To be fair, the progression estimate loading bar for fusion was stuck at “estimate… 30 years” for fucking ages.
And now there are actual reactors. Experimental, but still.
“With the completion of the conceptual design phase, the project will now shift to engineering design, accelerated engineering R&D, and will proceed with site selection, site preparation, regulatory approvals, and the procurement of long-lead items, with the aim of construction after 2028,” it said.
I wrote a school report about iter back in middle school or high school when it was still in the design process and still occasionally check their job listings because I would love to work there and on fusion but we still don’t know if it will ever work like we hit the scientific breakeven with inertial confinement but the scaling on that is terrible and I don’t believe we hit even the scientific breakeven with magnetic confinement
Then we still need to harness the energy from that turn it into work, turn that into electricity and distribute it with enough excess to pay for the whole system which is still a lot of hurdles we need to climb
Most importantly, the projections of fusion being 30 years away depended on assumptions about funding, when political considerations made it so that we basically never came anywhere close to those assumptions:
Fusion was never vaporware. We had developed working weapons relying on nuclear fusion in the 1950’s. Obviously using a full blown fission reaction to “ignite” the fusion reaction was never going to be practical, but the core physical principles were always known, with the need for the engineering and materials science to catch up with alternative methods of igniting and harvesting the energy from those fusion reactions.
But we never really devoted the resources to figuring it out. Only more recently has there been significant renewed interest in funding the research to make it possible, and as you note, many different projects are hitting different milestones on the frontier of that research.
To be fair, the progression estimate loading bar for fusion was stuck at “estimate… 30 years” for fucking ages.
And now there are actual reactors. Experimental, but still.
https://world-nuclear-news.org/articles/conceptual-design-completed-for-japans-fast-fusion-demo-project
I wrote a school report about iter back in middle school or high school when it was still in the design process and still occasionally check their job listings because I would love to work there and on fusion but we still don’t know if it will ever work like we hit the scientific breakeven with inertial confinement but the scaling on that is terrible and I don’t believe we hit even the scientific breakeven with magnetic confinement
Then we still need to harness the energy from that turn it into work, turn that into electricity and distribute it with enough excess to pay for the whole system which is still a lot of hurdles we need to climb
Most importantly, the projections of fusion being 30 years away depended on assumptions about funding, when political considerations made it so that we basically never came anywhere close to those assumptions:
https://commons.wikimedia.org/wiki/File:U.S._historical_fusion_budget_vs._1976_ERDA_plan.png
Fusion was never vaporware. We had developed working weapons relying on nuclear fusion in the 1950’s. Obviously using a full blown fission reaction to “ignite” the fusion reaction was never going to be practical, but the core physical principles were always known, with the need for the engineering and materials science to catch up with alternative methods of igniting and harvesting the energy from those fusion reactions.
But we never really devoted the resources to figuring it out. Only more recently has there been significant renewed interest in funding the research to make it possible, and as you note, many different projects are hitting different milestones on the frontier of that research.