• @[email protected]
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    556 months ago

    My guess is that in a climate like Germany’s, solar isn’t consistent enough to provide the steady baseline power that coal plants can.

    One of the complexities of power infrastructure is that demand must be met instantaneously and exactly. Coal and solar typically occupy different roles in a grid’s power sources. Coal plants are slow to start, but very consistent, so they provide baseline power. Solar is virtually instantaneous, but inconsistent, so it’s better suited to handle the daily fluctuations.

    So, in a place like Germany, even in abundance, solar can’t realistically replace coal until we have a good way of storing power to act as a buffer. Of course, nuclear is a fantastic replacement for coal, but we all know how Germany’s politicians feel about it…

        • @[email protected]
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          26 months ago

          They were already past their expiry date. Germany would face the same shit France is facing with their old reactors.

      • @[email protected]
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        56 months ago

        You are correct that when you build one new plant every 25 years it takes a long time to spool the industry, the skills, the testing and the manufacturing capability up to build new nuclear.

        In countries that regularly build new nuclear it takes 5 years, comparable to any other power source. When France when through their mass-conversion to nuclear in the 70s (following the oil crisis), they put 2-3 new nuclear plants into operation every year.

        All new western nuclear is in “production hell”. We don’t build them often enough to retain the skill set or for industry to dare invest. So they become massive state-run enterprises.

        If we were serious on solving our climate crisis we would build nuclear power plans en masse.

    • @[email protected]
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      56 months ago

      Coulnd’t we use solar to pump water into reservoirs, and then let the water flow through hydroelectrical dams when we need the electricity?

      • @[email protected]
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        36 months ago

        [yes](> https://en.wikipedia.org/wiki/Pumped-storage_hydroelectricity)

        Taking into account conversion losses and evaporation losses from the exposed water surface, energy recovery of 70–80% or more can be achieved. This technique is currently the most cost-effective means of storing large amounts of electrical energy, but capital costs and the necessity of appropriate geography are critical decision factors in selecting pumped-storage plant sites.

            • @[email protected]
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              5 months ago

              We have a lot of dams, but I haven’t heard that we were pumping water into the reservoirs.

              We also don’t have, like, fields of solar panels, as far as I know. I think it’s too cloudy here. But we have wind turbines, especially in coastal areas.

    • @[email protected]
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      26 months ago

      I guess I meant not all of them and especially not at the same time but that wasn’t clear in my first post. I understand that a baseline is needed but if during daytime they’re generating excess constantly then shutting down a few wouldn’t hurt. Especially since Germany is one of the biggest offenders in the world when it comes to coal. Storage is definitely a concern but in case of surges there’s other power from neighboring countries that can help with the demand. Sodium ion batteries are looking like a good possibility.