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Power Earth

New Era Begins: Construction Starts on 47-Acre Fusion Reactor Funded by Google and Bill Gates (msn.com) 215

Heating plasma fuel to over 100 million degrees Celsius to create inexpensive and unlimited zero-emissions electricity "has been compared to everything from a holy grail to fool's gold..." writes the Boston Globe, "or an expensive delusion diverting scarce money and brainpower from the urgent needs of rapidly addressing climate change." [N]ow, after breakthroughs this year at MIT and elsewhere, scientists — and a growing number of deep-pocketed investors — insist that fusion is for real and could start sending power to electricity grids in about a decade.

To prove that, Commonwealth Fusion Systems, an MIT spinoff in Cambridge, is using a whopping $1.8 billion it raised in recent months from investors such as Bill Gates, Google, and a host of private equity firms to build a prototype of a specially designed fusion reactor on a former Superfund site in Devens. A host of excavators, backhoes, and other heavy machinery are clearing land there and laying concrete foundations on 47 acres of newly acquired land. "It may sound like science fiction, but the science of fusion is real, and the recent scientific advancements are game-changing," said Dennis Whyte, director of MIT's Plasma Science and Fusion Center and cofounder of Commonwealth Fusion Systems. "These advancements aren't incremental; they are quantum leap improvements. . . . We're in a new era of actually delivering real energy systems...."

There are now at least 35 companies trying to prove that fusion can be a practical power source, most of them established in the past decade, according to the three-year-old Fusion Industry Association. The promise of fusion was buoyed with significant developments this year. In May, scientists in China used their own specially designed tokamak to sustain a fusion reaction of 120 million degrees Celsius for 101 seconds, the longest on record. In September, Whyte's team at MIT and his colleagues at Commonwealth Fusion Systems demonstrated that, while using relatively low-cost materials that don't require a large amount of space, they could create the most powerful magnetic field of its kind on Earth, a critical component of the prototype reactor they're building in Devens.

"We have come a long way," said Bob Mumgaard, CEO of Commonwealth Fusion Systems, who compared their advance to similar breakthroughs that made flight possible. "We're a pretty conservative science bunch, but we're pretty confident." With some $2 billion raised in recent years — more than any of the other fusion startups — his company is racing to prove that their prototype, called SPARC, will produce more energy than it consumes in 2025. If they succeed, the company plans to start building their first power plant several years afterward. Ultimately, he said, their goal is to help build 10,000 200-megawatt fusion power plants around the world, enough to replace nearly all fossil fuels. "This is a solution that can scale to the size of the problem that decarbonization requires," he said.

Phil Warburg, a senior fellow at Boston University's Institute for Sustainable Energy, disagrees. "Fusion has been an elusive fantasy for a half-century or more," he tells the Boston Globe. "Along with the technical hurdles, the environmental downsides have not been seriously examined, and the economics are anything but proven... The current wave of excitement about fusion comes at a time when we've barely begun to tap the transformative potential of solar, wind, storage, and energy efficiency — all known to be technically viable, economically competitive, and scalable today. The environmental advocacy community needs to focus on vastly expanding those clean-energy applications, leaving fusion to the scientists until they've got something much more credible to show for their efforts."

But Elizabeth Turnbull Henry, president of the Environmental League of Massachusetts rejected the argument that fusion research detracts from investments in renewables as a "false choice.... We're at a very different moment now, and it's good to have a lot of different horses in the race."

The also article notes that officials at America's Nuclear Regulatory Commission told them federal officials are already holding meetings to discuss how they'd regulate fusion reactors.
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New Era Begins: Construction Starts on 47-Acre Fusion Reactor Funded by Google and Bill Gates

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  • by serviscope_minor ( 664417 ) on Saturday December 25, 2021 @06:36PM (#62115009) Journal

    If there's one thing I've realized (and not just this story), MIT have an excellent press office.

    • by Rei ( 128717 ) on Saturday December 25, 2021 @07:18PM (#62115085) Homepage

      Commonwealth may have started at MIT, but it's a spinoff. And honestly, it's the first time economical fusion power has actually felt tangible. It's bog-standard tokamak fusion, which pretty much everyone accepts can work, but with HTS tape windings (which have been maturing over the past decade). HTS tapes are game changer for magnetic confinement fusion - dramatically decreased torus size (due to much higher field intensities); allowing for easier core maintenance (can "fold open" the core to replace the lining); and ease the cooling requirements (Commonwealth plans to use to LH2, liquid neon, or pressurized gaseous helium rather than (extremely expensive) liquid helium).

      I can't wait to see this project really get rolling.

      • Smaller size also means less shielding for all the critical components. What's the lifetime of the magnets and structural components at 24h operations?

    • One would expect people at MIT to know how incredibly small a quantum leap is.
  • If it doesn't actually provide a positive flow of energy (does it?), why is it being built? Will this help move fusion research forward more than something that can (more cheaply) be done in a lab? [The above are serious questions. I don't have enough knowledge about the subject matter to understand the implications of this project.]
    • by X2b5Ysb8 ( 6847406 ) on Saturday December 25, 2021 @06:57PM (#62115035)
      Spark is only there to show breakeven. It won’t have anything close to what is needed for a power plant.
    • If it doesn't actually provide a positive flow of energy (does it?), why is it being built?

      Yes they are hoping to achieve breakeven:

      With some $2 billion raised in recent years - more than any of the other fusion startups - his company is racing to prove that their prototype, called SPARC, will produce more energy than it consumes in 2025. If they succeed, the company plans to start building their first power plant several years afterward.

    • At this stage, they can no longer do this in a lab; the reactor under construction is the lab. There have been some scientific breakthroughs in fusion research as well as in the engineering required to build such a plant, but at some point you're going to have to actually build one and see how it all comes together (and if you've overlooked something). This will bring us closer to understanding how we can build a viable fusion plant, and while it may move fundamental fusion research forward as well, the
  • by Beryllium Sphere(tm) ( 193358 ) on Saturday December 25, 2021 @06:54PM (#62115029) Journal

    "enough to replace nearly all fossil fuels"

    Until the entire vehicle fleet is electrified and most houses are retrofitted to not heat with gas, there will still be a lot of fossil fuel use.

    • I think all he's saying is it's scalable and could be scaled up to however much power is needed. About the only thing that is well out of reach of electricity and batteries is air travel as we know it.
      • Well, commercial shipping too, unless there were so few security and environmental concerns that reactors could be put onboard.
        • by PinkyGigglebrain ( 730753 ) on Saturday December 25, 2021 @07:57PM (#62115139)

          Fusion reactors can't be weaponized. and other than the reactor housing itself becoming mildly radioactive by neutron bombardment over the life of the reactor fusion is very clean.

          Unlike a fission reactor a fusion reactor takes a lot of effort to just keep a fusion reaction going. If it loses to much heat or containment the whole thing stops working. They are literally "walk away safe" And contrary to what some movies and books would have everyone believe a fusion reactor can not be forced to "go critical" and explode. Current "Hydrogen bombs" actually use a fission bomb to initiate the the explosion.

          And even if the fusion reactors can't be made small enough for a ship then there is just the really easy way to make shipping carbon neutral by just replace the current fossil fuels with renewable synthetics. Wouldn't even need to retire any current ships.

          • by q_e_t ( 5104099 )

            Unlike a fission reactor a fusion reactor takes a lot of effort to just keep a fusion reaction going.

            That would mitigate against use on ships.

          • Re: (Score:3, Interesting)

            by MacMann ( 7518492 )

            Fusion reactors can't be weaponized.

            Bullshit. Fusion reactors produce neutrons, and those neutrons can be used to turn natural uranium into plutonium. Fusion reactors that can be made small enough would be used to power warships like fission reactors are now. Fusion reactors that can run on heavy isotopes of hydrogen means that nations would not be reliant on petroleum or uranium for energy. There's a lot of heavy hydrogen occurring naturally in the water on Earth, and the process to extract it was developed 100 years ago. If a nation ca

          • by sfcat ( 872532 )
            Fission reactors we know how to build today can be walk away safe. We don't know a fusion reactor that practically makes more energy than it uses is possible yet, let alone how to make it walk away safe. MSRs are the only technology we know how to build today to de-carbonize the grid. Everything else is greenwashing or potential technology that likely we won't be able to get working for decades. But I'm sure global warming won't cause any serious consequences while we wait.
    • by PinkyGigglebrain ( 730753 ) on Saturday December 25, 2021 @07:37PM (#62115113)

      your overlooking that gasoline, diesel, and methane can be produced synthetically if enough heat and electrical energy is available to power the process.

      With the infrastructure already in place once the energy-of-production issue is resolved the switch over to 100% carbon neutral synthetics would be easy.

      • Also, if electricity is cheap enough, we can remove CO2 from the atmosphere, liquify it, and sequester it in depleted gas wells.

        Collecting and sequestering CO2 is easy. It just isn't cost-effective. Energy prices below one cent/kwh will change that.

        • by q_e_t ( 5104099 )

          Collecting and sequestering CO2 is easy.

          It's possible but certainly not easy. Even at 1c/kWh, it's a big bill someone has to pay.

          • Re: (Score:3, Informative)

            Even at 1c/kWh, it's a big bill someone has to pay.

            The energy cost is about 0.2 kwh / kg of CO2.

            To remove humanity's current annual production of 45 Gigatonnes would require 9 trillion kwh = $90B/year @ 1 cent/kwh.

            That is 12% of America's military budget.

            • by q_e_t ( 5104099 )

              Even at 1c/kWh, it's a big bill someone has to pay.

              The energy cost is about 0.2 kwh / kg of CO2.

              Citation? Is this something that can scale, or just a small-scale demonstrator? I would like to believe it is so cheap, but I am sceptical. The issue isn't so much annual production as historical, though. You'd still need to reduce carbon output from current so you are reducing CO2 in the atmosphere, or have even more than that 12% devoted to it. IPCC has scenarios that include active net sequestration IIRC.

        • by sfcat ( 872532 )
          Nor is it even necessary. Simply making synthetic fuels from MSRs and drastically reducing fracking and extracting oil and coal would cause the CO2 levels to fall more than fast enough. Also, there is a maximum rate we want the CO2 levels to fall. Sequestering is likely not even a good idea as it likely would cause the environment to shift more rapidly than would be good for most life. You should learn about Milankovitch cycles.
          • by jwhyche ( 6192 )

            The OP is correct. There is no need at this point to engage in widespread artificial sequestering. What is really needed is for us to stop overloading the natural carbon cycles with the crap we produce. If we do that the environment will clean itself far faster and better than we can.

  • by algaeman ( 600564 ) on Saturday December 25, 2021 @07:10PM (#62115067)
    My goal is also to build 10,000 200MW reactors. You should give me $2B so I can put together a demonstration project.
  • by sonofusion82 ( 1038268 ) on Saturday December 25, 2021 @07:12PM (#62115073)
    If 1.8 billion dollars sound like a lot of money, perhaps we as humanity should also consider why we have also invested over 400 billion into ByteDance, the parent company of a Tiktok when we could have used the valuable resources, money and brainpower for climate change?
    • Exactly, here is the meme: https://www.genolve.com/design... [genolve.com]
    • by ceoyoyo ( 59147 )

      There's also the half a billion dollars per year Americans alone spend on halloween costumes. For their pets.

    • The Diablo Canyon nuclear power plant cost PG&E more than $8 billion to build in the 1980s. Which is more like $15 billion today. If these guys can build a working fusion reactor for only $1.8, then they'll be magicians. But seeing is believing and I don't believe for a moment that they'll get it done for $1.8 billion, or any amount. Working fusion reactors are snipes.
      • by jwhyche ( 6192 ) on Sunday December 26, 2021 @04:43PM (#62117633) Homepage

        The Diablo Canyon nuclear power plant cost PG&E more than $8 billion to build in the 1980s.

        Part of that $8 billion price tag was excessive regulations and shutdown of research in the late '60 and early '70s. This causes each reactor to be custom designed and parts sourced, meaning expensive. This, of course, was caused by a bunch of boomer hippies that where protesting something they didn't understand.

        If the hippies had been ignored and research allowed to continue by the time Diablo Canyon was built there probably would have been a standard micro reactor design. With this the Diablo Canyon rector might have cost a quarter of what it did and been a hundred times safer and many times more productive.

    • I think ByteDance is valued at 400 billion, they didn't get 400 billion of investment.

      According to this :
      https://www.crunchbase.com/org... [crunchbase.com]

      They have raised just below US 10 billion dollars. Not saying it's a small amount, just pointing out that valuation is not equal to amount raised.

  • by Beeftopia ( 1846720 ) on Saturday December 25, 2021 @07:14PM (#62115079)

    Thanks to Sabine Hossenfelder [youtube.com], I now have two questions when I hear about fusion projects:
    1) What's the Q_plasma
    2) What's the Q_total

    Thanks to Elizabeth Holmes and her stellar board of directors at Theranos [businessinsider.com], I have learned that very insightful and smart people can be totally fooled. So while a list of luminary funders is a positive point, the promised reward of fusion is so huge that many can will themselves to believe when perhaps they shouldn't.

    • Re: (Score:2, Troll)

      by gweihir ( 88907 )

      Thanks to Elizabeth Holmes and her stellar board of directors at Theranos [businessinsider.com], I have learned that very insightful and smart people can be totally fooled.

      I do not think that is the case. I rather think people can successfully appear to be insightful and smart, when they are really not. Gates is a prime example of that. All he can do is sell crap as if it was a good product. You know, basically a scaled-up used-car salesman.

  • by smchris ( 464899 ) on Saturday December 25, 2021 @07:44PM (#62115117)

    That's real progress!

  • They have yet to attain breakeven and sustain it for more than just a few milliseconds. I am sick and tired of the press and their exaggeration.
  • I will believe ... (Score:3, Interesting)

    by PinkyGigglebrain ( 730753 ) on Saturday December 25, 2021 @08:10PM (#62115161)
    I will believe that fusion is a viable energy option when someone, anyone, manages to actually get a self sustaining fusion reaction that also produces a commercially viable amount of electrical energy in addition to what it is going to take just to maintain the fusion reactor online.

    Despite all the frequent hype fusion energy has been "15-20 years away" for the last 60+ year.

    We'll probably have a break through in LENR [ieee.org] energy long before conventional fusion even gets close.
    • by gweihir ( 88907 )

      No. It never has been only 15-20 years away. No real expert ever claimed that. That was politicians and journalists. Actual stance by experts at this time and before is "we do not know".

    • by ceoyoyo ( 59147 ) on Saturday December 25, 2021 @09:12PM (#62115249)

      You're probably reading the wrong site. This one is (occasionally) abut scientific and engineering news. You seem to want more consumer products. Walmart.com maybe?

  • Increasing the magnetic field is expected to reduce the required plasma volume, and assuming the results are real (which I have no reason to doubt) this is a big step forward. Tokamaks are pretty well understood as is their scaling with B field.

    I've criticized a number of "voodoo fusion" startups. (A term coined by D. Jassby, see https://vixra.org/pdf/1812.038... [vixra.org] ) but this actually has potential. It will all come down to cost of course, but the reduced scaling relative to ITER is promising.
  • Lets say 30 to 80 years and we get somewhere.

  • Practical fusion has been forty years away since the 1950s. I guess we should consider it a significant improvement that it's now only ten years away.

  • by cascadingstylesheet ( 140919 ) on Saturday December 25, 2021 @10:30PM (#62115365) Journal

    Phil Warburg, a senior fellow at Boston University's Institute for Sustainable Energy, disagrees. "Fusion has been an elusive fantasy for a half-century or more," he tells the Boston Globe. "Along with the technical hurdles, the environmental downsides have not been seriously examined, and the economics are anything but proven... The current wave of excitement about fusion comes at a time when we've barely begun to tap the transformative potential of solar, wind, storage, and energy efficiency — all known to be technically viable, economically competitive, and scalable today. The environmental advocacy community needs to focus on vastly expanding those clean-energy applications, leaving fusion to the scientists until they've got something much more credible to show for their efforts."

    Translation:

    "You have offended the gods! Heretic!"

    • by hey! ( 33014 )

      Except if you actually look at each one of his claims, he's right on every single point. Deuterium-tritium fusion reactions consume massive amounts of electricity and generate energy as neutrons which are only convertible to back to electricity in the crude and highly inefficient ways. Even if you could generate more electricity than you consume, you need to generate a *large* surplus for a project to be useful, and that likely means a huge scale plant which will be expensive to build and operate.

  • When I read that fusion is only a decade away. We’ve been hearing similar statements for many decades - ever since I was a kid. So wake me when the commercial power plant is about to launch.

  • It's called the fucking sun you fucking idiots and power is transmitted by electromagnetic radiation.
    They might make a power station which can even power the whole world but how do they transmit the power to customers ?

  • The reactors that have been built so far have been incredibly expensive, and require a lot of maintenance. After they establish that they can produce net energy, they still have to prove that they can offer a good value compared to wind and solar.

  • Jet, no, ITTR, Guess not. Wait, this one will work. Or the money could be spent on something real, like solar cells, a tidal pool, a wind farm.
    • Jet, no, ITTR, Guess not. Wait, this one will work. Or the money could be spent on something real, like solar cells, a tidal pool, a wind farm.

      Or nuclear fission.

    • When solar cells were being developed, nuclear fission technology was already well established. Should that money have been used to build Nuclear Reactors instead?
      • by sfcat ( 872532 )
        Nope. The first PV cells were created in the 1890s. The first fission reactors in the 1940s. And Gen IV MSRs are the only realistic and environmentally friendly way to de-carbonize the grid (ie handle base load). Yes this money is going to be wasted on something that will won't help with global warming. So is all that money going to wind and solar. If you want to end global warming, making synthetic fuel from MSRs is only viable technology we have. The longer we mess around with unicorns, the worse t
  • They might become useful plutonium breeders for third world countries, but they will be far too expensive for everything else.

  • Quantum Leap is the smallest possible Leap.
    "These advancements aren't incremental; they are quantum leap improvements..."
    Amazing how people that works on quantum physics stills misuse this phrase.

    • The term quantum leap refers to the abrupt movement from one discrete energy level to another, with no smooth transition. There is no "inbetween." The "people that works on quantum physics" obviously understand the term much better then you do.

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