• Rob Bos@lemmy.caEnglish
    2·
    9 hours ago

    The point is that it’s a passive process, not an active one. No need for pumping.

    Water is so much denser than air that you do get more exposure time per unit time.

  • SabinStargem@lemmings.worldEnglish
    1·
    18 hours ago

    I guess Trump could add a new canal to the Red Sea, as per an old proposal involving nukes to dig it. Considering this administration, I wouldn’t be surprised at all.

  • peoplebeproblems@midwest.socialEnglish
    26·
    2 days ago

    I think y’all are missing the point here.

    It’s really to justify the production and testing of an insanely large planet altering weapon that would create a really cool firework.

    • juliebean@lemm.eeEnglish
      62·
      2 days ago

      wow, and the bomb only needs a yield of 1620 times the largest nuclear bomb ever deployed.

        • frezik@midwest.socialEnglish
          5·
          1 day ago

          And states the main problem, with a deep ocean detonation, would be fallout.

          I’m not sure that’s right. The shockwave of a bomb that insane could easily have seismic and tsunami effects. Probably be the biggest mass of dead fish floating at the surface, too.

          Should probably talk to some geologists first.

        • juliebean@lemm.eeEnglish
          10·
          2 days ago

          perhaps, though you’d have to dig a much bigger hole. however, the paper points out that the sheer military uselessness of such an enormous bomb would be crucial to making it legal or politically feasible. the international community would be understandably sus of anyone wanting to make 1620 tsar bombas.

    • sober_monk@lemmy.worldEnglish
      17·
      2 days ago

      Thanks for the link, interesting read! I know that a good paper is succint, but honestly, I thought that making the case for a gigaton-yield nuclear explosion to combat climate change would take more than four pages…

  • gravitas_deficiency@sh.itjust.worksEnglish
    24·
    2 days ago

    I mean… if we’re being honest, the long-term effects of global thermonuclear war would be (very eventual) carbon sequestration in tens to hundreds of millions of years, and then we’ll renew our oil reserves! We of course won’t be around to use them, seeing as we’ll have been sequestered into the oil.

      • TeamAssimilation@infosec.pubEnglish
        2·
        23 hours ago

        Someone needs to work out the inheritance fallout. With our luck it will still fall within the same families, or the government.

        • psud@aussie.zoneEnglish
          1·
          9 hours ago

          Government is fine. Remember money is just IOUs from the government, if billionaires assets were sold and the money went to government it would be deflationary, all money in circulation would become more valuable

  • Pennomi@lemmy.worldEnglish
    25·
    2 days ago

    Seems half-baked. Well unbaked really. They make a shit ton of assumptions that I’m not sure are true.

    For example, why do they assume 90% pulverization efficiency of the basalt? Or is that a number they just pulled out of their ass?

    And does ERW work if the pulverized rock is in a big pile on the sea floor? Or would we have to dig the highly radioactive area up and spread it around the surface?

    And does the radioactive water truly stay at the site of the explosion? Or will it be spread through the entire ocean via currents?

    Cool concept but, like, maybe we should check the assumptions a little harder?

    • kozy138@lemm.eeEnglish
      20·
      2 days ago

      Some people would literally rather nuke the planet than take a train to work…

    • TranscendentalEmpire@lemm.eeEnglish
      8·
      2 days ago

      And does ERW work if the pulverized rock is in a big pile on the sea floor? Or would we have to dig the highly radioactive area up and spread it around the surface?

      Yeah… Doesn’t the carbon sequestering happen from rain absorbing carbon in the atmosphere and then attaching to the rock to mineralize it? Something tells me 6-7 km of ocean might impede that process.

      And does the radioactive water truly stay at the site of the explosion? Or will it be spread through the entire ocean via currents?

      Dilution is the solution…ocean big?

      • riodoro1@lemmy.worldEnglish
        12·
        2 days ago

        Dilution was supposed to be the solution to the whole greenhouse gasses emissions, turns out atmosphere not … that big.

    • Venator@lemmy.nzEnglish
      3·
      2 days ago

      Also would it kill all the sea life leading to a large amount of greenhouse gas emissions from all the decomposing fish corpses? Does undersea decomposition release greenhouse gases?

  • Hikermick@lemmy.worldEnglish
    12·
    2 days ago

    Just spitballing here. These grand ideas good/bad practical/or not are the beginning of mankind learning how to geo engineer planets or moons. I’ll be long dead before I get proven right or wrong so it’s easy to spitball

  • smeg@feddit.ukEnglish
    18·
    2 days ago

    Every proposal to save the world ultimately comes back to the plot of The Core

  • fckreddit@lemmy.mlEnglish
    2·
    1 day ago

    Carbon sequestration is not going to solve global warming. CO2 is less than 2% of atmosphere. Even if you pass a shitton of air through the strata the difference will be negligible.

    • Rob Bos@lemmy.caEnglish
      4·
      1 day ago

      Water absorbs a lot of co2 and removing it from the water via weathering is a valid idea.

      • fckreddit@lemmy.mlEnglish
        1·
        1 day ago

        I don’t know. What do you think is the concentration of CO2 in the sea water? I am just not convinced.

        • piccolo@sh.itjust.worksEnglish
          3·
          1 day ago

          The biggest threat of co2 emmisions is ocean acidifcation. A collapse of the ocean ecosystem would be devastating to the rest of the planet. A warmer planet sucks, but dead phytoplankton would result in a global plumment in O2 production.

        • Rob Bos@lemmy.caEnglish
          1·
          1 day ago

          The concentration isn’t as important as the difficulty to remove it. It’s still a hard problem, but rock weathering is one way to accomplish it, but it would need a lot of exposed rock surface.

          • fckreddit@lemmy.mlEnglish
            1·
            13 hours ago

            Not just a lot of exposed rock surface. But also, there are energy costs for pumping water to the exposed surface. Factoring in the efficiency of the carbon removal from the water, I find it hard to believe it is a good solution.

            Wouldn’t it be better if we focus on better sources of energy? I am no expert, but I know about it more than a common man due to my academic background in civil engineering.