Minimization of Eutectic Salt Waste from Pyroprocessing by Oxidative Precipitation of Lanthanides
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概要
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A lab-scale lanthanide precipitation apparatus, which has a 4 kg/batch size, was installed and tested. By using this lab-scale apparatus, cooxidative precipitation experiments of lanthanides were carried out. As lanthanides, 8 rare-earth elements (Y, La, Ce, Pr, Nd, Sm, Eu, and Gd) were used. By a reaction with oxygen, La, Pr, Nd, Sm, Eu, and Gd were converted to their oxychloride form (REOCl) and Ce, Pr, and Y to their oxide form (REO2, RE2O3). Since these lanthanide oxides or oxychlorides are nearly insoluble to eutectic salt, they were all precipitated by a free settling at the bottom, where about 7 h of precipitation time was required. It was found that under the conditions of 750°C salt temperature, a 12 h sparging time, and 5 L/min oxygen sparging rate, all the used rare-earth elements showed over 99% oxidation efficiency. However, in the case of 800°C temperature, they show over 99% conversion efficiency only after 6 h.
- 社団法人 日本原子力学会の論文
- 2009-10-01
著者
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Cho Yong-jun
Advanced Fuel Cycle Development Korea Atomic Energy Research Institute
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Lee Han-soo
Korea Atomic Energy Res. Inst.
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CHO Yung-Zun
Advanced Fuel Cycle Development, Korea Atomic Energy Research Institute
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PARK Gil-Ho
Advanced Fuel Cycle Development, Korea Atomic Energy Research Institute
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YANG Hee-Chul
Advanced Fuel Cycle Development, Korea Atomic Energy Research Institute
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HAN Dae-Seok
Quantum Energy Chemical Engineering, University of Science and Technology
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LEE Han-Soo
Advanced Fuel Cycle Development, Korea Atomic Energy Research Institute
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KIM In-Tae
Advanced Fuel Cycle Development, Korea Atomic Energy Research Institute
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Kim In-tae
Advanced Fuel Cycle Dev. Korea Atomic Energy Res. Inst.
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Cho Yung-zun
Advanced Fuel Cycle Development Korea Atomic Energy Research Institute
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Yang Hee-chul
Advanced Fuel Cycle Development Korea Atomic Energy Research Institute
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Yang Hee-chul
Korea Atomic Energy Res. Inst.
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Park Gil-ho
Advanced Fuel Cycle Development Korea Atomic Energy Research Institute
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Han Dae-seok
Quantum Energy Chemical Engineering University Of Science And Technology
関連論文
- Minimization of Eutectic Salt Waste from Pyroprocessing by Oxidative Precipitation of Lanthanides
- Carbonate Reaction of Alkaline-Earth Element by Carbonate Agent Injection Method
- Separation of Pure LiCl-KCl Eutectic Salt from a Mixture of LiCl-KCl Eutectic Salt and Rare-Earth Precipitates by Vacuum Distillation
- Characteristics of Oxidation Reaction of Rare-earth Chlorides for Precipitation in LiCl-KCl Molten Salt by Oxygen Sparging
- Concentrations of CsCl and SrCl_2 from a Simulated LiCl Salt Waste Generated by Pyroprocessing by Using Czochralski Method
- Synthesis and Catalytic Properties of Vanadium Nitrides
- Closed Chamber Salt Distillation System for an Enhanced Recovery of Evaporated Pure Salt
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