Hah. Neeeerd. It's the gist, yes. My problem is that if the idea is to scale the process to something that's more than a 100ml jar on a bench, this experiment is almost a spherical cow in a vacuum. For starters, you have to take steps to keep it under 80C, so it'll either need to be current-limited (takes more time) or be actively cooled (takes more energy, likely skews carbon balance). As it is, they probably just put a moist paper towel on the vessel and call it a day. Your product and reagents are strongly alkaline, so not all materials will stand the reaction conditions for whatever amounts of time. Those aren't insurmountable problems, sure, but stack enough of them and this might not be as viable as it looks on paper. That said, if there's a will there's a way. I'd like it to be me making mountains out of anthills.
Yeah I dunno, man - electrolysis doesn't pump up the temp crazy amounts. My only exposure to it prior to that water welder was "we sticks our cathode and our anode in the waterz and we turns on ze battery" but you get out a little potash and that shit starts to churn like goddamn Alka Seltzer. You've got a pressure you need to maintain - that's easily automated. You've got a temperature you need to maintain - that's easily automated. You basically need a continuous column that allows you to filter out your sediment and otherwise you just have a continuously-fed electrochemical vat which, hey, hit it with solar or some shit. I guess that's my broader point - I'm a really shitty chemist but redneck chemical processes? I mean I've run aquariums since I was a kid and this looks like "aquarium tech" not cold fusion. Where are the big sticking points you saw? Because "keep it under 80c" to me just says "run it underground."