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Electrochemical reduction behavior of vitrified nuclear waste simulant in molten CaCl₂
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- Katasho, Yumi
- Institute of Advanced Energy, Kyoto University・Global Zero Emission Research Center, National Institute of Advanced Industrial Science and Technology (AIST)
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- Yasuda, Kouji
- Agency for Health, Safety and Environment, Kyoto University・Department of Fundamental Energy Science, Graduate School of Energy Science, Kyoto University
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- Oishi, Tetsuo
- Global Zero Emission Research Center, National Institute of Advanced Industrial Science and Technology (AIST)
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- Nohira, Toshiyuki
- Institute of Advanced Energy, Kyoto University
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Description
The electrochemical reduction of vitrified nuclear waste simulant glass produced by melting oxides of 33 different elements, including Si and four types of long-lived fission product elements (Cs, Zr, Pd, and Se), was investigated in molten CaCl₂ at 1103 K. Before the experiment, potential−pO²⁻ diagrams were constructed from the thermodynamic data to predict the behaviors of the constituent elements during the electrochemical reduction. In the first experiment, small crucible electrodes containing approximately 100 mg of the simulant were electrolyzed at 0.6–1.1 V vs. Ca²⁺/Ca. X-ray diffraction analysis confirmed that SiO₂ was reduced to Si. In addition, the formation of XB₆ (X = Ca, Si, or rare earth elements (REEs)) was confirmed. In the second experiment, a large crucible electrode containing approximately 10 g of the simulant was galvanostatically reduced at −2 A for 5 h. The distribution ratios of the constituent elements to the solid product and to the molten salt were calculated from the result of composition analysis using inductively coupled plasma atomic emission spectrometry and mass spectrometry. In particular, four types of long-lived fission product elements (Cs, Zr, Pd, and Se) were investigated. Consequently, alkali and alkaline earth elements, including Cs, were dissolved into the molten salt. Si mostly remained in the solid product as elemental silicon. Most of the other elements, including Zr and Pd, were also found in the solid product. Se and Zn were indicated to partially evaporate depending on the duration of electrolysis.
Journal
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- Journal of Nuclear Materials
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Journal of Nuclear Materials 543 152578-, 2021-01
Elsevier BV
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Details 詳細情報について
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- CRID
- 1050286428479318144
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- NII Article ID
- 120006895426
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- ISSN
- 00223115
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- HANDLE
- 2433/255843
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- Text Lang
- en
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- Article Type
- journal article
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- Data Source
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- IRDB
- Crossref
- CiNii Articles
- OpenAIRE