this post was submitted on 21 Jan 2024
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Asklemmy
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The kinds of battery used in cars and the kinds of batteries suitable for grid-scale operation only have a small overlap. They have entirely different needs. Car batteries make lots of trade-offs to very lightweight for example which is totally irrelevant in a stationary facility.
I think the only reason Li-ION batteries were even considered for grid-scale is that better suited battery technologies simply haven't been researched until very recently.
If our goal was energy storage for our grids, we would not be researching BEV battery tech.
Hard disagree.
This week, I'm designing a circuit which would traditionally use relays, but I'm considering IGBTs instead. IGBTs weren't designed for my industry, but they're so cheap (thanks to quadcopters) that I can just overspec them and get the job done despite the lack of optimization.
Grid scale energy storage was already being researched before the EV boom -- remember when people stopped talking about vanadium-flow? EV batteries undercut stationary-optimized batteries in $/kWh because EVs are lucrative enough to drive the research that much harder. Without the EV industry as the incubator for competing battery tech, stationary storage would still cost what it did in 2010.
Cool but that's beside the point. I don't care how lucrative a market is for some aristocrat arseholes. I want what's best for society as a whole, not the pockets of aforementioned aristocrat arseholes.
If we put all the money and effort that went into researching BEV batteries into researching and developing grid-scale batteries instead, I imagine there's a good chance we wouldn't need coal power plants anywhere on earth anymore.
I have absolutely no clue about your example but you can ask the same questions: If the R&D went into relay tech instead of IGBTs, wouldn't you think those would be even less expensive for your use-case?