Nuclear fusion reactor in South Korea runs at 100 million degrees C for a record-breaking 48 seconds - eviltoast

48 seconds. I predict a glut of helium. balloons for everyone

  • Cosmic Cleric@lemmy.world
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    7 months ago

    The difficult bit is to keep the fuel fusing.

    It’s moreso keeping it contained at those temperatures, so that it does not melt the container that it’s in, and potentially explode.

    There has to be some absolute next-level power backup to keep the containment field from failing.

    • barsoap@lemm.ee
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      7 months ago

      Melting actually is not a seriously issue as while the plasma is very hot, it also has very little mass. Sparks are also ludicrously hot but with their little mass contain very little energy so pretty much anything but dry tinder is going to extinguish them before they can do any damage. You want to avoid loss of containment because you will have to clean the reactor vessel and maybe replace a couple of wall tiles but that kind of failure is far from catastrophic.

      Though of course with current designs the reactor walls do get hot because that’s how we intend to capture the energy: Pipe water through the walls to cool them, use the hot water to drive a couple of turbines. One of the holy grails to pine for after the current designs actually enter service is to look at ways to drive electrons in a wire directly from the plasma, no detour via heat. The other is aneutronic fusion.

      • Cosmic Cleric@lemmy.world
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        7 months ago

        One of the holy grails to pine for after the current designs actually enter service is to look at ways to drive electrons in a wire directly from the plasma, no detour via heat.

        That’s actually really interesting, as I never heard of that before.

        Yeah you’re absolutely right, damn that’d be one hell of a Holy Grail touchdown moment for Humanity if we could pull that off, the direct transference, no “middle man”.

        The other is aneutronic fusion.

        From the link (for others like me and did not know what the word meant)…

        Aneutronic fusion is any form of fusion power in which very little of the energy released is carried by neutrons.

        • barsoap@lemm.ee
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          7 months ago

          I mean, in principle we can already do it: Fusion reactions tend to produce lots of electromagnetic radiation, and we can drive wires directly via electromagnetic radiation, the technology is called solar panels. Trouble being solar panels generally aren’t good at absorbing X-rays.

      • Cosmic Cleric@lemmy.world
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        7 months ago

        Melting actually is not a seriously issue as while the plasma is very hot, it also has very little mass.

        Read the below from this article…

        One of the biggest obstacles to magnetic-confinement fusion is the need for materials that can withstand the tough treatment they’ll receive from the fusing plasma. In particular, deuterium-tritium fusion makes an intense flux of high-energy neutrons, which collide with the nuclei of atoms in the metal walls and cladding, causing tiny spots of melting. The metal then recrystallizes but is weakened, with atoms shifted from their initial positions. In the cladding of a typical fusion reactor, each atom might be displaced about 100 times over the reactor’s lifetime.

        • barsoap@lemm.ee
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          7 months ago

          That’s not the plasma that melts anything but neutron bombardment. The containment and fizzling out issue is the same whether the plasma produces neutrons or just tons of EM radiation which is what I focussed on.

          That sturdiness of the cladding things is an important factor when it comes to making cost-effective reactors, that is, the price you sell electricity for needs to cover replacement parts, but is not really that much of an issue when it comes to achieving fusion the materials we have are sufficient for that. Proxima Fusion (the Max Planck spinout) is working on those economical issues for their commercial prototype (early 2030), it remains to be seen whether they go for durable and expensive or cheap but needs to be replaced more often. Which isn’t unusual for power plants in general, none of them run 24/7 they get shut down for maintenance once in a while.

          • Cosmic Cleric@lemmy.world
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            7 months ago

            That’s not the plasma that melts anything but neutron bombardment.

            I’m aware (I read the article, including the part I quoted you), but regardless of the source of the melting, there is a melting issue of the containment vessel that needs to be engineered away.

            • barsoap@lemm.ee
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              7 months ago

              Yes, and you won’t get me to argue here. I’m too experienced a smart-Alec to contradict another smart-Alec :)

              • Cosmic Cleric@lemmy.world
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                7 months ago

                Yes, and you won’t get me to argue here. I’m too experienced a smart-Alec to contradict another smart-Alec :)

                Well I’ll take smart alec over being called pedantic any day.

                Having said that, sincerely wasn’t looking for the argument, just a matter of going back to my original point, that you corrected and educated me on.

                I knew there was some kind of melting issue, when I had made my original comment. I had just assumed it was the plasma, but it ended up not being that, as you noted.

                My follow-up link comment was just to say “Hey look there is a valid reason for melting to happen, I wasn’t imagining it”.

                All’s good on my end.