Ya I’m not an engineer at all so I’m not sure how hard it is to store that much power but that always seemed like a good idea. Even for electric cars, if we designed a universal battery pack good for a few hundred kilometres that we could swap out at recharge stations I feel like that would be a smart way to do things. But again I have no idea if thats feasible or how it would be implemented.
Much harder than you’d think, though there are some interesting schemes (like huge tanks filled with molten stuff, superconducting rings, giant flywheels). And there’s always a loss with storage.
TBH having a diverse array of power sources (including a little storage) is much better.
Also, batteries in electric cars are unfortunately extremely expensive, and extremely heavy. They’re less efficient than you’d think. Standardization and swappability (and reusing idle batteries for the grid) is a great idea, but even just focusing on the technical aspects, challenging.
TBH the best solutions are boring and supply-side. Or regional.
Random examples: heat pumps instead of heaters! Insulation! Geothermal loops or spacer panels for big buildings! Lightweight cars! All would save a hilarious amount of energy, but are way too dull to trend, heh.
…And probably suppressed by industry interest groups. whistles
Ya I’m not an engineer at all so I’m not sure how hard it is to store that much power but that always seemed like a good idea. Even for electric cars, if we designed a universal battery pack good for a few hundred kilometres that we could swap out at recharge stations I feel like that would be a smart way to do things. But again I have no idea if thats feasible or how it would be implemented.
Much harder than you’d think, though there are some interesting schemes (like huge tanks filled with molten stuff, superconducting rings, giant flywheels). And there’s always a loss with storage.
TBH having a diverse array of power sources (including a little storage) is much better.
Also, batteries in electric cars are unfortunately extremely expensive, and extremely heavy. They’re less efficient than you’d think. Standardization and swappability (and reusing idle batteries for the grid) is a great idea, but even just focusing on the technical aspects, challenging.
interesting! ya this is a whole world I know very little about but it seems very relevant these days.
TBH the best solutions are boring and supply-side. Or regional.
Random examples: heat pumps instead of heaters! Insulation! Geothermal loops or spacer panels for big buildings! Lightweight cars! All would save a hilarious amount of energy, but are way too dull to trend, heh.
…And probably suppressed by industry interest groups. whistles