It’s not particularly long but it’s very much in Superfund abandonment territory when you look at the economics of that “recycling” of low grade radioactive waste. I mean look at how much higher the cost per target is in this presentation alone for internal confinement is based on their kilowatt hours with recycling included. And that’s not including the reprocessing and production costs of targets or the fact that rapid target replacement will just frankly break as high energy neutrons and ablation screw up internals.
Recycling is definitely an important aspect of developing the technology to a maturity where it forms part of a power grid. But it’s not beyond the wit of man. If we can crack Q>5 for nuclear fusion, surely we can crack economically viable recycling for LLW. I don’t think it’s worth abandoning research on fusion over this issue.
I don’t think it’s worth abandoning fusion research. I just think we’re much farther than popsci ever portrays and I have serious problems with the no waste framing.
It’s not particularly long but it’s very much in Superfund abandonment territory when you look at the economics of that “recycling” of low grade radioactive waste. I mean look at how much higher the cost per target is in this presentation alone for internal confinement is based on their kilowatt hours with recycling included. And that’s not including the reprocessing and production costs of targets or the fact that rapid target replacement will just frankly break as high energy neutrons and ablation screw up internals.
Recycling is definitely an important aspect of developing the technology to a maturity where it forms part of a power grid. But it’s not beyond the wit of man. If we can crack Q>5 for nuclear fusion, surely we can crack economically viable recycling for LLW. I don’t think it’s worth abandoning research on fusion over this issue.
I don’t think it’s worth abandoning fusion research. I just think we’re much farther than popsci ever portrays and I have serious problems with the no waste framing.