On the use of thermal NF₃ as the fluorination and oxidation agent in treatment of used nuclear fuels

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• 作者：Randall Scheele ; ^{randall.scheele@pnnl.gov} ; Bruce McNamara ; Andrew M Casella ; Anne Kozelisky
• 刊名：Journal of Nuclear Materials
• 出版年：2012
• 出版时间：May, 2012
• 年：2012
• 卷：424
• 期：1-3
• 页码：224-236
• 全文大小：1853 K

文摘

This paper presents results of our investigation on the use of nitrogen trifluoride as a fluorination or fluorination/oxidation agent for separating valuable constituents from used nuclear fuels by exploiting the different volatilities of the constituent fission product and actinide fluorides. Our thermodynamic calculations show that nitrogen trifluoride has the potential to produce volatile fission product and actinide fluorides from oxides and metals that can form volatile fluorides. Simultaneous thermogravimetric and differential thermal analyses show that the oxides of lanthanum, cerium, rhodium, and plutonium are fluorinated but do not form volatile fluorides when treated with nitrogen trifluoride at temperatures up to 550 ¡ãC. However, depending on temperature, volatile fluorides or oxyfluorides can form from nitrogen trifluoride treatment of the oxides of niobium, molybdenum, ruthenium, tellurium, uranium, and neptunium. Thermoanalytical studies demonstrate near-quantitative separation of uranium from plutonium in a mixed 80 % uranium and 20 % plutonium oxide. Our studies of neat oxides and metals suggest that the reactivity of nitrogen trifluoride may be adjusted by temperature to selectively separate the major volatile fuel constituent uranium from minor volatile constituents, such as Mo, Tc, Ru and from the non-volatile fuel constituents based on differences in their reaction temperatures and kinetic behaviors. This reactivity is novel with respect to that reported for other fluorinating reagents F₂, BrF₅, ClF₃.