threelonmusketeers@sh.itjust.works 2 months ago
One reason it’s so hard to make predictions about the fusion age is that we’re still not sure what the best fusion device will even look like. A tokamak, the doughnut-shaped machine Commonwealth is building? A giant laser, like Livermore Lab’s? Or one of the many other shapes and concepts that other start-ups are working on?
At this point, aren’t we pretty sure that laser confinement won’t easily scale to continuous operations? All the fusion startups I can think of are using some form of magnetic confinement.
RubberElectrons@lemmy.world 2 months ago
Mmm… I wouldn’t say that it’s difficult to scale. Getting fusion to happen is hard, but repeatedly is simply an engineering problem (still hard, but less so).
threelonmusketeers@sh.itjust.works 2 months ago
I just have a hard time imagining how one would convert a reactor like the NIF have (where tiny gold pellets of deuterium are loaded and blasted one at a time) into something which could power a city.
A tokamak like the JET or ITER (which can operate continuously) seems easier to adapt into a power plant.
RubberElectrons@lemmy.world 2 months ago
It’s being worked on. Repetitive shots aren’t as ideal or obvious as a quasi-stable reactor, but a pulsed system will still have its output effectively smoothed in process of heating a thermal jacket or liquid first wall.
Statistics, high speed computing which I’ve assisted with previously, and other techniques are likely to get the rep rate to at least 1hz with the occasional miss.
Certainly ironic that we’re making what feels like a nuclear combustion engine. Old tech, same as the new tech…