Follow Slashdot blog updates by subscribing to our blog RSS feed

 



Forgot your password?
typodupeerror
×
Science

Nuclear Reactions at Chernobyl Are Spiking in an Inaccessible Chamber (newscientist.com) 119

Scientists monitoring the ruins of the Chernobyl nuclear power plant in Ukraine have seen a surge in fission reactions in an inaccessible chamber within the complex. They are now investigating whether the problem will stabilise or require a dangerous and difficult intervention to prevent a runaway nuclear reaction. From a report: The explosion at Chernobyl in 1986 brought down walls and sealed off many rooms and corridors. Tonnes of fissile material from the interior of a reactor were strewn throughout the facility and the heat it generated melted sand from the reactor walls with concrete and steel to form lava-like and intensely radioactive substances that oozed into lower floors. One chamber, known as subreactor room 305/2, is thought to contain large amounts of this material, but it is inaccessible and hasn't been seen by human or robotic eyes since the disaster.

Now, researchers have seen a spike in neutron emissions from the room, with levels increasing around 40 per cent since the start of 2016. This points to a growing nuclear fission reaction, so researchers are trying to determine if this surge will fizzle out, as previous spikes in other parts of the ruins have done, or whether they will need to find a way to access the room and intervene. Neil Hyatt at the University of Sheffield, UK, who studies nuclear waste disposal, likens the situation to "embers in a barbecue pit" and says "it's a reminder to us that it's not a problem solved, it's a problem stabilised."

One suggestion for why this is happening is that a new structure placed over the ruined reactor in 2016 is causing the plant to dry out. When uranium or plutonium fuel decay radioactively, they emit neutrons, which can promote a fission reaction if the neutrons are captured by another radioactive nuclei. However, large amounts of water slow these neutrons down, preventing them from being captured. The original shelter, which was hurriedly constructed over the reactor in the months following the accident, was riddled with holes that allowed rainwater and birds inside. If the rainwater was helping to suppress reactions in room 305/2, its absence due to the new structure could mean there is no longer enough water in the room to sufficiently slow neutrons down.

This discussion has been archived. No new comments can be posted.

Nuclear Reactions at Chernobyl Are Spiking in an Inaccessible Chamber

Comments Filter:
  • by lazarus ( 2879 ) on Monday May 17, 2021 @05:09PM (#61394578) Journal

    Well, at least the dupe [slashdot.org] isn't still on the main page...

  • Obviously the exact cause and effect needs to be established, so that the situation can be controlled long term, but _right now_ you have:

    * a quite concerning development.
    * a reasonably simple explanation.
    * a reasonable simple fix.

    Unless someone can think of a reason why starting spraying water, to start soaking the soil, would be a stupidly dangerous thing to do, ....then maybe watering that ground. It's going to take days to reach down, so waiting until the situation gets much worse....sounds like a bad idea.

    • by ShanghaiBill ( 739463 ) on Monday May 17, 2021 @05:41PM (#61394652)

      The hydrogen in H2O converts fast neutrons to slow "thermal" neutrons.

      The problem is that thermal neutrons aren't necessarily less reactive, just differently reactive. For instance, fast neutrons will react with Li7, but thermal neutrons will react with Li6. Failure to understand that is why Castle Bravo had twice the pop that was expected.

      So spraying water on the pile is likey a workable fix, but it is better to make sure we actually understand what is going on first.

      • The hydrogen in H2O converts fast neutrons to slow "thermal" neutrons.

        The problem is that thermal neutrons aren't necessarily less reactive, just differently reactive. For instance, fast neutrons will react with Li7, but thermal neutrons will react with Li6. Failure to understand that is why Castle Bravo had twice the pop that was expected.

        So spraying water on the pile is likey a workable fix, but it is better to make sure we actually understand what is going on first.

        IIRC, the RBMK is not a fast reactor, but uses graphite as the moderator and water for cooling. Finding out what is going on, as you point out, is critical to solving the problem or preventing one.

        • by Waffle Iron ( 339739 ) on Monday May 17, 2021 @08:42PM (#61395026)

          IIRC, the RBMK is not a fast reactor, but uses graphite as the moderator and water for cooling.

          This is no longer an RBMK reactor.

          It's now a RMRS (random mixture of radioactive slag) reactor.

          • by aaarrrgggh ( 9205 ) on Monday May 17, 2021 @09:25PM (#61395116)

            Where can one purchase these new-design RMRS reactors? I hear the maintenance costs are significantly lower than traditional designs

            • I hear the maintenance costs are significantly lower than traditional designs.

              I know you're joking, but keep in mind: The NSC (New Safe Confinement) - that huge half-pipe thing that's.now covering the Chernobyl reactor and the old sarcophagus - is spec'd to last 100 years and cost(s/ed) north of 20 Billion Euros. That ain't cheap. Especially considering that we're going to need a few of those or some large-scale glass-enclosing + storage in bunker-concrete for radioactive waste that was cut into handy piece

          • by tg123 ( 1409503 )
            Someone with mod points please mod the previous post up

            This is no longer an RBMK reactor.

            It's now a RMRS (random mixture of radioactive slag) reactor.

            that is Brilliant !!!

        • He explained the effect of water. Not the effect of the original graphite.

          Sprinkle water on it, and it might start moderating the fission neutrons. Simple.

          Has nothing to d with the original design of the reactor, or how would a neutron know that it should not slow down when it bounces off from some water molecules?

          • He explained the effect of water. Not the effect of the original graphite.

            Correct. However, if the RBMK is a thermal reactor, which since it has a moderator I suspect it is, then what actually converted fast neutrons to thermal neutrons is irrelevant. In the RBMK's case, water was used to remove the heat created by fission and the steam produced to run turbines, not moderate as in light water designs.

            Sprinkle water on it, and it might start moderating the fission neutrons. Simple.

            Which the graphite does as well. Which is why it is important to understand what is happening within the slag.

            Has nothing to d with the original design of the reactor, or how would a neutron know that it should not slow down when it bounces off from some water molecules?

            It doesn't, whether it's water or graphite. The fuel doesn't care h

            • Which the graphite does as well. Which is why it is important to understand what is happening within the slag.
              The graphite burned away in the "explosion".

          • Sprinkle water on it, and it might start moderating the fission neutrons. Simple.

            Or, it might speed up the reaction, but slowing down the neutrons. The dual loop pressurized water reactor I worked on used water as a moderator to increase the number of reactions and hafnium rods to moderate the number of neutrons and control the reactor.

            Other possible effects of adding water:

            • the water converts to radioactive steam which rises into the air and causes radioactive rain.
            • a steam explosion./
            • an uncontrolled chemical reaction that weakens the structures
            • destabilizing the buildings by weakenin
            • Or, it might speed up the reaction, but slowing down the neutrons.
              That is exactly what I wrote ...

              So idea what you are ranting about.

            • by torkus ( 1133985 )

              Sprinkle water on it, and it might start moderating the fission neutrons. Simple.

              Or, it might speed up the reaction, but slowing down the neutrons. The dual loop pressurized water reactor I worked on used water as a moderator to increase the number of reactions and hafnium rods to moderate the number of neutrons and control the reactor.

              Other possible effects of adding water:

              • the water converts to radioactive steam which rises into the air and causes radioactive rain.
              • a steam explosion./
              • an uncontrolled chemical reaction that weakens the structures
              • destabilizing the buildings by weakening floors and walls
              • destabilizing the ground under the building

              Does it still sounds like a good idea?

              Radioactive steam is not a thing.
              You can have water contaminated with radioactive substances which is a concern of course.
              Steam explosion requires confinement, unlikely to happen this way
              Chemical reaction and/or destabilization could happen, but it would be similar to rain leaking in the last several decades.

              The bigger concern is that reactivity has been increasing in general. That's unlikely to happen naturally during this time frame so an external factor (lack of water perhaps) is probably the cause.

              It w

    • by MrKaos ( 858439 )

      Unless someone can think of a reason why starting spraying water, to start soaking the soil, would be a stupidly dangerous thing to do, ....then maybe watering that ground.

      I think that part of the issue is that condensation inside NSC (New Safe Confinement) may compromise the structure over time from corrosion. The goal being to keep the structure going for as long as possible whilst they disassemble the reactor. There are things like cranes and gantries holding robotic jackhammers lowered from the ceiling for the planned disassembly of the building within NSC.

      Now that we're seeing picture from within NSC it's much easier to imagine a day when the building is gone and th

      • > I think that part of the issue is that condensation inside NSC (New Safe Confinement) may compromise the structure over time from corrosion.

        Ugh. I wonder even how much info they have on "how to keep a structure standing for 5000 years, when it's not built in the shape of a pyramid.", let alone details about how corrosion affects buildings over that time frame.

        • by MrKaos ( 858439 )

          > I think that part of the issue is that condensation inside NSC (New Safe Confinement) may compromise the structure over time from corrosion.

          Ugh. I wonder even how much info they have on "how to keep a structure standing for 5000 years, when it's not built in the shape of a pyramid.", let alone details about how corrosion affects buildings over that time frame.

          IIRC they were aiming for 100 years, the rationale being much of the reactor is disassembled and 100 years worth of engineering effort to replace NSC with something else.

      • NSC has air handling systems, so controlling humidity is somewhat trivial. Adding an insulation layer on the exterior might be a good idea, but it shouldn’t be necessary.

        • by MrKaos ( 858439 )

          NSC has air handling systems, so controlling humidity is somewhat trivial. Adding an insulation layer on the exterior might be a good idea, but it shouldn’t be necessary.

          Ok. I was recalling what I read about the structure when it was being built saying that some areas of NSC were given special attention because they would become inaccessible once the structure was fully unfolded and put in place.

          Air handling systems would make sense, I'm pointing out the effort they went to controlling humidity within NSC and a potential rationale for avoiding introducing lots of water *within* the structure. After all keeping the building in service for as long as possible means it will

          • Again, no nuclear scientist but building a monolithic dome [slashdot.org] structure nearby (a few hundred meters from NSC) with say 70-80’ of clear height inside that can support a drilling rig would not seem like a huge ordeal— there are plenty of ways to deal with the foundation requirements and to avoid disruption of the soil, and constrution activity is all confined to the interior. When construction of the structure is done then you move to the remediation effort, and the dome can act like a confinement

      • by AmiMoJo ( 196126 )

        Also spraying in water means that now you have a load of contaminated water to deal with. If it pools it up can be quite heavy and cause stuff to collapse, and if it soaks things it can make them less structurally sound (like web paper). Just spraying water at the problem blindly is not a good idea even without the nuclear component of this accident.

    • by toddestan ( 632714 ) on Monday May 17, 2021 @10:02PM (#61395140)

      I would guess that they don't want to do this because it would mean contaminating the ground water around the plant even more than it already has been contaminated. However, they probably would consider this if they felt it was needed and there wasn't any other good solution.

  • If the idea is that lack of water is allowing fission to ramp up, then the easiest way to test this idea is to drill into this area and pump in a crap ton* of water.

    If the fission dies down, congratulations. If not, you know at least one thing which won't work.

    *A crap ton is significantly larger than a metric ton and thus suited for situations such as this.

    • by weilawei ( 897823 ) on Monday May 17, 2021 @05:44PM (#61394668)

      *A crap ton is significantly larger than a metric ton and thus suited for situations such as this.

      How does that relate to the metric shit ton?

    • by dougmc ( 70836 )

      If the fission dies down, congratulations. If not, you know at least one thing which won't work.

      ... and if you're lucky, you didn't just make things worse!

      "Fuck around and find out" certainly has its place, but ... I'm not sure this is the place for it unless we've done the possible testing and can be reasonably sure that this is a risk worth taking.

    • by Duhavid ( 677874 )

      The units stuff is very funny.

      But wont pumping water in make the water very contaminated?
      And where will the water go after that?

  • by aaarrrgggh ( 9205 ) on Monday May 17, 2021 @05:46PM (#61394674)

    Ok, I know I am no nuclear scientist or anything, but at this point I would assume they have a level of 3D mapping of the ruins, and could use directional drilling technology to access anything they needed to. I get that once you hit a certain point the radiation will cause problems, and a similar issue for heat but is it so bad that you cannot get within 1-2m of a point of interest?

    • Why would you want to make a hole between the nuclear mess and the outside world? That's the very thing they've been trying to avoid up till now.

      • A bendy, small-diameter hole specifically. Either from within the “new safe” containment building, or from a separate structure to perform a similar function of containment. Shielding it should be fairly trivial, although you might want to do something to pressurize it to prevent water ingress, but I honestly don’t know.

        I can imagine the biggest issue is boring a hole with continuous casing, as I am not sure how they would be cast when you go horizontal.

    • Further edit— I don’t imagine they could possibly drill through the reactor containment vessle, at least not safely, but going through (heavily reinforced) concrete should not be a huge problem technically.

      • by stooo ( 2202012 )

        >> I don’t imagine they could possibly drill through the reactor containment vessle

        There is no containment, and no vessel there any more.

    • by AmiMoJo ( 196126 )

      Because exposing whatever is causing this might not be a good idea. Need to figure out what it is and what to do about it first.

      Also the chances of hitting the right spot first time are limited, and drilling will release a lot of radioactive dust and the containment isn't airtight. Plus the release of dust makes all the other work much harder.

      Oh, and you have to get this drilling equipment in there somehow and have it operated remotely. By itself no easy task.

    • Ok, I know I am no nuclear scientist or anything, but at this point I would assume they have a level of 3D mapping of the ruins, and could use directional drilling technology to access anything they needed to. I get that once you hit a certain point the radiation will cause problems, and a similar issue for heat but is it so bad that you cannot get within 1-2m of a point of interest?

      I'm not a nuclear scientist either, but I did take some manufacturing classes and am familiar with drilling processes. The problem with drilling a hole is what to do with the chips? Chips are the material removed when drilling or cutting. As you get closer to the remains of the reactor, the chips brought to the surface will likely contain greater and greater amounts of contaminated material. Some of that material will be very fine, and could easily become airborne. Using a cutting fluid [wikipedia.org] will help immen

  • Nuclear Energy: the gift that keeps on giving.

    • Re: (Score:3, Insightful)

      by iggymanz ( 596061 )

      Industry? Commies made a reactor without containment.

    • by jwhyche ( 6192 ) on Monday May 17, 2021 @08:46PM (#61395034) Homepage

      It does. It is the most efficient energy system out there. Without nuclear energy there would be nothing. No matter, no life, nothing.

      • It's great when it's 93 million miles away...and nothing major goes wrong with it. I wonder what another Carrington Event would do to us today.

  • by sfcat ( 872532 ) on Monday May 17, 2021 @06:46PM (#61394798)

    However, large amounts of water slow these neutrons down, preventing them from being captured. The original shelter, which was hurriedly constructed over the reactor in the months following the accident, was riddled with holes that allowed rainwater and birds inside. If the rainwater was helping to suppress reactions in room 305/2, its absence due to the new structure could mean there is no longer enough water in the room to sufficiently slow neutrons down.

    This is the opposite of true. Water is a moderator which makes the neutrons more likely to cause fission, not less. Rainwater was accelerating the reaction if anything. There are really two possibilities: either 1) more weight has shifted onto a fuel rod compressing it or 2) a fuel rod has fallen into some water. Drying out the chamber should fix issues like then, not cause them.

    • by Richard_at_work ( 517087 ) on Monday May 17, 2021 @07:23PM (#61394854)

      This is true only for *some* reactors - RBMK reactors had a high positive void coefficient, which meant that the reaction increased as coolant boiled off....

      That said, who knows what composition makes up the sludge down there - I doubt there are many pristine or even recognisable fuel rods underneath the reactor, its all going to be "corium", ie melted fuel mixed with pretty much anything else it could melt.

      It could be as simple as degradation in materials bringing two corium masses together after all these years.

      • by sfcat ( 872532 ) on Monday May 17, 2021 @10:34PM (#61395184)
        I had forgotten that the RBMK was graphite moderated. What a shit design. Anyway, so there is a third possibility which is some graphite moderator fell around (or got on) a fuel rod. As for the positive void coefficient, I'm pretty sure that requires the precise geometry of the reactor to achieve. The RBMK used natural Uranium which meant the fuel was 99.7% neutron poison when it was started (and it was a brand new reactor when it exploded). To overcome that, you have to have a lot of moderator material (both water and graphite apparently). Unless a fuel rod is sitting in a pool of water when graphite fell onto it perfectly, I don't think a random fuel rod could achieve a positive void coefficient randomly inside the rubble. Though, I haven't done the calculations myself so I can't say for sure. BTW, graphite moderated reactors without water are just fine, it is the combination of the two that is the problem.
        • They had to use enriched uranium to overcome some problems that the RBMK design had. From what I understand, the fuel in the slag should be at around 2% enrichment or so.
        • by AmiMoJo ( 196126 )

          RBMK is a great example of how commercial factors compromise nuclear safety.

          RBMK was designed to provide very high power output (1.5GW) but also be cheap to manufacture and operable by local, low skill workers. Every decision that compromised its safety and lead to the accident at Chernobyl being possible was driven by the desire to make a low cost, mass produced reactor that didn't need expensive or complex parts like a massive pressure vessel.

          In many ways it was a lot like modern proposals of modular reac

          • RBMK is a great example of how commercial factors compromise nuclear safety.

            RBMK was designed to provide very high power output (1.5GW) but also be cheap to manufacture and operable by local, low skill workers.

            This is I think a slightly odd reading of it. Part of the reason it was so wildly unsafe is it was designed as a dual use machine, to be able to cook plutonium for nuclear weapons while making power all from unrefined natural uranium. And of course cheap, but it's a stretch to call that a commercial c

            • Part of the reason it was so wildly unsafe is it was designed as a dual use machine

              It wasn't designed for dual use, it was designed along the lines of a military reactor because military reactors are what its main designers knew best. RBMK is simply a scaled up Obninsk reactor. [wikipedia.org]

              since the USSR in the 1960s was not known as a bastion of free enterprise

              Even a command economy has budgetary constraints especially in the case of the Chernobyl power plant that was manufactured not by the usual department of medium

              • It wasn't designed for dual use,

                It was designed for both power and plutonium production. It produced 1000MWe, so its power output wasn't by any means trivial. RBMKs are still putting about 8GW into the Russian grid and no longer used for plutonium production.

                Even a command economy has budgetary constraints

                You know it would be nice if you actually read what I wrote rather than stopping a few words in and repeating what I wrote back to me.

                Moreover they simply didn't have the required industrial capacity to m

                • You are the one who is failing to understand what you have read. RBMK is not designed for dual use. It was thought, many decades ago, that it was, but nowadays the information about it is readily available.

                  And I read what you have written. This

                  since the USSR in the 1960s was not known as a bastion of free enterprise

                  really shows you have no idea how stuff worked there.

                  Neither did Canada so they made a water-tube design which they could manufacture and that has an excellent safety record

                  Yes, because the Canad

                  • You are the one who is failing to understand what you have read. RBMK is not designed for dual use. It was thought, many decades ago, that it was, but nowadays the information about it is readily available.

                    You are completely mistaken. It was designed for dual use. It was a bad design as it turns out but it was still designed that way.

                    Can you see the pattern now or is it still eluding you?

                    You flinging random facts at the page isn't a pattern. Try assembling them into an argument and we can talk.

            • by AmiMoJo ( 196126 )

              The plutonium production wasn't the main reason it was unsafe, it was the cost factor. At the time the only other design available was the VVER, which requires an expensive pressure vessel. The RBMK was also very large and powerful by comparison, and developed quickly - there were no prototypes, it went directly into mass production. The large size meant that building a containment building would have been extremely expensive, so they didn't.

              In fact around 1967 major changes were made to the design which ma

      • That's the case in reactor, where there are tons of very pure graphite that is even better moderator than water. In a pile of nuclear lava full of impurities though, water is the best moderator around so it drying out does not make things more reactive. There is indeed something very dodgy about that explanation. Not surprising, considering nobody has had a peek into the chamber in question and it's poorly known what's actually going on in there.
        • Oh wait... even impure graphite still moderates effectively, it's just that the impurities also poison the reaction pulling things back from criticality. Hmmzz... yeah, pretty complex mix of interactions. Kind of reminds of Oklo mine natural reactor.
    • by Beryllium Sphere(tm) ( 193358 ) on Monday May 17, 2021 @07:45PM (#61394886) Journal

      Yes, I wish I had mod points.

      One of the reasons water-cooled reactors stabilize themselves is that if boiling starts, the steam bubbles have less water than the condensed liquid, the amount of moderation goes down, and the reaction goes back down.

      Adding water can cause a "criticality accident", in fact.

      • One of the reasons water-cooled reactors stabilize themselves

        That's true of some reactor designs. Chernobyl is not one of those designs. Instead, the reaction inside increases as the coolant boils off.

      • On a recent documentary about Chernobyl, one of the survivors of the cleanup said that flooding the radioactive remains with water could have caused another hydrogen explosion. If the graphite in the remains of the reactor is hot enough, it will react with water to produce hydrogen. If there is air in the containment volume, the hydrogen will detonate, and blow it all up again. As far as I know, many metals will also produce hydrogen when they react with water at sufficienly high temperature. A major danger

    • by sfcat ( 872532 )
      Another fun fact, there have been 16 natural, rainwater moderated fission reactors [wikipedia.org] identified that produced fission products about 1.7 billion years ago and lasted for 10,000s or 100,000 of years.
    • by jabuzz ( 182671 )

      There is another possibility that you have missed. It's called a decay chain. That is in the complex soup that is the fuel-containing material/corium some will have decayed to other isotopes, and they could now have reached a sufficient concentration that their decay is now having an impact on what is going on.
      Further the corium is undergoing physical degradation
      Basically nobody really knows what is going on in the corium and predicting what will happen in the future is mostly a guessing game. 20 years ago

  • by countach ( 534280 ) on Monday May 17, 2021 @06:51PM (#61394802)

    And what happens if there is a "runaway" reaction? It can't destroy the containment, because we did that already 25 years ago. I can't see it accumulating hydrogen, because nothing is that well sealed anymore. So what are they worried about happening this time?

    • Re:And.. ? (Score:5, Interesting)

      by Richard_at_work ( 517087 ) on Monday May 17, 2021 @07:26PM (#61394856)

      The worst case scenario is similar to what they were worried about back then - either the reactor catches light again, and releases significant radiation bearing pollution into the atmosphere (which the current containment vessel is not designed to prevent - its not air tight), or it gets hot enough to melt through the lower bounds of the reactor building, through the lowest concrete barrier, into natural soil and down to the water table, where it could cause a huge steam explosion which eclipses the original disaster... Or both of these.

    • Re:And.. ? (Score:5, Interesting)

      by Elledan ( 582730 ) on Tuesday May 18, 2021 @01:04AM (#61395374) Homepage
      According to the scientists of the Institute of Nuclear Power Plant Safety (IPBAE) of the Ukraine Academy of Sciences who are monitoring the situation, not a whole lot. Worst case is a small steam explosion as the remaining water (if any) in the room 305/2 gets boiled off. The NSC will likely contain any radioactive dust that might cause.

      I covered this topic for Hackaday a few days ago: https://hackaday.com/2021/05/14/increased-neutron-levels-at-chernobyl-4-how-dangerous-is-corium/ [hackaday.com]

      This is a situation that has been (slowly!) developing over the past four years, ever since the NSC was put in place and was not unexpected. At this point the neutron flux density is still far below levels where one would raise alarm.
  • add water (Score:4, Interesting)

    by Jodka ( 520060 ) on Monday May 17, 2021 @07:52PM (#61394904)

    If the rainwater was helping to suppress reactions in room 305/2, its absence due to the new structure could mean there is no longer enough water in the room to sufficiently slow neutrons down.

    I am not an expert, so there is nothing to prevent me from asking the obvious naive question: Why not pump in some water with a good neutron absorber in suspension or solution, such as boron or a boron compound? Maybe they do not want to pump in so much that it floods into local aquifers, if the local groundwater is not already. a lost cause, but seems like they could replace the amount which has dried away without substantially spreading radioactive contamination.

    • Re: add water (Score:4, Interesting)

      by Dynedain ( 141758 ) <slashdot2&anthonymclin,com> on Monday May 17, 2021 @08:03PM (#61394932) Homepage

      Because drying out is a theory. What if it's wrong and the water you pump in there turns to radioactive steam that gets into the atmosphere? The protection shell is not airtight nor can it protect against future explosions.

      Also, it's inaccessible, so no way to pump water to it without drilling in from elsewhere, and if you do that, you've now made a way for whatever is currently somewhat contained to be more exposed.

  • I've seen a lot of movies that start that way :p

  • A: Chicken Kiev.

    I'll show myself out now.

  • Way ahead of the TV drama!!

The way to make a small fortune in the commodities market is to start with a large fortune.

Working...