富含二氧化硅的天然玻璃中铀的保留:核废料处理方面

IF 2.7 Q1 MATERIALS SCIENCE, CERAMICS Ceramics-Switzerland Pub Date : 2023-05-18 DOI:10.3390/ceramics6020069
Valeri V. Poluektov, V. Petrov, M. I. Ojovan, S. Yudintsev
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引用次数: 0

摘要

在世界上最大的与火山有关的铀矿床的火山岩中收集了具有1.4 - 1.45亿年历史的含铀玻璃样品。其组成的主要特征是高浓度的二氧化硅和铀,是这类岩石中最大的。与此相反,新鲜的(未改变的)低硅天然玻璃的基本成分(玄武岩)的年龄通常不超过几百万年。火山低硅玻璃在较长时间内不稳定,在较古老的岩石中转化为结晶体。铀的地球化学特征,包括在固体和溶液中的行为,与来自高放射性废物的长寿命超铀锕系元素(如放射性Np和放射性Pu)相似。这使得铀可以用作这些长寿命危险放射性核素的模拟物,用于合成和研究各种核废料形式:玻璃、玻璃结晶材料和结晶陶瓷。所获得的天然玻璃的长期行为数据对地质处置设施核废料的稳定性预测和验证具有重要意义。
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Uranium Retention in Silica-Rich Natural Glasses: Nuclear Waste Disposal Aspect
Uranium-containing glass samples with an age of 140–145 million years were collected within the volcanic rocks of the largest volcanic-related uranium ore deposit in the world. Main features of their composition are high concentrations of silica and uranium, the largest for the rocks of this type. In contrast to this, the ages of fresh (unaltered) low-silica natural glasses of a basic composition (basalts) usually do not exceed a few million years. The volcanic low-silica glass is unstable at longer times and in older ancient rocks is transformed into a crystalline mass. The geochemistry of uranium including the behavior in solids and solutions is similar to that of long-lived transuranic actinides such as radioactive Np and Pu from high-level radioactive waste. This allows uranium to be used as a simulant of these long-lived hazardous radionuclides both at the synthesis and for the study of various nuclear wasteforms: glasses, glass crystalline materials and crystalline ceramics. The data obtained on long-term behavior of natural glasses are of importance for prognosis and validation of stability of nuclear wasteforms disposed of in geological disposal facilities (GDF).
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来源期刊
CiteScore
3.00
自引率
7.10%
发文量
66
审稿时长
10 weeks
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