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United States

An Incredibly Toxic Lake Will Become One of the US's First Lithium Mines (vice.com) 271

An anonymous reader quotes a report from Motherboard: One of the United States' first major forays into lithium mining seems like it's going to be in the Salton Sea -- one of the most polluted places in the country -- after General Motors struck a deal with a mining company called Controlled Thermal Resources. This is a big, and potentially very complicated, deal for anyone who cares about the planet. Many experts believe that in order to have any hope of staving off climate change, we have to electrify cars and essentially everything else as soon as possible (ideally, yesterday). Lithium-ion batteries are key to this process, and global demand is expected to increase between 5 and 18 times over the next several years. Put simply, we will need a lot of lithium, and the overwhelming majority of lithium in today's batteries comes from Australia, Chile, China, and Argentina. But the American southwest has huge stores of lithium as well.

General Motors is hoping that a CTR mine in the Salton Sea can supply "a significant portion" of the lithium needed for its electric cars. It's a step toward GM's first-in-the-nation commitment to phasing gasoline-powered cars out of its production line by 2035 -- CTR is slated to start delivering lithium to the company by 2024, at which point the company will be well-poised to achieve this goal.

This is, potentially, a very good thing. But it's also complicated: Mining, broadly speaking, is environmentally destructive. Lithium mining is usually -- but not always -- less destructive than, say, strip mining. And the Salton Sea, an accidental reservoir near California vacation mainstays like Joshua Tree and Palm Springs, is one of the most polluted places on the planet due to decades of agricultural runoff. Environmentalists there worry that if the lake continues to dry up, toxic dust on its floor could go airborne and pollute the air between Phoenix and Los Angeles. The lake is understood to hold one of the nation's largest lithium brine stores, capable of supplying up to 40 percent of global demand for the mineral, according to the California Energy Commission (CEC).
CTR claims its production process is self-contained and environmentally sound, as it plans to use renewable energy to extract the mineral.

"But to community members around the proposed mines, ramping up lithium extraction feels complicated," reports Motherboard. "Chemicals like arsenic, selenium, and pesticides are rampant in the lake's waters, and their particles have been released into the atmosphere as it dries, which is happening at an increasing rate as drought grips the west coast. [...] So, ramping up mining in one of the state's most polluted counties -- where 85 percent of residents are Hispanic or Latino and 22 percent live under the poverty line -- feels risky to environmental justice organizers like Miguel Hernandez, communications coordinator at Comite Civico del Valle. Hernandez hopes to see producers and local legislators make an effort to inform residents about the possible, yet-mostly-unknown health effects of lithium mining, which is water-intensive and produces a fair amount of mineral waste."
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An Incredibly Toxic Lake Will Become One of the US's First Lithium Mines

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  • It's a win-win-win (Score:5, Insightful)

    by SuperKendall ( 25149 ) on Monday July 12, 2021 @05:14PM (#61576485)

    Chemicals like arsenic, selenium, and pesticides are rampant in the lake's waters, and their particles have been released into the atmosphere as it dries, which is happening at an increasing rate as drought grips the west coast. [...] So, ramping up mining in one of the state's most polluted counties -- where 85 percent of residents are Hispanic or Latino and 22 percent live under the poverty line

    If you put in no mine the drying lake will release those chemicals anyway, uncontrolled

    If you put int the mine, those chemicals will be controlled by the mine owners who needs to work around them and maintain the general area of the mine.

    Furthermore, those people living under the poverty line will have a higher standard of living with the increase in jobs and just spending around the area from a mine going in.

    The third win? That's the lithium mined in a monitored area of the U.S., instead of some distant region in a third world country where NO-ONE is paying attention to pollution at all.

    The of course arguable the hidden forth win is the benefit offing able to produce even more batteries which will be desperately needed if we really want all cars and trucks and, well, everything to be electric...

    That doens't happen without a LOT more lithium.

  • Mine or Harvest? (Score:4, Interesting)

    by Thelasko ( 1196535 ) on Monday July 12, 2021 @05:15PM (#61576487) Journal
    The term "lithium brine", and the element's location on the periodic table makes me think the lithium is stored as a salt. The process for extracting it might be as simple as letting the sun evaporate pools of the water, and then sweeping up the salt. The same technology has been used to harvest table salt [npr.org] for centuries.
    • Re:Mine or Harvest? (Score:5, Informative)

      by Ostracus ( 1354233 ) on Monday July 12, 2021 @05:27PM (#61576525) Journal

      The Salton Sea is already home to a complex of 10 geothermal power stations, which pump steam from underground into generators and create a saline brine byproduct that is rich in lithium and send it back into the earth. CTR’s proposal would instead send that brine into open pits, where it would evaporate, eliminating water and leaving minerals for processing behind.

      • Re:Mine or Harvest? (Score:5, Informative)

        by mikeebbbd ( 3690969 ) on Tuesday July 13, 2021 @12:27AM (#61577255)

        Ka Ching. We have a winner. Yes, that is how CTR [cthermal.com] plans to extract the lithium from brine brought up from deep underground, in a geothermal area. It will initially be used to provide heat to generate electricity. Then, the brine is either returned to underground, or evaporated and the salts collected. It's already being done at some of the other power plants, and there's a very large such operation at Cerro Prieto in the Mexican portion of the Imperial Valley. Lithium isn't the only thing extracted. The story (or at least the interpretation of it) pointing at use of the Salton Sea is a red herring; the lake isn't the source of the lithium, geothermal wells are. Evaporation ponds in a very hot, dry environment are a use of solar energy. Conveniently, there are also a rail line and an interstate highway not far away for shipping the product out (if you can convince Union Pacific to actually serve the rail traffic; mostly, they want to just carry containers through between the LA area ports and Texas). But yes, there are issues including potentially toxic dust blowing around. Something will have to be done to deal with that. But it would be dust from the evaporation ponds, not Salton Sea. The Sea is a different issue.

        For those saying "we'd rather have a lake," yes, Lake Cahuilla was a thing. It periodically formed when the Colorado River diverted into the Valley rather than flowing out to the Gulf of California/Sea of Cortez. The river's delta is in fact why there's a dry valley - it's really part of the Gulf of California, cut off from the ocean by the Colorado River delta. The prime geothermal areas are near incipient spreading ridges beneath the valley floor, which are also the sources for small volcanoes. As for the lake, there's some thought that when the lake was there, the water lubricated the San Andreas Fault allowing it to move more; since it's been dry, the fault's been stuck. Of course, since nearly all the water in the Colorado River has been diverted for other things, there isn't enough left to form another lake now; that'll have to wait until the climate cools and gets wetter, and humans learn to live without their dams, again. Last time the lake was full-ish was in the 1500-1600 era. https://en.wikipedia.org/wiki/... [wikipedia.org]

    • Even if we presume that concept is how it would be done, the issue is that the area is very windy and drying it up would release all of the other shit that's in the water and the damp soil that will hurt a lot of people. Also, the Salton Sea is an important waypoint for migratory birds, so it drying up really isn't the ideal solution.
      • Are you sure the birds can use the water at all? No fish live in those waters. You can't drink it.

        • Re: (Score:2, Interesting)

          They do use the shrinking waters, and it's a huge problem. As the Salton Sea shrinks, the birds gather in tighter groups, which lets pathogens spread more easily. Huge die-offs of thousands of birds are not uncommon. Those not taken by disease are poisoned by the waters and often die later, spreading the chemicals into other parts of the ecosystem.

      • by flink ( 18449 )

        Also, the Salton Sea is an important waypoint for migratory birds, so it drying up really isn't the ideal solution.

        Sea is a misnomer. It’s an artificial lake that was created accidentally as the result of a fuck up during an irrigation project. It’s only been around for about 100 years and will be gone relatively soon regardless. Whatever species of birds use it are used to it not being there as the basin it lies in has been alternately flooded and desiccated many times over the millennia due

        • Is it feasible to build a pipeline from the Gulf of California to keep it permanently as a lake?

          e.g. there's Salada lake on the Mexican side of the border.

          • Yes, pipelines and canals/aqueducts have been proposed. It only takes money and will.
          • Most people think of lakes as freshwater. If you pumped salt water into it, it would just be a weird inland bay, and probably stay more saline than the ocean due to evaporation losses and the continued addition of salt water.

            I think for this to "work" with ocean water would require cutting the salinity of the input water by at least 50%, and that's ridiculously intensive to do.

        • by DarkOx ( 621550 )

          You act as if there have not been any other environmental changes, that may or may not have reduced accessible surface water affecting the birds.

          You can't look at something like this in isolation. This is exactly why all these environmental projects are often failures. We are not really good at engineering the planet. You in the 1930s a lot of those damns themselves were talked about in terms of conservation projects. Never mind the migratory fish..

    • The same technology has been used to harvest table salt for centuries.

      That's fine, as long as they don't get confused regarding which is the table salt and which is the lithium salt...

    • The term "lithium brine", and the element's location on the periodic table makes me think the lithium is stored as a salt.

      Yep. One of the common sources of lithium is evaporite deposits.

  • by SvnLyrBrto ( 62138 ) on Monday July 12, 2021 @05:19PM (#61576505)

    The Salton Sea is basically an open cesspool already; and it's been even more ugly and foul-smelling every time I have had the misfortune to be in the area. It's hard to imagine any kind of pollution that would make the place worse. If we have to have any kind of horrible polluting industry, it's one of the best candidates.

  • by backslashdot ( 95548 ) on Monday July 12, 2021 @05:34PM (#61576551)

    They claim it can provide 40% of the world's lithium .. is that 40% of the current lithium usage? Or, is it the predicted future usage when most cars are battery powered. Currently, less than 1% of cars are electric. Therefore, it would have to supply 100 times whatever the current lithium usage is.

    • Re:40% ? (Score:5, Interesting)

      by Martin Blank ( 154261 ) on Monday July 12, 2021 @06:45PM (#61576727) Homepage Journal

      Current lithium usage isn't much, with only about 82,000 metric tons produced worldwide in 2020. Compare that to gold (3200 metric tons), silver (25,000 metric tons), and iron ore (56 million tons in the US alone). The US has at least three or four promising locations, plus the known deposits in South America and Australia. Lithium production shouldn't be much of a problem even ramping up by a factor of 100, which may not be necessary as lithium battery recycling becomes a bigger market.

      • Re: (Score:3, Informative)

        We have a basically endless supply of lithium in seawater:

        https://www.sciencemag.org/new... [sciencemag.org].

        The problem is that right now it's basically cheaper to mine it from dirty mines. At some point the demand will be high enough that other ways of extracting it will be commercially viable.

        • Re:40% ? (Score:4, Interesting)

          by MacMann ( 7518492 ) on Monday July 12, 2021 @09:36PM (#61576981)

          Synthesizing carbon neutral hydrocarbon fuels sounds like an easier way to get to "zero carbon" transportation. Especially for aircraft. Not even the latest lithium batteries in an electric airplane will carry dozens of people over an ocean. Synthesized fuels will.

          It doesn't matter if the energy in in a synthetic fuel or in batteries, there needs to be a "zero carbon" energy source. The difference with a synthesized hydrocarbon fuel versus electric trucks and planes is that we have the technology today for practical hydrocarbon burning trucks and planes, and to produce the "zero carbon" fuel.

          The cost will be an issue, and that will take development. Still an easier problem than trying to fit batteries in things.

          • A somewhat fair point, but firstly, the AC comment above yours (was it you?) was claiming synthesized fuels are needed because we would run out of Lithium --- that is patently false. Second. synthesizing fuel would have to be done on a constant basis (you have to grab the carbon from the air by splitting the CO2 and then making a hydrocarbon from it (either via an industrial process or using algae/plants.) That means you would use a lot of energy. Charging a lithium battery would require less energy becaus

            • A somewhat fair point, but firstly, the AC comment above yours (was it you?)

              No, that wasn't me. The time stamp suggests we were both writing at the same time.

              was claiming synthesized fuels are needed because we would run out of Lithium --- that is patently false.

              I agree that we will not run out of lithium, but we could run out of inexpensive lithium. Other battery chemistries are possible, ones not using lithium, but they are not likely to have the same kind of energy density and that will affect costs, range, mass, volume, and so on.

              Second. synthesizing fuel would have to be done on a constant basis (you have to grab the carbon from the air by splitting the CO2 and then making a hydrocarbon from it (either via an industrial process or using algae/plants.) That means you would use a lot of energy. Charging a lithium battery would require less energy because you use the energy to charge the battery and don't need the intermediate step of splitting carbon dioxide.

              It uses a lot of energy but part of that energy can be heat that would otherwise be wasted in making electricity. There are very efficient processes t

              • by DarkOx ( 621550 )

                You have to be careful with biomass though.

                If I cut down a tree and burn it (biomass fuel) a lot of carbon goes into the air at once. I can plant a new tree and claim that as it grows it will pull an equal amount of carbon back out the air. Its true but it might take 30 years to do it.

                A lot of the biomass companies doing things like wood pellets are running around cutting forests today, replanting and saying they are 'carbon neutral'. This is true over a big enough time scale but in the meantime its produci

          • It doesn't matter if the energy in in a synthetic fuel or in batteries, there needs to be a "zero carbon" energy source.

            What you are ignoring is efficiency, or to put it another way: how much green energy must be generated in order to power those vehicles however many miles they do.

            Synthetic fuels are much less efficient, thus requiring much more green energy than batteries.

            • What you are ignoring is efficiency, or to put it another way: how much green energy must be generated in order to power those vehicles however many miles they do.

              Synthetic fuels are much less efficient, thus requiring much more green energy than batteries.

              With airplanes we can have net carbon transportation now using synthesized fuels or never by using batteries.

              There will be many factors into the end costs of the electricity for charging a BEV versus synthesized fuels for an ICEV. If sourcing the materials for batteries are becoming a problem now with so few BEVs on the market then my guess is that the ICEV has a lot of life in it yet.

              One way to maximize convenience and range without losing the convenience and cost savings of a BEV for the daily commute is

  • by eric777 ( 613330 ) on Monday July 12, 2021 @05:44PM (#61576575) Homepage
    "You simply require every user to place his intake immediately downstream from his discharge of effluent into the stream. In self-protection the user cleans up his discharge. It's self-enforcing." -- Robert A. Heinlein https://archive.org/details/ex... [archive.org]
  • Compared to lithium, sodium would have the advantage (I think) of being readily available (we have oceans full of it). The sodium ion technology for batteries lags that of lithium ion batteries, but maybe that could be made up by more research. There's a wikipedia article about sodium ion batteries; the bottom line: "Compared to lithium-ion batteries, current sodium-ion batteries have somewhat higher cost, slightly lower energy density, better safety characteristics, and similar power delivery characteris

    • Re:Sodium? (Score:5, Informative)

      by Cyberax ( 705495 ) on Monday July 12, 2021 @08:12PM (#61576865)

      The sodium ion technology for batteries lags that of lithium ion batteries

      The main problem with sodium-ion is that in metal-ion battery the charge and discharge happen when metal ions intercalate in electrodes. They don't change their oxidation state, but just migrate from one electrode to another. Unfortunately, sodium ions are too large for that, so the efficiency of known materials is too low.

      It also amplifies all other issues like electrode swelling and cracking. The same ones that affect even li-ion.

  • "toxic dust on its floor could go airborne and pollute the air between Phoenix and Los Angeles"
    Yeah, um, clearly the anonymous reader has never been there. It's been polluted for decades.

  • "Many experts believe that in order to have any hope of staving off climate change, we have to electrify cars"

    No. Let's get this into perspective (all figures from epa.gov)

    The entire transportation sector only accounts for about 27% of the total man-made greenhouse gas (MMGG) emissions.
    Of that 27%, Road transport accounts for 72%, The rest is aviation and marine.
    That means only about 19% of all MMGG is road vehicles.
    Around 23% of that 19% is from heavy duty vehicles (so 18 wheelers etc are responsible for 4

  • Not that big a deal for a company the size of General Motors that produces millions of vehicles
    Not that big a seamore pond not even a lake
    Not that big a win to match GM millions of vehicles produced
    Not that big lithium deposit - 10 years tops then sand and more sand
    Salton Sea’s biggest claim is “stench”
    GM’s biggest claim will be its aftermath after a 10 yr. operation is abandoned
    It will go down in History as the corporation that ate a Sea and threw up after
    What a f#$&ing mess dea

  • That should be part of remediation in the first place and it's not as if doing "strip mining in reverse" is an exotic solution.

  • I'd like the idea better if GM wasn't involved. Between the Streetcars [wikipedia.org], their fight against unleaded gasoline, and crushing the EV-1 [wikipedia.org] I don't trust them not to intentionally muck this up if it will make them a dollar.

  • by tiqui ( 1024021 ) on Monday July 12, 2021 @11:10PM (#61577123)

    Most people are unaware that the Salton Sea is not a naturally-occurring body of water - it's basically the result of an industrial-sized human screw-up. [wikipedia.org]

    There are NO native wildlife species there to be endangered by any lithium-related activities (anything in the water was artificially added by people in the many years after the faux-sea was mistakenly created). No bird species should legitimately be dependent upon the sea, since it was not there before people accidentally created it.

    If environmentalists won't let us do anything to the Salton Sea, then there's no place on Earth they will tolerate new, not-perfectly-clean, industrial activity... well other than China where, apparently, all bets are off.

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