Electrorefining Experiments to Recover Uranium with a Cadmium-Lithium Anode and Their Theoretical Evaluation
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概要
- 論文の詳細を見る
Molten salt electrorefining experiments were performed using a liquid metal anode made of cadmium-lithium alloy to recover uranium to a solid cathode from the spent molten salt. The concentration of U3+ in the molten salt effectively decreased from 1.38 wt% to less than 0.01 wt%. However, it was revealed that about 10 to 40% of uranium was not recovered by the solid cathode. This U deficit was thought to be caused by the U reduction around the Cd-Li anode. The following two mechanisms were proposed: 1) electrochemical deposition of uranium and 2) dissolution of the atomic lithium (Li0) into the LiCl-KCl eutectic salt and concomitant reduction of U3+ by the Li0. A computer code PALEO was developed to interpret these results more quantitatively. It was found that the PALEO code was able to simulate the evolution of U3+ concentration in the salt as well as the electrodes potential reasonably well and the mechanisms of 1) and 2) could explain the dependency of U deficit if the diffusion coefficient of Li0 in the salt is larger than that of Li+.
- 社団法人 日本原子力学会の論文
- 1999-03-25
著者
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Kobayashi T
Sumitomo Metal Technology Ltd
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Fujita R
Nuclear Engineering Laboratory Toshiba Corporation
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Kobayashi Tsuguyuki
Japan Atomic Energy Agency
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Kobayashi Tsuguyuki
Komae Laboratory Central Research Institute Of Electric Power Industry
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KOBAYASHI Tsuguyuki
Advanced Reactor Engineering Department, Toshiba Corporation
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FUJITA Reiko
Nuclear Engineering Laboratory, Toshiba Corporation
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NAKAMURA Hitoshi
Nuclear Engineering Laboratory, Toshiba Corporation
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KOYAMA Tadafumi
Komae Laboratory, Central Research Institute of Electric Power Industry
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IIZUKA Masatoshi
Komae Laboratory, Central Research Institute of Electric Power Industry
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Iizuka M
Japan Atomic Energy Res. Inst. Ibaraki
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Nakamura H
Nuclear Engineering Laboratory Toshiba Corporation
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Fujita Reiko
Nuclear Engineering Laboratory Toshiba Corp.
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Kobayashi Tsuguyuki
Advanced Nuclear System Research And Development Directorate Japan Atomic Energy Agency
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