Applying enrichment capacities for multiple recycling of LWR uranium

The use of fissionable materials accumulated during the open fuel cycle faces both challenges and opportunities for modern nuclear power engineering. A growing disproportion between the production and consumption of natural uranium draws attention to the problem of used nuclear fuel. The paper exami...

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Published in:Journal of physics. Conference series 2018-09, Vol.1099 (1), p.12001
Main Authors: Smirnov, A Yu, Sulaberidze, G A, Gusev, V E, Andrianova, E A, Blandinski, V Yu, Grol, A V, Dudnikov, A A, Nevinitsa, V A, Fomichenko, P A
Format: Article
Language:English
Subjects:
Enriched fuel reactors
Feasibility studies
Fissionable materials
Light water reactors
Materials handling
Nuclear engineering
Nuclear fuels
Nuclear reactors
Power consumption
Recycling
Spent nuclear fuels
Uranium
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container_issue 1
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container_title Journal of physics. Conference series
container_volume 1099
creator Smirnov, A Yu
Sulaberidze, G A
Gusev, V E
Andrianova, E A
Blandinski, V Yu
Grol, A V
Dudnikov, A A
Nevinitsa, V A
Fomichenko, P A
description The use of fissionable materials accumulated during the open fuel cycle faces both challenges and opportunities for modern nuclear power engineering. A growing disproportion between the production and consumption of natural uranium draws attention to the problem of used nuclear fuel. The paper examines the current situation in the field of reuse (single or multiple) of reprocessed uranium (recovered from spent nuclear fuel), which is used for the production of low-enriched fuel (LEU) to fuel the fleet of light water reactors (LWR). The world experience in handling this material has been analysed. This study also gives an overview of the currently proposed methods for enriching the 235U content in reprocessed uranium to the required level by means of gas centrifugation process, while simultaneously meeting the limitations on the presence of 232,234,236U in commercial LEU. Savings of natural uranium was estimated for repeated recycling of VVER spent fuel. It was supposed that re-enrichment of reprocessed fuel would be done by arranging the most promising for such purposes cascade schemes. The obtained results can be used as a basis for further scientific, technical, and feasibility studies on the large-scale utilization of reusable materials in the different fuel cycles of LWR.
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subjects Enriched fuel reactors
Feasibility studies
Fissionable materials
Light water reactors
Materials handling
Nuclear engineering
Nuclear fuels
Nuclear reactors
Power consumption
Recycling
Spent nuclear fuels
Uranium
title Applying enrichment capacities for multiple recycling of LWR uranium
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