We have a fusion reactor in the middle of our solar system solving the spicy half of the problem already. If we are having a solar heat capture problem, how is a new source of virtually unlimited power (and heat) here going to work? How is superconductivity coming along to help mitigate this?
Because the problem fusion reactors will solve isn't free energy. We already have that, like you suggest. Solar, wind, geo thermal, hydro power, oceanic tide harvesting, and to a certain extent nuclear...all of that is free energy waiting to be harnessed.
The problems it solves include packaging (think footprint for a solar farm power plant), radio activity (like fission power plants), predictability ( solar, wind, etc), and location (hydro). Fusion puts clean power plants anywhere you want them, safely and reliably.
All of these allow you to advocate for a functioning power plant to governments and citizens without any drawbacks besides costs to build and maintain. It's an easier sell than any other power in existence. It runs off of water.
...and lithium. At least the current generation. While there's plenty of deuterium in the oceans (left over from the big bang, or at least that's the best theory we've got) tritium is a completely different matter: It's extremely rare because it's not stable with quite low half-life (12.32 years). If you throw a neutron at lithium though you get helium and tritium, and deuterium+tritium fusion happens to produce neutrons. All that btw yes is a bit radioactive the radiation safety requirements of a fusion reactor are ballpark those of the radiology department in your local hospital.
Right, for the sake of brevity and not talking past my knowledge base, I was omitting that part. I knew that the deuterium reaction was coupled with tritium but I didn't know we had to use a precursor reaction to get the tritium. That's really neat knowledge.