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Power United States

America Finally Abandons Plan To Convert Plutonium Bombs Into Nuclear Fuel (reuters.com) 127

MOX hoped to convert plutonium from Cold War bombs into fuel for nuclear power plants, but even though the project was about 70% complete, Washington has pulled the plug. Slashdot reader Mr. Dollar Ton shared this story from Reuters: The Department of Energy told Senate and House of Representatives committees in May that MOX, a type of specialized nuclear recycling plant that has never been built in the United States, would cost about $48 billion more than the $7.6 billion already spent on it. Instead of completing MOX, the Trump administration, like the Obama administration before it, wants to blend the 34 tonnes of deadly plutonium -- enough to make about 8,000 nuclear weapons -- with an inert substance and bury it underground in New Mexico's Waste Isolation Pilot Plant. Burying the plutonium would cost nearly $20 billion over the next two decades and would require 400 jobs at Savannah River, the Department of Energy has estimated.
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America Finally Abandons Plan To Convert Plutonium Bombs Into Nuclear Fuel

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  • by igny ( 716218 ) on Saturday October 13, 2018 @02:48PM (#57472666) Homepage Journal
    I do not think that BN-800 [wikipedia.org] cost more than $200 million...
    • Let it run for a couple of years first ... the BN-600 didn't do so well at not catching fire after all. It's a rather common refrain for liquid sodium cooled reactors.

      https://www.wiseinternational.... [wiseinternational.org]

      • by Cyberax ( 705495 )
        BN-600 has been running for 2 years without issues. BN-600 had some problems initially but nothing catastrophic. The new generation of this reactor type will likely be BN-1200.
        • by AmiMoJo ( 196126 )

          They aren't even going to make a decision on continuing with the BN-1200 until next year. After the problems with the BN-800 came to light and required a redesign it's been on hold. Even before then plans were scaled back repeatedly until only two planned units were left.

          Like all new nuclear it has the same basic problems. Unknown unknowns costing an unknown amount to put right, at a time when cheap and reliable sources of energy are growing rapidly and attracting a lot of investment. No matter how much gee

          • by Cyberax ( 705495 )
            What problems with BN-800? Main issues were with fuel manufacture.

            Fuel manufacture is on a somewhat separate track, with several projects going on in parallel. In particular, BN reactors are design to accommodate the future uranium nitride fuel (nitrides contain more uranium by weight than oxides).

            The main competitior of BN-1200 is BREST - an awesome reactor cooled by liquid lead and on-site fuel reprocessing. Rosatom might decide to build a demonstrator BREST-300 first rather than commit to BN-1200.
        • Multiple large fires of the coolant are worrying even if by happy accident it has only caused extremely expensive cleanup instead of radiation release. This has been a problem endemic to commercial scale sodium cooled reactors and 2 years runtime isn't enough to dispel that terrible fucking history.

          Lead cooled is a nice pie in the sky alternative though. Only half a century or so delayed by the fucking morons who keep pushing sodium cooling ... sodium cooled reactors are proof positive that only blaming env

          • by Cyberax ( 705495 )
            BN reactors are designed to minimize the risks of fires. There are two liquid sodium loops, so that sodium that goes outside of the reactor is not dangerously radioactive and is clean. Additionally, the reactor is passively safe - it won't melt down even with the complete loss of cooling, due to natural convection.

            The planned BN-1200 will be even safer, it'll contain the molten fuel catchment area to contain the corium lava if for some reason reactor does melt down.
        • > but nothing catastrophic

          Wow... you should write ad copy.

  • by JBMcB ( 73720 ) on Saturday October 13, 2018 @02:59PM (#57472684)

    This stuff cost a ton of money and energy to refine. Don't throw it away. Seal it up in ceramic caskets and bury it in the middle of an army base somewhere. There might be a use for it in 50 years.

    • by Grog6 ( 85859 ) on Saturday October 13, 2018 @03:16PM (#57472712)

      This 34 tons is crap Pu we bought from Russia and it's satellite countries, to keep them from selling it to whoever.

      Russian Pu is very radioactive, unlike ours.

      We swapped the slugs out after a short period, so it made more Pu-239, not Pu-240 and up.

      We also purified ours, but I'd bet that classified. :)

      You can't stand next to a Russian nuke for long, or all your hair falls out, lol.

      That's why we buy Pu244 from russia for spacecraft RTG's.

      This needs to be burned (atomically) or buried.

      You can't find ours with a Geiger counter. :)

      We made over 10,000 tons of Pu at Hanford, btw. It's on record.

      • by Anonymous Coward

        George Webb's story is that all of the Russian HEU was actually used in naval reactors and that is a significant part of the corruption going on in DC.

        Webb is able to say "I have been saying that for 2 years" to a lot of legacy media stories, he has excellent sources, very excellent researchers and a hell of a mind, so is worth watching, imho.

        • by nojayuk ( 567177 )

          George Webb's story is that all of the Russian HEU was actually used in naval reactors

          That would be a neat trick since the HEU was downblended to low-enrichment uranium (LEU) in Russia before it was shipped to the US. America paid for this to be done in-situ in Russia, mostly to take the HEU out of possible black-market hands. Nice conspiracy theory though.

      • AFAIK, it will still run in a reactor -- you'd just need more shielding when processing it or loading the reactor with MOX.

        One can argue that the increased radioactivity/Pu240 contamination is a feature, not a bug. Makes it harder to misappropriate or for amateurs to machine into a bomb core.

        • Terrorists make bombs that are Way more dangerous, thankfully, they blow themselves up a lot, so that helps too.

        • > Makes it harder to misappropriate or for amateurs to machine into a bomb core.

          Right, so the guys that strap a bomb to their belt and blow themselves up are going to be deterred by radiation?

          Sure.

      • Um, wot? Most of what you're saying isn't even wrong.
      • by nojayuk ( 567177 )

        On this planet, in this reality, it's Pu created by the US government for military purposes and now surplus to requirement due to a massive downsizing of the nuclear weapons it possesses and has ready for use or stockpiled. The Russians are dealing with their own overstock of Pu-239, they have a reactor and existing reprocessing lines that should be able to turn it into usable fuel to burn it.

        Soviet-era weapons-grade Pu isn't particularly radioactive, any more than US weapons-grade Pu is. The USN uses a sli

        • Real plutonium is a mix of things, depending on how it's made.

          All other forms of Pu is More radioactive, and it has a huge cross section for fission, which adds to the radioactivity over time.

          In other words, the crappier the Pu, the faster it gets dangerously radioactive.

          Pu239 gives off alphas as it's primary decay, but those can cause fission of other Pu atoms, and the cross section for the impurities is Much larger than the 239, making it more likely to happen over time.

          Fission gives off many things, whic

    • by Mashiki ( 184564 )

      Why even both? Designs like CANDU can already incorporate raw plutonium into the fuel mix. This screeching environmentalism run amok at fuel refinement.

      • The US doesn't have CANDU reactors and allowing the US to export its MOX to Canada isn't entirely uncontroversial.

        • by Mashiki ( 184564 )

          The US doesn't have CANDU reactors and allowing the US to export its MOX to Canada isn't entirely uncontroversial.

          In other words, it's an environmentalist problem just like 30 years ago. The environuts screech that "the end is coming" "CO2 will kill us all..." and then protest against nuclear power which per KWh is dirt cheap, and won't have a serious impact against the economy unlike renewables.

          • > In other words, it's an environmentalist problem just like 30 years ago

            Well that's the dumbest thing I've read all week.

            Shipping US bomb fuel to foreign countries is controversial because shipping bomb fuel is controversial.

            But sure, let's blame this on some ill-defined group you made up in order to assuage your political leanings.

        • > US to export its MOX to Canada isn't entirely uncontroversial

          I don't know why, they paid for Russian Pu to be sent here to mix. I find it difficult to believe it would be more controversial to send US Pu here.

      • Yep, screeching anti-nuclear Luddism with a healthy helping of irrational terrorism/proliferation fear mixed in.
      • by dk20 ( 914954 )

        Seriously right.. why not just ship it to Canada?

        Hasnt canada already destroyed a lot of "weapons grade" plutonium?
        http://publications.gc.ca/Coll... [publications.gc.ca]

        why pay to burry it when we can safely convert it to electricity?

      • Comment removed based on user account deletion
        • > they would need a MOX fuel processing plant just as the US would.

          Its about 45 minutes up the road from me in Port Hope.

          AECL did argue that some minor changes to the CANDU plant design would allow unmixed fuel to be burned, they called it EC6 and the overall project was CANMOX:

          http://www.snclavalin.com/en/projects/the-canmox-solution.aspx

          Originally pitched to the UK, but ultimately went nowhere.

  • My math might be wrong, but I'm coming up with ~700 million to just shoot it into space. 68,000 pounds at 10k per pound. Now maybe I'm off, say due to handling and there being a difference between putting something in orbit and shooting it at the Oort cloud. But even if I'm off by an order of magnitude it's still far cheaper. Maybe?

    • Re:Shot at alianz (Score:5, Insightful)

      by Wycliffe ( 116160 ) on Saturday October 13, 2018 @03:07PM (#57472700) Homepage

      My math might be wrong, but I'm coming up with ~700 million to just shoot it into space. 68,000 pounds at 10k per pound. Now maybe I'm off, say due to handling and there being a difference between putting something in orbit and shooting it at the Oort cloud. But even if I'm off by an order of magnitude it's still far cheaper. Maybe?

      This would never be approved. It would be very dangerous to put nuclear material on a rocket. Our rockets are not near reliable enough and it would be very hard to prevent something like this from crashing back to earth if the rocket exploded. Even if you could put it in a explosive proof container, the politics of it would likely never let it happen not to mention that an explosive proof container would greatly increase both the weight and the expense.

      • I agree you're probably right about the logic being used for not doing it, but I don't know if it makes sense to me... by explosive proof container, you're pretty much just talking about encasing them in tungsten or such. Like I said, even if I was off by an order of magnitude it'd be cheaper. That's a lot of bribe money for the world powers that would do anything besides complain.

      • by gweihir ( 88907 )

        Actually not an unsolvable problem, but adds a massive amount of weight for armor. And you would probably have to do it 1kg at a time or so.

    • by gweihir ( 88907 )

      You forgot several 1000 tons of armor shielding to make sure it does not make the US uninhabitable if a rocket blows up on launch.

      • I think you're overestimating how eager the stuff is to spread over large areas. It's a metal. It forms ingots and you can machine it. It does not evaporate readily. Parking it directly under a shuttle engine for a while might do it, but it's not prone to it. More to the point, it's already used as a fuel source in space probes.

        • It does have the ability to burn, supposedly. But you can make it into plutonium oxide which is already "burnt" to make it safer.
          • Ability? Pure plutonium isn't just a nuclear material - chemically, it's pyrophoric. The hard part is stopping it from burning.

            • Aluminium and magnesium are also pyrophoric. We make engine blocks out of their alloys. Pyrophoricity doesn't mean it will spontaneously ignite in air, just that it can burn under the right circumstances. (i.e. heated with a blowtorch, finely divided than subjected to flame, etc)

              The solution is either:
              (a) to store and transport Pu as an oxide. It can't be burnt, since it's already chemically "burnt."
              (b) use a less-flammable cladding material to protect it from oxygen.

              • > it can burn under the right circumstances. (i.e. heated with a blowtorch

                Like a rocket engine?

                > finely divided than subjected to flame

                Like an exploding rocket?

                Wait, are you defending or criticizing this concept?

        • by gweihir ( 88907 )

          It is also a metal that corrodes into a fine powder with Oxygen and humidity.

          • That's why you process it into an oxide before use in a reactor. If it's already burnt, it can't be burnt further.
    • Am I the only one to notice the irony of wanting to have a substance that was created to be the payload of a rocket be the payload of a bigger rocket?

    • My math might be wrong

      I don't know about your math, but your idea is wrong. First of all, it's going to be dangerous to potentially have a launch accident and have it rain down on anyone living under or down wind of the explosion.

      More importantly, this is a finite resource, so it would be an incredible waste to jut launch it into space. Who knows what we may be able to use it for in the next 50, 100, 200 years.

    • Melt and mix it with glass. Mold the result into a torpeo like shape and temper it for increased strength. Then take them out to an oceanic subduction zone, where one continental plate is sliding under another. Drop them from the surface into the muck at the bottom on the plate that is going under. The glass torpedo should have enough velocity to bury its self pretty deep into the sediment sealing if off from the environment. Eventually it will be melted and mixed into the mantle of the earth. If it ever do

  • If the Obama administration really wanted to do this, why were they not the ones to cancel the program?

    It seems like Trump deserves credit for that...

    I for one am all for nuclear power but that program seems like a giant waste of money and it is well it was cancelled.

    • by nojayuk ( 567177 )

      Construction of the MOX plant was started a long time back, Google Google... The project started in 2000, construction was started in 2007 under Bush the Younger. I recall that Congress pulled the plug on financing it a couple of times before restoring the funding keeping it limping along, probably for pork reasons -- South Carolina where the plant was being built has two Republican Senators. The project was doomed from the start pretty much.

      The 34 tonnes of surplus Pu is US-made, it's not Russian despite w

  • by SumDog ( 466607 )

    I wasn't aware there was even an attempt to do this. I've always thought that highly enriched fuel could never be turned back into power grade, but if possible, it would be a massive boost to our energy reserves.

    The waste will still be a problem. It will leak. It's already leaking in Nevada and only the local papers seem to bother covering it. Tritium has been found outside Wattsbar Nuclear and TVA keeps buying up land to keep it from getting out.

    • The plutonium is a metal. Mixed with glass, it's not going anywhere fast. Tritium is radioactive hydrogen (probably as part of tritiated water). It likes to migrate. You're comparing lemons to nipples here.
  • ... wants to blend the 34 tonnes of deadly plutonium ... with an inert substance and bury it underground in New Mexico's Waste Isolation Pilot Plant. Burying the plutonium would cost nearly $20 billion over the next two decades ...

    Ant then someone will discover / invent something super useful -- like warp drive, Mars/Venus terraforming or Earth climate control -- that requires this plutonium and it will cost N times as much to dig it up and separate it out. Even though it would cost twice as much, turning it into fuel seems more productive than burying it, and we might even learn new things while actually doing something with the stuff.

  • France also tried that. The Superphenix reactor [wikipedia.org] was designed to burn plutonium. It was completed in 1981, and abandoned in 1997.

  • It requires jobs. Not it provides jobs. If the government is taking money to do something that's a net weight on the economy, even when they hire people with the money. They're taking those people's time in return for the money, so that's barely better than break even on the employment side. And the taxes they're using make it into a negative. It's unusual and refreshing to see the proper perspective on government spending. On this topic the percentage completed is irrelevant. It's sunk cost. It could be 9

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