从老化的二氧化钚中分离镅

IF 0.6 CNL Nuclear Review Pub Date : 2018-08-20 DOI:10.12943/CNR.2017.00015
G. Cota-Sanchez, K. Leeder, D. Bureau, M. Watson, Chris MacCready, D. Turgeon, D. Woods
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引用次数: 2

摘要

循环燃料制造实验室(RFFL)是一个获得许可的核设施,旨在生产实验量的混合氧化物燃料,用于反应堆物理测试和演示辐照。自1996年翻修以来,已经完成了几个燃料制造活动和研究项目。RFFL是加拿大唯一能够处理大量钚和其他锕系元素的设施。在这种背景下,近年来人们努力展示在新领域的能力,如锕系元素化学。在该设施中进行的锕系元素化学的首批实验之一致力于从老化的PuO2中分离和纯化241Am。这里介绍的实验工作是为了在RFFL建立锕系元素分离能力,并展示员工进行这些类型分离的专业知识。使用填充有碱性阴离子交换AG1-X4树脂的离子交换柱进行分离实验。在实验中回收了起始PuO2溶液中所含241Am的92%以上;然而,在洗涤废水中也发现了一些钚。洗涤流出物部分的最终镅浓度估计为存在的总重元素的约50%。保留在该柱中的纯化钚有93%以上被洗脱。使用E-pH热力学平衡图和树脂的最大离子交换容量,从Am–Pu–N–H2O体系的物种形成行为的角度讨论了实验结果。
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SEPARATION OF AMERICIUM FROM AGED PLUTONIUM DIOXIDE
The Recycle Fuel Fabrication Laboratory (RFFL) is a licensed nuclear facility designed to produce experimental quantities of mixed oxide fuel for reactor physics tests and demonstration irradiations. Since its refurbishment in 1996, several fuel fabrication campaigns and research projects have been completed. The RFFL is the only facility in Canada capable of handling significant quantities of plutonium and other actinides. In this context, effort has been put forth in recent years to demonstrate capabilities in new fields, such as actinide chemistry. One of the first experiments in actinide chemistry conducted in the Facility was devoted to the separation and purification of 241Am from aged PuO2. The experimental work presented here, was conducted to establish actinide separation capability at the RFFL and demonstrate the staff expertise to perform these types of separations. The separation experiments were carried out using ion exchange columns packed with basic anion exchange AG1-X4 resin. More than 92% of the 241Am contained in the starting PuO2 solution was recovered in the experiments; however, some plutonium was also found in the washing effluent fraction. The final americium concentration of the washing effluent fraction was estimated to be about 50% of the total heavy elements present. More than 93% of the purified plutonium retained in the column was eluted. The experimental results are discussed in terms of the speciation behaviour of the Am–Pu–N–H2O systems using E-pH thermodynamic equilibrium diagrams and the maximum ionic exchange capacity of the resin.
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CNL Nuclear Review
CNL Nuclear Review NUCLEAR SCIENCE & TECHNOLOGY-
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