Hate to be the bearer of bad news, but this simply isn’t true with established nuclear technologies. Expanding our currently nuclear energy production requires us to fully tap all known and speculated Uranium sources, nets us only a 6% CO2 reduction, and we run out of Uranium by 2100. We might be able to use Thorium in fuel cycles to expand our net nuclear capacity, but that technology has to yet to be proven at scale. And all of this ignores the high startup cost, regulatory difficulties, disposal challenges and weapons proliferation risks that nuclear typically presents.
Hate to be the bearer of bad news, but this simply isn’t true with established nuclear technologies. Expanding our currently nuclear energy production requires us to fully tap all known and speculated Uranium sources, nets us only a 6% CO2 reduction, and we run out of Uranium by 2100. We might be able to use Thorium in fuel cycles to expand our net nuclear capacity, but that technology has to yet to be proven at scale. And all of this ignores the high startup cost, regulatory difficulties, disposal challenges and weapons proliferation risks that nuclear typically presents.