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

  • assembly@lemmy.world
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    9 months ago

    48 seconds at those temperatures is no joke, that is pretty amazing. I didn’t see the article elaborate on what the current limiting factors are for pushing beyond 48 seconds. Like I wonder if it’s a hard wall, a new engineering challenge, a tweak needed, etc. this is the reactor that set the last record so they are doing something really right.

    • remotelove@lemmy.ca
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      9 months ago

      (The article touches on this bit a little) I was watching something about fusion the other day and it seems that it is super tricky to keep the magnetic field balanced in a way that keeps the plasma in a proper toroid. Not only does it need to keep the correct strength, it has to fight against random turbulence. This is critical to start the reaction, but also to maintain it.

      Also, they gave some other physical limitations in the article as well:

      To extend their plasma’s burning time from the previous record-breaking run, the scientists tweaked aspects of their reactor’s design, including replacing carbon with tungsten to improve the efficiency of the tokamak’s “divertors,” which extract heat and ash from the reactor.

      Basically, it’s the container that has limitations as containing a pseudo-sun probably isn’t easy.

      • Nastybutler@lemmy.world
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        9 months ago

        According to another commenter the heat generated is 7 times that of the core of the sun. Considering we use the sun in sci fi to destroy anything that can’t be destroyed by other means, controlling that level of heat seems like a real challenge

        • remotelove@lemmy.ca
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          9 months ago

          Yeah. Actually using that heat is the next challenge, I suppose. If I am not mistaken (and I am often mistaken), they are not actually using the reaction to power the reactor yet.

          It’s all math, basically. If they measure more energy coming out than they put in, it’s considered a win.

          • Dojan@lemmy.world
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            9 months ago

            How would they use it to power a reactor? Is it like a regular nuclear reactor where you essentially boil water to power a steam turbine?

            I swear a part of my inner child died the day I found out that nuclear reactors are essentially big kettles.

            • remotelove@lemmy.ca
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              9 months ago

              It’s likely going to create steam, just like a reactor today. It is a very effective way to turn a turbine for a generator, after all. All the bits that actually start and maintain the reaction need fuck tons of electricity, so the reaction can literally power itself when attached to a generator.

              While there are a ton of formulas for converting energy from heat, to steam, to mechanical energy and then into electricity, it’s all basically the same: more power out than you put in is a good reaction.

              Almost forgot, water is dual function. It cools the equipment and it acts as an energy transport. I believe ammonia is more efficient in some circumstances, but water is better for obvious reasons.

              • Dojan@lemmy.world
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                9 months ago

                Yeah, I mean it makes sense. My inner child wants there to be some sort of magic that splits the atomic nucleus (or in the case of fusion… well you know) and harnesses the energy through some sort of fancy magical-to-us-commonfolk process.

                Kettles are great, but not whimsical or fantastic.

                • remotelove@lemmy.ca
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                  9 months ago

                  How the heat is generated is still wicked-cool and is basically magic. Think about it this way: We are holding a toroid shaped micro-sun in place with magnets. Those magnets need to be adjusted hundreds of times a second to keep everything in its place. Sure, it just boils water, but how it boils water is where the real magic is.

                  We are building atoms by taking control of the core of a star.

                  • Dojan@lemmy.world
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                    9 months ago

                    That’s fair! I’m not trying to downplay the accomplishment at all. In that way even nuclear fission is really cool.

                    It was just a big dissilusionment moment for me way back when I learned how the electricity is actually generated.

    • ColeSloth@discuss.tchncs.de
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      9 months ago

      Last one I read about is just constantly and very quickly (far quicker than human abilities) adjust the magnetic field around the plasma in order to keep it stable and in place. They’ve been (or at least one team was) using AI to go over data and control and predict the field adjustments, because only reacting after the plasma starts to move hasn’t been quick enough.

      • RubberElectrons@lemmy.world
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        9 months ago

        Yes, that’d be TAE technologies.

        The algorithm was called the optometrist, it was paired with a human operator to more quickly converge on the correct settings for stable plasma by having the machine randomly tweak various meta-parameters, while the human would generally decide whether the current settings were “better” or “worse” than the previous pulse.

        • Maco1969@lemmy.world
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          9 months ago

          I wonder if there isn’t a stable chamber shape that promotes turbulence in a controlled manner in order to prevent it getting out of hand? A little bit like the dimples on a golf ball create micro pockets of turbulence promoting laminar flow.

          • RubberElectrons@lemmy.world
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            9 months ago

            Unknown. There were attempts into that general idea, one of them is the polywell, but I don’t know too much about it.

    • n3m37h@lemmy.dbzer0.com
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      9 months ago

      They most likely ran out if liquid helium as the world is running out of the stuff at an alarming rate

          • Strykker@programming.dev
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            9 months ago

            Sure, but they don’t consume it, and let it just boil off. They have massive refrigerant setups to bring it down to temp and keep it there.

          • HornyOnMain@fedia.io
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            9 months ago

            Sure, but why does that mean they must be losing the helium each time? I don’t know anything about liquid helium and super conductors, but I know I don’t need to replace my radiator fluid just because it cooled my engine.

              • HornyOnMain@fedia.io
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                9 months ago

                Alright, did some research, first off you’re wrong about this being the reason even if this was a plausible reason. The real reason is the ash and heat divertors failed.

                Second, you don’t even need liquid helium for super conduction. Here’s a few closed loop helium gas coolers that get to 10 kelvin. They need to be refilled on the scale of years, not from a single test.

                https://www.arscryo.com/closed-cycle-cryocoolers https://stirlingcryogenics.com/products/closed-loop-helium-gas-cooling-system/

                I get you care deeply about helium loss but this is the last thing you should be accidentally spreading misinformation about. This process literally creates more helium then it uses.

                • n3m37h@lemmy.dbzer0.com
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                  9 months ago

                  I didn’t say they did, just said probably, I’m just a stupid redneck.

                  Oh and how do we capture said multi thousand deg helium?

                  • barsoap@lemm.ee
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                    9 months ago

                    Oh and how do we capture said multi thousand deg helium?

                    By cooling down the air that contains it until it’s liquid, then distilling that. Actually a standard process though usually you freeze down natural gas not just random air, it’s quite helium-rich.

      • Azzu@lemm.ee
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        9 months ago

        This is such a ridiculous comment. I can literally go on Amazon and buy some helium right now. You really think if that’s possible, a cutting edge research lab would run out of the stuff?

        Sure, it’s limited and getting scarcer, but no one’s running out yet.