Application of the Pyrochemical DOS, Developed by the CEA, within Reprocessing of CERCER Transmutation Fuel Targets

E. Mendes , T. Ducasse , M. Miguirditchian , M. Bertrand
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引用次数: 3

Abstract

Pyrochemical technology using high-temperature molten salts and molten metal media presents a potential interest for an overall separation and transmutation strategy for long-lived radionuclides. Within the frame of the two French acts on radioactive waste management, a pyrochemical R&D program was launched at the CEA Marcoule in the late 90's. The second step is the actinides back-extraction, which consists in a liquid/liquid oxidative stripping of the An from aluminium matrix into molten chloride media. The DOS process has been successfully demonstrated for treatment of oxide type fuels within the last years: the core of the process has been already assessed and the studies have shown high selectivity and a quantitative recovery of actinides.

Within the framework of the SACSESS European research program, the pyrochemical activities focused on applications of the DOS process to reprocess CERCER transmutation targets. These particular type of fuels consist of a mixture of minor actinides (MA) oxides diluted in an inert (oxide MgO) matrices. The behaviour of matrices material was first investigated regarding the solubility in the fluoride salt, starting from both oxide powders or sintered pellets. Further investigations focused on the reductive extraction behaviour of Mg in metallic Al. The impact of Mg on the efficiency of An reductive extraction was also studied using uranium simulating the behaviour of MA oxides.

CEA研制的热化学DOS在CERCER嬗变燃料靶件后处理中的应用
使用高温熔盐和熔融金属介质的热化学技术为长寿命放射性核素的整体分离和嬗变策略提供了潜在的兴趣。在法国关于放射性废物管理的两项法案的框架内,90年代末在CEA Marcoule启动了一个热化学研发项目。第二步是锕系元素的反萃取,包括从铝基体中液/液氧化剥离An到熔融氯化物介质中。在过去几年中,已经成功地证明了DOS过程用于处理氧化物型燃料:该过程的核心已经进行了评估,研究表明锕系元素具有高选择性和定量回收。在SACSESS欧洲研究计划的框架内,热化学活动的重点是应用DOS过程再处理CERCER嬗变目标。这些特殊类型的燃料由在惰性(氧化物MgO)基质中稀释的微量锕系元素(MA)氧化物混合物组成。从氧化物粉末或烧结球团开始,首先研究了基体材料在氟化物盐中的溶解度。进一步的研究集中在金属Al中Mg的还原萃取行为,并利用铀模拟MA氧化物的行为研究了Mg对a还原萃取效率的影响。
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