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Annual Report

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The first step in any transmutation strategy is the separation of radionuclides in used nuclear fuel. The current separation strategy supporting the Advanced Fuel Cycle Initiative (AFCI) program is based on the use of a solvent extraction separation process to separate the actinides, fission products, and uranium from used commercial nuclear fuel, and on the use of pyrochemical separation technologies to process used transmuter fuels. To separate the fission products and transuranic elements from the uranium in used fuel, the national program is developing a new solvent extraction process, the Uranium Extraction Plus, or UREX+, process, based on the traditional solvent extraction reprocessing technologies.

As the volume of waste requiring treatment increases, a higher probability exists that fissionable isotopes of plutonium, neptunium, and curium can accumulate and form a critical mass. Criticality concerns warrant an assessment of the effective neutron multiplication factor, or keff, to prevent a possible sustained fission reaction. Maintaining keffbelow a safe level (<0.95) prevents criticality events. Candidate storage containers also require analysis to assess the need for radiation shielding. Since minor actinides generate significant amounts of heat through radioactive decay, proposed containment measures must be designed to avoid excessive temperatures. Radioactive decay also generates heat that can lead to melting of the fuel during storage and handling.


Actinide elements; Criticality (Nuclear engineering); Neutrons — Multiplicity; Radioactive waste canisters; Reactor fuel reprocessing; Separation (Technology); Shielding (Radiation); Spent reactor fuels; Transmutation (Chemistry); Transuranium elements; Uranium Recovery by Extraction (UREX)

Controlled Subject

Criticality (Nuclear engineering); Separation (Technology); Transmutation (Chemistry)


Chemistry | Nuclear | Nuclear Engineering | Oil, Gas, and Energy

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138 KB




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