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submitted 2 months ago by blibla@slrpnk.net to c/memes@slrpnk.net
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[-] Voyajer@lemmy.world 8 points 2 months ago

I'd be interested in home scale hydrogen electrolysis with excess solar energy even if only to sidestep the "use it or lose it" reality of off-grid solar.

[-] Noodle07@lemmy.world 13 points 2 months ago

Rather than just filling up batteries?

[-] stabby_cicada@slrpnk.net 12 points 2 months ago

Thing about batteries is.

From an environmental standpoint, both mining the raw materials and producing the batteries uses a lot of energy and produces a lot of pollution.

Morally, many raw materials for batteries come from desperately poor conflict zones, so you have megacorps staffing mines with slavery and child labor, paying local warlords/dictators for permission to operate, having those warlords/dictators kill protesters and union organizers, etc.

If we can get a hydrogen economy working, and the equipment and technology don't need conflict minerals or polluting heavy industry to manufacture, it would be a boon for the world both practically and morally.

But that's a big if.

[-] frezik@midwest.social 2 points 2 months ago

Hydrogen fuel cells need rare earth metals, too. Sodium and iron air batteries, in contrast, don't need a whole lot. For that matter, lithium batteries are opening up more abundant sources. People misunderstood what "reserves" means for minerals.

[-] MrMakabar@slrpnk.net 5 points 2 months ago

Hydrogen can be stored in underground caverns and that can be relatively easily scaled to TWh. Electrolysis and fuel cell can get you 70% or so of your electricity back. So it is less efficient then batteries. However there might be a place for hydrogen as seasonal storage. Also the storage makes sense as quite a few processes use hydrogen anyway.

So there is a use case, but right now we mostly should just add renewables and batteries. We are nowhere close to a solar/wind grid, which does actually need seasonal storage. Also grid size helps a lot and there are options such as burning waste.

[-] frezik@midwest.social 1 points 2 months ago

Electrolysis of the most expensive process (PEM) is around 80% efficient by itself. The more common methods are 70%. Anything that uses it after that only drops it further. Fuel cells max out at 60%, which means that electrolysis to electrical output efficiently is about 50% altogether in the very best case.

Some of the better internal combustion engines are reaching about the same.

[-] Voyajer@lemmy.world 3 points 2 months ago

After my batteries are charged. I have 40kW, but excess would probably go toward the diesel powered implements I have, that way they can run more efficiently and reduce emissions.

[-] snooggums@midwest.social 5 points 2 months ago
[-] Voyajer@lemmy.world 3 points 2 months ago
[-] SpaceNoodle@lemmy.world 1 points 2 months ago

M O R E B A T T E R I E S

[-] JustEnoughDucks@feddit.nl 2 points 2 months ago

There is a startup company I worked with called Solhyd that Is trying to do that.

The downside is they are trying to do per-panel electrical hydrolysis because it is flashy and sexy for investors when it makes compression a complete bitch and you need a ton of hydrogen tubing bringing the loose hydrogen everywhere to an expensive compressor instead of just bringing solar electricity to a safer location for the hydrolysis and compression to storage.

this post was submitted on 22 Aug 2024
271 points (94.4% liked)

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