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Japan Data Storage

Fukushima To Possibly Dump Radioactive Water Back Into Ocean (cnn.com) 314

omfglearntoplay shares a report from CNN: Eight years after Japan's worst nuclear disaster, the government is not sure what to do with the contaminated water that remains -- but its environment minister says dumping it into the ocean might be the only choice. To cool fuel cores at the damaged Fukushima nuclear plant, operator Tokyo Electric has pumped in tens of thousands of tons of water over the years, according to Japanese national broadcaster NHK. Once used and contaminated, the water is put into storage. Now, storage space is running out. And during a televised press conference Tuesday, Japan's environment minister Yoshiaki Harada said he believed the only solution was to "release it into the ocean and dilute it." "There are no other options," he said. Japan's Chief Cabinet Secretary Yoshihide Suga emphasized that a decision has not yet been made. "There is no fact that the method of disposal of contaminated water has been decided," he said. "The government would like to make a decision after making thorough discussion."
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Fukushima To Possibly Dump Radioactive Water Back Into Ocean

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  • Worst one? (Score:5, Funny)

    by ArmoredDragon ( 3450605 ) on Tuesday September 10, 2019 @08:44PM (#59179482)

    So this nuclear disaster was worse than little boy and fat man?

    • Re:Worst one? (Score:4, Interesting)

      by Mr D from 63 ( 3395377 ) on Tuesday September 10, 2019 @08:54PM (#59179496)
      They should have been releasing it all along. No significant risk to environment or health, we are dumping much more, worse stuff in the oceans everyday.

      But the OMG RADIATION! crowd doesn't care about actual risk.
      • Ok, I'm not an expert in this, but can't you, you know, re-use the same water for cooling instead of always using new water? What's it going to do, irradiate the core?

        • Ok, I'm not an expert in this, but can't you, you know, re-use the same water for cooling instead of always using new water? What's it going to do, irradiate the core?

          I believe a lot of it is incoming water from ground drainage. They may use some of it for cooling but probably not much is needed.

        • Re:Worst one? (Score:5, Insightful)

          by ShanghaiBill ( 739463 ) on Tuesday September 10, 2019 @09:35PM (#59179598)

          can't you, you know, re-use the same water for cooling instead of always using new water?

          The water is recycled for multiple passes. But eventually it builds up enough gunk that it is too contaminated to run through the pumps. So it is diverted to storage.

          In theory, many of the radioactive isotopes could be removed with osmotic filters, but there are no on-site facilities to do that, and even then it is not going to filter out tritium and other small elements.

          10,000 cubic meters may sound like a lot of water, but it really isn't. There are oil tankers that can hold 300,000 cubic meters. One of those could hold all the waste water generated in a decade.

        • Re:Worst one? (Score:4, Insightful)

          by Cyberax ( 705495 ) on Wednesday September 11, 2019 @03:13AM (#59180144)
          This water is groundwater seepage. Nothing needs cooling in Fukushima, all the "hot" materials have long since cooled enough to not require water cooling.

          The water is filtered through multiple layers of resins and adsorbents, but they can't do anything about tritium, since it's chemically indistinguishable. Right now the water in tanks is just about 2 times more radioactive than legally allowed for discharge into the ocean.

          They should just discharge it and stop the Kabuki theater that is Fukushima cleanup.
          • Ummm, not quite.

            https://www7.tepco.co.jp/wp-co... [tepco.co.jp]

            The slides are from last November and showed that there was still radioactive heating at that time, and Tepco was not sure how much debris cooling was needed.

            I looked to see if there were published results of the tests but could not find them. I still believe that they are pumping water over the melted core to keep it cool.

            In any case "long since cooled" is quite inaccurate.

      • Re: (Score:2, Troll)

        They should have been releasing it all along. No significant risk to environment or health, we are dumping much more, worse stuff in the oceans everyday.

        "A" in science.
        "F" in PR and marketing.

        • Re: (Score:3, Insightful)

          They should have been releasing it all along. No significant risk to environment or health, we are dumping much more, worse stuff in the oceans everyday.

          "A" in science. "F" in PR and marketing.

          Oh so true. Unfortunately science loses to PR way too often.

          • Re:Worst one? (Score:4, Insightful)

            by Tough Love ( 215404 ) on Tuesday September 10, 2019 @09:40PM (#59179622)

            No, it's not about whataboutism. It's about Tepco fucked up, now fix it without fucking up more.

          • Re: (Score:3, Insightful)

            by AmiMoJo ( 196126 )

            It's not a PR problem, it's a trust problem. TEPCO caused this mess, the government lied about it and told people everything was fine when it wasn't. The nuclear scientists who reassured everyone that the plant was safe and couldn't melt down or cause a 500 billion dollar disaster were wrong.

            So now when they say that dumping the water is fine and you can still eat the fish caught in that area, once considered some of the best in Japan, people aren't going to take their word for it. They are just not going t

            • by shanen ( 462549 )

              Found by accident, but I don't have a mod point to help your visibility. Anyway, largely in agreement with my longer comment written before I saw this one.

      • 3 eyed fish by the plant is no issue

      • Scientists from all over the world have been relentlessly working on the problem of pollution, but thank god Mr D from 63 has managed to outsmart them all and found a solution here on slashdot: since the sea is so big, and the sky is so large, we can just dilute any pollutant and dump it. We're dumping so much bad stuff anyway, what's the problem? Because this is totally how the risk for the release of hazardous substances is calculated in a scientific method: "meh, we've done worse, don't bother us with yo
      • by rtb61 ( 674572 )

        It should be released in a sound manner. Which at the very least, means cooling the water to near freezing and feeding it into a very, very long hose, which will take the water far from the coast and down to very deep water. You could as an alternate, refurbish an oil tanker to take the water on, then cool it with mobile refrigeration and then have a very long hose to take the water to the sea floor. You could also run the water through a large scale centrifuges to settle all the heavier than normal water c

      • But..keeping the water in storage for as long as it has allows for more decay before the water is released.

    • Strictly in terms of long term radioactive contamination, Fukushima was far worse than the bombings of Hiroshima and Nagasaki.

      . The bombs were airbursts, so fallout was minimal, and blew out mostly over the ocean. Hiroshima and Nagasaki today are back to normal background radiation levels, and have been for decades.

      There were a whole lot more material released (and still being released) by the Fukushima meltdowns.

  • by h33t l4x0r ( 4107715 ) on Tuesday September 10, 2019 @08:45PM (#59179488)
    Come on, Japan.
  • by CrimsonAvenger ( 580665 ) on Tuesday September 10, 2019 @08:57PM (#59179498)

    So, a million tons of water (which is way more than they have, if they're talking "tens of thousands" instead of "hundreds of thousands" of tons) is about 0.001 cubic km of water.

    Note, by the by, that we have 1.35 BILLION cubic km of seawater, so the hypothetical million tons is less than 0.0000000001% of the seawater.

    Now, natural seawater (the 1.35 billion cubic km) has about 4000000000 tons of uranium naturally. So we'd be adding an insignificant amount of uranium (worst case is a few hundred tons added to 4 billion tons) to an effectively infinite amount of water.

    Mind you, I think it's a stupid way to handle it. Put the contaminated water in shallow, open to air pools, let it evaporate. When it's done, pour concrete into the pools, dump some soil on top of the concrete, and plant flowers....

    • Comment removed (Score:5, Informative)

      by account_deleted ( 4530225 ) on Tuesday September 10, 2019 @09:28PM (#59179572)
      Comment removed based on user account deletion
      • Re: (Score:3, Informative)

        by Solandri ( 704621 )

        and divide it by the volume of the entire ocean and say "Hey... Zero risks!". The real world is a bit more complicated than that.

        Who said anything about zero risk? Seawater is already radioactive [waterencyclopedia.com]. Anyone so fearful of radiation that they oppose diluting this water in the ocean shouldn't be swimming in the ocean in the first place. Or visiting the beach [youtube.com]. Or flying on planes [cdc.gov]. Or sleeping next to other people [gizmodo.com]. Or exposing themselves to sunlight [cancer.org].

        So you don't need to reach zero risk. You just need to

      • But compared the universe you and your post are really tiny....

    • You seem to overlook the fact that salted water has not the same density as clear water.
    • Now, natural seawater has about 4000000000 tons of uranium naturally. So we'd be adding an insignificant amount of uranium

      The real problem is that this radioactive water is not instantly diluted into oceans worldwide, the area around where it was thrown keeps being concentrated and marine wildlife will absorb that in significant quantities. Then who eats that?

      • Put the water in a super tanker, and then travel over the oceans, while slowly dumping it.

      • They should bring all the cancer patients who require radiation therapy for a field day at the Fukuhima beach, hundreds of thousands of them, and then release the radioactive water into the ocean. Problem solved and nobody gets hurt.

  • by Dereck1701 ( 1922824 ) on Tuesday September 10, 2019 @09:22PM (#59179550)

    It's very possible that I'm missing something here that would make this impractical but why not just filter/"desalinate" it? Either force it through some sand filters at high pressure like they do in reverse osmosis filters for water or run it through a modified evaporation process to remove just the water. I'm sure that it wouldn't be perfect, but that coupled with dilution into ocean water should render it pretty harmless. This seems to be the EPA's position (at least with low level contamination) with the only caveat seems to be that you have throw in another one or two systems (water softening and/or activated carbon) to get rid of some of the gaseous contaminates.

    https://www.forbes.com/sites/j... [forbes.com]

    • by ShanghaiBill ( 739463 ) on Tuesday September 10, 2019 @09:49PM (#59179654)

      Using osmotic filters to clean the water sounds great in theory.

      In practice, it is not a workable solution:

      The water is contaminated with many different isotopes. A filter to catch one, may not catch others. None will catch tritium. There are no off-the-shelf filters to catch, say, cesium, strontium, and uranium.

      The water is radioactive, and the concentrated isotopes will be very radioactive. So the filtering plant would have to be run by robots. If you go on Amazon, and search for "robotically operated osmotic filtration plant", you will find that none are available. So it would have to be designed, tested, and built from scratch.

      It is WAY cheaper to just store the water in a tank until the radiation fades enough to dump it ... which may be now, 8 years after the meltdown.

    • It's very possible that I'm missing something here that would make this impractical but why not just filter/"desalinate" it?

      Because it is contaminated with tritium oxide, heavy water. It could be filtered out only at considerable expense and the common method of disposal for heavy water (in small quantities anyway) is to dump it down the drain.

      If the disposal of small quantities of heavy water is to dump it down the drain then how do we dispose of large quantities of heavy water? Maybe just find a bigger drain.

      So, yes, you are missing something. Something that should have been in the article on why they are considering they d

      • by _merlin ( 160982 )

        "Heavy water" in general is deuterium oxide, not tritium oxide. Heavy water isn't radioactive like tritium compounds are (it does have slightly different chemical properties to regular water and is harmful if you drink enough of it).

  • I have a question: can it be heated, so water evaporates and the overall volume be less? Or would heating make the radioactive contaminants evaporate too?

    Another question: are they still using water to cool the cores? If so, why not reuse the same water, so end up with less overall contaminated water to deal with?

    • Re: (Score:2, Informative)

      by MrKaos ( 858439 )

      I have a question: can it be heated, so water evaporates and the overall volume be less? Or would heating make the radioactive contaminants evaporate too?

      They won't evaporate however they will be carried with the steam and end up somewhere random in the world. Then there is the energetic cost of distilling it. It's probably a good job for some sort of solar array and perhaps the waste heat from the spent fuel rods.

      Another question: are they still using water to cool the cores? If so, why not reuse the same water, so end up with less overall contaminated water to deal with?

      Probably because it is ground water and they have much more of it than they can use. It's a great question though and it's likely we are going to need a lot of innovative solutions to resolve this issue.

      Why on earth someone thought it was a g

    • How about the opposite. Freeze it into blocks and bury it in antarctica permafrost. Or does it generate too much heat to remain frozen ?
  • Comment removed based on user account deletion
    • How do you seperate the radioactive elements from the water?

      • water filtration (Score:4, Informative)

        by Firethorn ( 177587 ) on Tuesday September 10, 2019 @10:26PM (#59179750) Homepage Journal

        Penroze said it, reverse osmosis filters, the same ones capable of removing salt from the water. Distillation would also work.

        Well, for everything but the tritium. Tritium is an isotope of hydrogen, so is really freaking hard to remove from water.

        This is because chemistry treats different isotopes identically. In chemical terms, hydrogen(1 neutron), deuterium(2), and tritium(3) act identically. Same deal with U-238(depleted uranium, extra-stable) and U-235(reactor/bomb stuff), Iodine-127 vs 131, etc...

        In order to separate them you have to render them a gas(using fluorine in the case of uranium) and use centrifuges. Or a particle accelerator and a magnet.

        That's why back in the day making nuclear bombs using plutonium was simpler than enriching uranium. Separating plutonium from uranium is relatively easy via chemical means. Separating U-238 from U-235 is orders of magnitude more difficult.

        Anyways, I agree with the other posters. H-3 isn't actually all that bad, it's a beta emitter, and the amounts not that high. If you have to, filter the other crap out, go out a couple miles onto the ocean, and release the stuff over the course of a couple hundred km so it dilutes well.

        • The canduu reactors have tritium removal systems, such as electrolysis followed by gas driers, diffusers and/or absorbers and then cryogenic distillation....

          yeah, energy intensive stuff. But TEPCO should be made to buy the gear and foot the bill, serves 'em right.

        • by dargaud ( 518470 )

          Anyways, I agree with the other posters. H-3 isn't actually all that bad, it's a beta emitter, and the amounts not that high. If you have to, filter the other crap out, go out a couple miles onto the ocean, and release the stuff over the course of a couple hundred km so it dilutes well.

          Or use an already allowed solution: separate the H and its isotopes (Deuterium, Tritium) and release it into the atmosphere on a dry day. It simply floats up to the highest atmospheric layer and eventually ends up in space.

    • by robbak ( 775424 )

      Because then you have a great pile of highly radioactive used osmotic filters, too radioactive to even handle. And even then, the major contaminate - tritrium - won't be captured by reverse osmosis.

    • Umm... I hazard a guess: Money?

  • Why not considering all the crap our bombs put in the ocean. And land. And air...
  • It doesn't seem like a terrible idea.

    "3.6 roentgen not great, not terrible"

  • Nuff said.

    Well, not enough, not really. Far from it to tell the truth, but it's a good start.

    • Nuff said.

      Well, not enough, not really. Far from it to tell the truth, but it's a good start.

      Not to be the obvious dick, but what should "we" do with it then?

      Should we send it off to some remote village and market it as "free potable water" and see what happens next?

      I like the ideas above, turn it into powdered milk. Maybe there is a viable recycling option out there for radioactive water.

      • Re: (Score:2, Flamebait)

        by Tough Love ( 215404 )

        I propose that this radioactive water should be flushed up the assholes of Tepco executives, perhaps major shareholders as well. There should be enough pigs at the trough needing enemas to suck it all up, every last drop. Just keep those cheeks pinched, and please when you do need to take a shit, do in your own swimming pool, not the public sewage system.

        • I propose that this radioactive water should be flushed up the assholes of Tepco executives, perhaps major shareholders as well. There should be enough pigs at the trough needing enemas to suck it all up, every last drop. Just keep those cheeks pinched, and please when you do need to take a shit, do in your own swimming pool, not the public sewage system.

          But for real though.

  • It's tritium! (Score:5, Informative)

    by blindseer ( 891256 ) <blindseer@noSPAm.earthlink.net> on Tuesday September 10, 2019 @11:09PM (#59179838)

    I keep reading posts here asking the same question. A question that should have been answered in the article. "Why don't they just filter out the radioactive stuff and dump the non-radioactive water into the ocean?"

    The answer is because it's the water itself that is radioactive. The radioactive material in the water is the hydrogen atoms in the molecules. A radioactive hydrogen isotope that is so common that it has a unique name, tritium.

    This radioactive hydrogen isotope has two neutrons, so it's heavier than normal water. We have processes to separate it but it is very energy intensive and carries out deuterium, another hydrogen isotope with one neutron that is not radioactive, with the tritium. Deuterium and tritium are naturally occurring though in very small quantities. When concentrated into heavy water it becomes hazardous to the health of plants and animals but diluted properly it causes no harm.

    How does one dilute heavy water to the point it can harm no one? I don't know, maybe dump it in the biggest body of water on the planet?

    The lack of leaving out this critical detail leaves people to wonder why other avenues have not been considered. The problem is tritium, that's it. This can be filtered out of the water only at considerable expense because it is water that they'd be filtering out. Even then the disposal of heavy water is often just to dump it down the drain.

    Just dump it already!

    • by MrKaos ( 858439 )

      How does one dilute heavy water to the point it can harm no one? I don't know

      You store it for its relatively short half life and release it when it has decayed. It's a great incentive for Japan to come up with an industrial solution to reducing the groundwater flowing into the site.

      Just dump it already!

      It also contains Strontium 90 so that's not a good idea. It's the 21st century, storing some water for a few years whilst the radio-isotopes within it decay is not a difficult process. Engineer the container to fail after the end of the projected half life and automatically empty itself. You're sa

  • I guess the premise of the Korean The Host sci-fi horror film wasn't so far fetched after all.

Keep up the good work! But please don't ask me to help.

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