Rapid vitrification of uranium-contaminated soil: Effect and mechanism

Shu, Xiaoyan; Li, Yaping; Huang, Wenxiao; Chen, Shunzhang; Xu, Chen; Zhang, Shuai; Li, Bingsheng; Wang, Xiaoqiang; Qing, Qi; Lu, Xirui

Rapid vitrification of uranium-contaminated soil: Effect and mechanism

2020

Nuclear contaminated soil can seriously threaten human security. In this study, uranium-contaminated soil (0–50000 μg/g of uranium) was successfully vitrified in 30 min without complex pretreatment or any additional components. The microstructure of the vitrified forms, the immobilizing mechanism of uranium, the inner structural evolution with increased uranium concentration, and the performance in terms of chemical durability were studied in detail. In the vitrified form, uranium was surrounded by a three-dimensional network structure comprising silicon and aluminum oxide polyhedra. When the uranium content increased above 50000 μg/g, the network adjusted and local structures precipitated as mottle-shaped quartz. The normalized leaching rates of uranium were maintained at a low value (∼1 × 10⁻⁶ g/(m²·d) level) in distilled water at 90 °C after 42 days. These results suggested the feasibility of vitrifying nuclear contaminated soil in a simple and rapid way.

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