“Spanish consultancy AleaSoft Energy Forecasting recorded negative hourly electricity prices for all but one European energy market it analyzed during the first week of April, including in the Spanish and Portuguese markets for the first time. It also registered an all-time production record for photovoltaic energy in Portugal and the second highest value ever recorded in Italy”

              • bitfucker@programming.dev
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                8 months ago

                The article you mentioned specifically mentions inland evaporative pool to turn those brine for road salts or other uses. But the problem is just that no one is doing it.

                • callcc@lemmy.world
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                  8 months ago

                  Probably because it’s expensive and needs a lot of land. My point is still valid. The brine is a problem. Just like trash being a problem if not recycled properly (because it’s more effort than just dumping or burning it).

                  That being said, I love the idea of having quasi infinite sweet water supplies but unfortunately it’s not that simple.

      • taladar@sh.itjust.works
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        8 months ago

        Collecting water from the air is not really viable in the parts of the world where lack of water is an issue since humidity is not very high there. You would need to filter huge amounts of air even just to theoretically get enough water, never mind practical concerns like efficiencies of less than 100%.

          • taladar@sh.itjust.works
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            8 months ago

            The point is that even with 100% efficiency (as in extracting 100% of the water the air holds) you couldn’t get enough water out of the air because the dry air simply doesn’t hold that much water.

            At, say 20°C, 100% humid air only holds about 17l of water per m³ or in other words, if you are in a dry climate where the air has maybe 30% relative humidity even a device extracting 100% of the humidity from the air would yield only maybe 5l per m³ of air it processes. You would literally need to pull in 200 m³ of fresh air (as in air that has not been through your device before) to get a single m³ of water and any practical device operating at less than 100% efficiency would yield lower results than that. Also, forgot using this at much colder temperatures than that since that drastically lowers the water carrying capacity of air.

            • alberttcone@sh.itjust.works
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              8 months ago

              That’s 17g or 17cc per cubic metre, not 17 litres!

              In dry countries the relative humidity can be low - sub 40% is common. That said, the absolute water carrying capacity increases rapidly with temperature, so at 40C, the saturation mass is more like 50g/m3 and at 40%RH it still carries more water than 100%RH air at 20C.

                • alberttcone@sh.itjust.works
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                  8 months ago

                  You are right that you need to dehumidify a large volume of air (like, more than 150 cubic metres) to get enough water for a person, in a rationing scenario. That isn’t necessarily a huge problem; fans can move large volumes of air quite efficiently and dehumidifiers work more efficiently at higher temperatures, but your main point that it isn’t scalable on a population level is definitely true - it’s something you can do for off grid or survival situations, but not easily for domestic water supply.

            • bitfucker@programming.dev
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              8 months ago

              I mean, kinda? What sort of heater are we talking about and how do we measure its efficiency? But, if the definition is just converting energy to heat, without specifying where the heat needs to be, then sure. Every heater has 100% efficiency. Otherwise, there will always be a loss at transport and others.

      • naeap@sopuli.xyz
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        8 months ago

        And as oil is cheap, we can use that to generate the needed energy!