Nuclear power reconsidered/Bibliography: Difference between revisions

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== Waste Management ==
== Waste Management ==
== Weapon Proliferation ==
== Weapon Proliferation ==
*Kryuchkov et.al. (2011) 'Isotopic Uranium and Plutonium Denaturing as an Effective Method for Nuclear Fuel Proliferation Protection in Open and Closed Fuel Cycles' https://www.doi.org/10.5772/17822 How nuclear fuel can be made useless for bombs by denaturing (diluting fissile isotopes with non-fissile, e.g. diluting U-233 with U-232) and by adding a radiation barrier (isotopes that will make stolen fuel easy to detect, hard to handle, and make a bomb fizzle, not detonate).
*Kryuchkov et.al. (2011) 'Isotopic Uranium and Plutonium Denaturing as an Effective Method for Nuclear Fuel Proliferation Protection in Open and Closed Fuel Cycles' https://www.doi.org/10.5772/17822 How nuclear fuel can be made useless for bombs by denaturing (diluting fissile isotopes with hard-to-separate non-fissile, e.g. diluting U-235 with U-238) and by adding a radiation barrier (isotopes that will make stolen fuel easy to detect, hard to handle, and make a bomb fizzle, not detonate).


== Cost ==
== Cost ==

Revision as of 00:54, 31 December 2021

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A list of key readings about Nuclear power reconsidered.
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General References

Videos

Safety

Waste Management

Weapon Proliferation

  • Kryuchkov et.al. (2011) 'Isotopic Uranium and Plutonium Denaturing as an Effective Method for Nuclear Fuel Proliferation Protection in Open and Closed Fuel Cycles' https://www.doi.org/10.5772/17822 How nuclear fuel can be made useless for bombs by denaturing (diluting fissile isotopes with hard-to-separate non-fissile, e.g. diluting U-235 with U-238) and by adding a radiation barrier (isotopes that will make stolen fuel easy to detect, hard to handle, and make a bomb fizzle, not detonate).

Cost

Reactor Designs

Notes and References