• TWeaK@lemm.ee
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    9 months ago

    Excluding all the ancillary services, including the lasers that maintained the plasma, which was the principle part of this latest test.

    Factoring everything in, they’re at about 15% return.

    This is still very good for this stage, but the publications are grossly misleading.

    • protist@mander.xyz
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      9 months ago

      but the publications are grossly misleading.

      I think you’re only referencing the headline, the article itself clearly states what you said

        • protist@mander.xyz
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          9 months ago

          When one says a publication is grossly misleading, it certainly implies the entire publication

            • Cosmic Cleric@lemmy.world
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              9 months ago

              You’re not wrong, but we also should stop excusing, normalizing, and accepting wildly exaggerated for sales purposes titles of articles.

              • intensely_human@lemm.ee
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                9 months ago

                We should stop accepting lies.

                Unless there is some way this reaction actually did produce twice the energy input, it’s not misleading it’s a lie.

          • The Snark Urge@lemmy.world
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            9 months ago

            Why have we accepted the standard of misleading headlines? “Oh well you didn’t read the article, I guess you and 90% of eyeballs get to be fundamentally misinformed” is an unhinged take.

            • protist@mander.xyz
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              9 months ago

              I never said a misleading headline was acceptable. I said the publication is not misleading and that it covers the criticisms dude up above was leveling.

          • Cryophilia@lemmy.world
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            9 months ago

            “article” vs “publication”

            Two different things.

            The link takes you to an article. Publications are in actual scientific journals, not intended for popular consumption.

        • Donjuanme@lemmy.world
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          9 months ago

          What was your question? I only read “is the” and thought I could base my response off of only that.

        • Socsa@sh.itjust.works
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          9 months ago

          When I see “publication” I assume it’s the actual scientific paper and not the article reporting on said paper.

        • Danksy@lemmy.world
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          9 months ago

          It’s easier to nitpick than it is to interact with the actual argument.

          I agree with you. The headline is misleading, and I think it devalues the article.

    • EchoCT@lemmy.ml
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      9 months ago

      That’s what I came to the comments to find. Thank you. Would have been much bigger news if it was net energy positive.

        • Cryophilia@lemmy.world
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          9 months ago

          From another article: “In an experiment on 5 December, the lab’s National Ignition Facility (NIF) fusion reactor generated a power output of 3.15 megajoules from a laser power output of 2.05 megajoules – a gain of around 150 per cent. However, this is far outweighed by the roughly 300 megajoules drawn from the electrical grid to power the lasers in the first place.”

          https://www.newscientist.com/article/2350965-nuclear-fusion-researchers-have-achieved-historic-energy-milestone/

            • alkheemist@aussie.zone
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              9 months ago

              Powering the laser takes 300 MJ but the actual laser power (the energy in the light) is only 2.05 MJ. The rest of the energy is lost to heat and other inefficiencies. If the laser could be created with 100% efficiency then the input energy would also be 2.05 MJ.

            • Resonosity@lemmy.world
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              9 months ago

              Energy can be measured as occurring in different physical phenomena. There is energy in sound waves/packets, energy in light waves/packets, energy in matter, etc.

              The 300 MJ number refers to the electrical energy in the form of electromagnetic fields carried specifically through solid conductors via electron movement along the conductors.

              The 2.05 MJ number refers to the radiative energy in the form of electromagnetic fields sent specifically through free space/a vacuum (I presume; I didn’t read the article, so maybe the laser medium was a vacuum or something else) via photons/waves. No electrons, aside from those in the lasers that create the photons in the first place.

              So there is a conversion from electric to radiative energy here.

              Start Edit:

              And as another commenter said, in this conversion there are losses because materials aren’t perfect.

              :End Edit

              If the 3 MJ radiant energy from the nuclear material was then converted back into electric energy via steam processes, we’d get a comparable number compared to the 300 one.

              This is also why you see nuclear/CSP plants quoted in MWt and MWe: there is a conversion that takes place from thermal energy (vibrations of atoms/compounds) into electric energy.

        • nymwit@lemm.ee
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          9 months ago

          I can’t read the full article (paywalled for me) but it references the National Ignition Facility so the way it goes is super lasers blast a tiny hydrogen thing and that creates a tiny bit of fusion that releases the energy. The energy of the laser blast is what’s being called the input and the fusion energy released the output. What is misleading is that a greater amount of energy was used create the laser blast than the laser blast itself outputs. If you consider the energy that went into creating the laser blast the input (rather than the laser blast itself), then it’s usually not a net positive energy release.

            • pixelscript@lemmy.ml
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              9 months ago

              Remember when incandescent light bulbs were the norm? They worked by sending full line voltage through a tiny tungsten wire that would get so hot that it glows, making some light, but 95% of the energy that gets consumed is frittered away as heat? The high-power lasers needed to make fusion happen are a lot like that.

              I believe all this article is saying is that 15% more energy than what came out of the lasers as useful laser light was liberated in the reaction.This completely ignores the energy it took to power those massively inefficient lasers.

              I think it also ignores the fact that the 15% more energy liberated wasn’t actually, like, harnessed by a generator. I believe (and I may be wrong) this was testing only the reaction itself. Actually hooking that up to a turbine and using it to create energy that is cost competitive with contemporary sources is still a completely unsolved problem.

            • nymwit@lemm.ee
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              9 months ago

              pixelscript@lemmy.ml got it, but basically lasers are pretty inefficient. The article I just found said (in a different run of this facility) they put 400MJ into the laser to get 2.5MJ out of it. So that makes the whole firing system what, 0.6% efficient? Your fusion reaction would have to give more than 400MJ to truly be in the positive for this particular setup/method, but again this facility is a research one and not meant to generate power - there isn’t even a way to harness/collect it here.

              • intensely_human@lemm.ee
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                9 months ago

                Oh so the laser’s generating mostly heat and a little coherent radiation, and they’re only referring to the coherent radiation as the “energy input” to the process.

                Hmm. Kinda sketch.

                Especially because that’s not trivial. If we have no way of obtaining laser light other than that process, and the laser is the only way to feed the fusion reactor, then that’s 100% on the balance books of this process.

    • Rakonat@lemmy.world
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      9 months ago

      If anything has been consistent about fusion its always them desperately trying to spin babysteps and monumental leaps forward and trying to make themselves seem super clean and safe especially compared to fission.

      • legofreak@feddit.de
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        9 months ago

        If anything has been consistent about fusion its always them desperately trying to spin babysteps and monumental leaps forward

        That’s usually the media outlets sensationalising the results to the point where the articles are grossly misleading.

        trying to make themselves seem super clean and safe especially compared to fission.

        That’s just a fact, no need to try. The Fusion process is inherently safe the radioactive byproducts are generally short lived and easier to handle.

        • intensely_human@lemm.ee
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          9 months ago

          If publications keep misreporting your work, stop talking to them, and see different publications with a stronger commitment to the truth.

        • Rakonat@lemmy.world
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          9 months ago

          Fusion is not inherently safe. It has significantly higher rate of neutron discharge for the enegy produced which can damage the reactor vessel and potential to cause nonfuel material to become radioactive.

          Ontop of any power disruption of the system has the potential for radioactive plasma to escape with nothing even remotely equivalent of a SCRAM to bring it back under control.

          The only reason fusion appears safe right now is because its all still developmental phase and any issues are being handwaved as prototyping issues and not treated like the actual potential catastrophes they are.

          • legofreak@feddit.de
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            9 months ago

            The total mass of reactants in the fusion chamber is below milligram, some of which is bound in stable isotopes. Even if all of it escaped, it would be far from catastrophic.
            The reaction itself cannot run away on its own because it requires a delicate balance in temperature and density, which will be immediately disturbed if there was a breach in containment.

            The walls will be activated by neutrons, but short of blowing the reactor up, there’s not much chance of materials escaping in a significant amount to pose a danger.

            • barsoap@lemm.ee
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              9 months ago

              Just for comparison: The nuclear safety requirements of a fusion reactor are ballpark those of the radiology department in your local hospital: An accident will give you, if you’re unlucky, a dose on the order of a dental x-ray. Decommissioning involves letting it sit there for 100years until it has cooled down to ambient radioactivity levels, if you’re cheeky you could send it to a place where the natural radiation levels are higher and declare it cool much faster.

              Why does noone talk about those ludicrously strong magnet fields and gigantic vacuum vessels? You’re standing right next to a massive volume of practically nothing and are worried that something leaks out?