Anodic Dissolution of UO_2 Pellet Containing Simulated Fission Products in Ammonium Carbonate Solution
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概要
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We have proposed a reprocessing process based on the dissolution of spent fuels in aqueous carbonate solution. In order to develop such a reprocessing process, anodic dissolution experiments were carried out by using a simulated spent fuel pellet in (NH4)2CO3 solution. The dissolution rate constant of the simulated fuel pellet at 323 K was estimated as 3.1×10−6 mol·cm−2·min−1, which is comparable to that in 5 mol·dm−3 HNO3 solution containing 0.01 mol·dm−3 HNO2 at 323 K. The dissolution rate and the current efficiency for the dissolution of simulated fuel pellet in (NH4)2CO3 solution were found to decrease with the elapse of time. Furthermore, in order to examine dissolution behavior, the surface conditions of the pellet before and after the dissolution experiments were analyzed with the scanning electron microscopy and the energy dispersive X-ray spectroscopy. It was found that neat UO2 matrix exists on the dissolved surface and a decrease in the dissolution rate and the current efficiency is caused by the increase in such surface area on the pellet.During the dissolution experiments, precipitates of the simulated fission products were observed on the pellet and in (NH4)2CO3 solution used as the electrolytic solution. Analyses of the electrolytic solution revealed that most of the simulated fission products, i.e. alkaline earth and rare earth elements, are precipitated in high ratios. From these results, it is expected that the anodic dissolution of spent fuels and the separation of fission products by precipitation can be performed simultaneously.
- 社団法人 日本原子力学会の論文
- 2006-03-25
著者
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KIKUCHI Toshiaki
Mitsubishi Materials Corporation
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Ikeda Yujiro
Japan Atomic Energy Research Institue
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Kikuchi Toshiaki
Energy Project And Technol. Center Mitsubishi Materials Corp.
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Harada M
Department Of Energy Conversion Engineering Kyushu University
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HARADA Masayuki
Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology
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NOGAMI Masanobu
Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology
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IKEDA Yasuhisa
Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology
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ASANUMA Noriko
Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology
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NOGAMI Masanobu
Institute of Research and Innovation
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SUZUKI Kazunori
Institute of Research and Innovation
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TOMIYASU Hiroshi
Shinshu University
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ASANUMA Noriko
Department of Energy Science and Engineering, Tokai University
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HATTA Masahisa
Ishikawajima-Harima Heavy Industries Co., Ltd.
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Asanuma Noriko
Department Of Energy Science And Engineering Tokai University
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Ikeda Y
Research Laboratory For Nuclear Reactors Tokyo Institute Of Technology
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Ikeda Yasuhisa
Research Laboratory For Nuclear Reactors Tokyo Institute Of Technology
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Kikuchi Toshiaki
Energy Project And Technology Center Mitsubishi Materials Corporation
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Ikeda Yasuhisa
Res. Lab. For Nuclear Reactors Tokyo Inst. Of Technol.
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Hatta Masahisa
Ishikawajima-harima Heavy Industries Co. Ltd.
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Tomiyasu H
Department Of Chemistry And Material Engineering Shinsyu University
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Tomiyasu Hiroshi
Research Laboratory For Nuclear Reactors Tokyo Institute Of Technology
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Nogami M
Research Laboratory For Nuclear Reactor Tokyo Institute Of Technology
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Harada Masayuki
Research Laboratory For Nuclear Reactors Tokyo Institute Of Technology
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Asanuma Noriko
Research Laboratory For Nuclear Reactors Tokyo Institute Of Technology
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Harada Masayuki
Research Laboratory For Nuclear Reactor Tokyo Institute Of Technology
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