“A dream. It’s perfect”: Helium discovery in northern Minnesota may be biggest ever in North America::For a century, the U.S. Government-owned the largest helium reserve in the country, but the biggest exporters now are in Russia, Qatar and Tanzania. With this new discovery, Minnesota could be joining that list.

  • givesomefucks@lemmy.world
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    10 months ago

    This is like saying gold nuggets are worthless because people want refined products made of gold…

    It’s fucking helium bro, it’s easy to separate it from anything else. Because it’s the lightest noble gas…

    Fill a balloon with 10% helium and 90% atmosphere, and the top 10% of the balloon is pure helium.

    That’s how easy it is to sepeeate it.

    • conciselyverbose@sh.itjust.works
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      10 months ago

      It’s a gas. It’s effectively defined by the fact that the individual particles have too much energy to settle like that.

      Separating a lot of liquids has similar issues though.

        • conciselyverbose@sh.itjust.works
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          10 months ago

          Noble gas means it doesn’t chemically react.

          It doesn’t mean you can easily separate it from a bunch of other gases in the same space.

          • givesomefucks@lemmy.world
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            10 months ago

            It doesn’t mean you can easily separate it from a bunch of other gases in the same space

            When it’s the lightest noble gas it does…

            When literally the only lighter gas is hydrogen, which combines easily with oxygen to produce a liquid, it becomes pretty fucking easy.

            Seriously, you couldn’t ask for an easier gas to separate.

            • conciselyverbose@sh.itjust.works
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              10 months ago

              You understand how much these companies could make if they were capable of purifying the helium further to sell to all the places that desperately need pure helium?

              They have loads of resources and haven’t figured it out, because it’s nowhere near as easy as you’re pretending. You don’t know what you’re talking about.

              • skillissuer@discuss.tchncs.de
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                10 months ago

                technology is there, the issue is to run it cheaply, reliably and on scale. this is the actual problem

                edit: i mean it’s a problem that responds well to throwing money at it. if there was extra need for helium that would be met by diverting balloon gas, then it would work at some price, but we’re nowhere close to it

                • givesomefucks@lemmy.world
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                  10 months ago

                  Exactly…

                  People out here just telling everyone they don’t know what “profit margin” means.

      • givesomefucks@lemmy.world
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        10 months ago

        Well, when someone is having difficulty understanding something, people tend to dumb it down, hopefully to the point the other person finally understands.

        Unfortunately sometimes that’s not possible, in the worse cases the idiot starts acting like you’re not specific enough and that’s the problem.

        That’s like the universal sign it’s a waste of time.

    • skillissuer@discuss.tchncs.de
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      10 months ago

      it’s much more complicated than that, and the most useful property of helium is its low boiling point. it goes like this:

      first, you start with natural gas that has some nitrogen, some water, some helium, some carbon dioxide, heavier hydrocarbons, thiols, dust, and such. mechanical filtering gets rid of dust and mist, water, carbon dioxide and thiols are removed chemically, heavier hydrocarbons are removed on active carbon. now we have mix of methane, ethane, hydrogen, helium, nitrogen, traces of carbon monoxide, dioxide and water. this all is cooled down, first just to freeze out these trace amounts of water and carbon dioxide, then to liquefy what is left.

      next this liquid mixture is put through massive distillation tower, allowing for separation of mainly nitrogen and methane. this nitrogen and methane are end products, some are sold as liquids but most are regasified in order to cool down incoming gas and save some energy. another product is helium concentrate, at this point it can be 50% to 80% with rest being nitrogen but this depends on exact facility.

      then, some extra air is added to helium concentrate, it’s heated up and passed over catalyst bed. this is done in order to burn out hydrogen and any hydrocarbons, because separating oxygen from helium is much easier than separating hydrogen from helium. products of this burn are water and carbon dioxide that can be separated chemically. then again it’s all cooled down, nitrogen and oxygen are liquefied, then it’s all cooled down further and from some 30K on it’s just helium being circulated as gas because you can’t liquefy it like any other gases, it needs a special process. on every pass, with extensive recycling of heat some part of it is liquified and this is the final output, 5N liquid helium.

      at least that’s how it works in a facility built in 70s in then eastern block. now it supplies half of europe and a research facility situated nearby. i suspect it was built with at least some military applications in mind during this time, namely helium is used for pressurizing hydrogen tanks of rockets, but also soviets toyed with an idea of using gas lasers militarily. this requires a supply of helium, and a supply of neon is also a nice thing to have in this situation. neon was produced in Azovstal cryogenic oxygen factory serving nearby steelworks, as it can be separated from air. it ended up providing virtually all neon for semiconductor manufacturing in the world, but from what i understand there are alternative suppliers by now

      • givesomefucks@lemmy.world
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        10 months ago

        it’s much more complicated than that

        But compared to extracting other gases (which virtually all of them aren’t finite) it is that easy

        • skillissuer@discuss.tchncs.de
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          10 months ago

          it’s pretty fucking hard. only six countries in the world produce helium, and you get engineering challenges that don’t exist anywhere else. for example you can’t use any grease on helium turbine bearings in the lower temperature stages because all of them freeze, so the solution is to use gas lubricated bearings. this is some serious precision engineering that has to work in extreme conditions

          it’s also hard because the simpler way of liquefying gases, like the one used for nitrogen that uses no moving parts in the coldest part, fails for helium, this makes liquefying helium harder than any other gas. it’s also hard because of limited availability. it’s hard because of massive capital costs and lots of custom machinery. it’s hard because of scale required. about any other compound can be manufactured without at least some of these problems