NANOSTRUCTURED METALS AND MATERIALS | |
Название | Separation of ultrafine uranium oxide particles from zirconium alloys in remelting processes with fluoride and oxide slags: thermodynamic analysis |
DOI | 10.17580/tsm.2022.07.07 |
Автор | Zhilina E. M., Krasikov S. A., Kuznetsov I. V., Kalenova M. Yu. |
Информация об авторе | Institute of Metallurgy at the Ural Branch of the Russian Academy of Sciences, Yekaterinburg, Russia: E. M. Zhilina, Senior Researcher at the Laboratory of Rare Refractory Metals, Candidate of Chemical Sciences, e-mail: ezhilina@bk.ru
Institute of Metallurgy at the Ural Branch of the Russian Academy of Sciences, Yekaterinburg, Russia1 ; Ural State Mining University, Yekaterinburg, Russia2: S. A. Krasikov, Principle Researcher at the Laboratory of Rare Refractory Metals1, 2, Doctor of Technical Sciences, e-mail: sankr@mail.ru
Leading Institute of Chemical Technology (VNIIKhT), Moscow, Russia: I. V. Kuznetsov, Head of the Laboratory for Spent Nuclear Fuel and Radioactive Waste Management, Candidate of Technical Sciences, e-mail: ivan7501966@mail.ru M. Yu. Kalenova, Head of the Department of Сhemical Technologies for Closed Nuclear Fuel Cycle, Candidate of Technical Science, e-mail: kalenovamu@yandex.ru |
Реферат | This paper examines how ultrafine particles of uranium oxide interact with zirconium alloys in the presence of oxide and fluoride slags. The authors analyzed the probability of the components of Zr – 1% Nb alloy contaminated with ultrafine uranium oxide particles transitioning into slag phase during the process of remelting fuel element claddings using different fluxing agents. By means of thermodynamic modelling, the authors looked at the interaction of the cladding material of fuel elements used in thermal reactors (zirconium-niobium alloy) contaminated with traces of nanosized uranium oxide with molten oxide and fluoride fluxes in the temperature range of 1,000 to 2,000 oC. It was found that, for the interaction of Zr – 1% Nb alloy with fluoride and oxide melts, the metal should be slightly dissolved in the slag phase. Analysis of the interactions of ultrafine uranium compounds with slag mixtures for the temperature range of 1,000 to 2,000 oC showed a predominant transition of uranium, when reacting with fluoride fluxes, into the metal phase in its elementary form – U and into slag phase (about 4%) in the form of UF3 and UOF2 compounds. During reactions with oxide fluxes, uranium mainly distributes in the metal in its elementary form — U. At the same time, 18 to 19% of uranium can transition into slag phase in the forms of UO, UO2, and UOF2. It should be noted that that fact that uranium oxide particles have an ultradispersed structure should contribute to their transition into slag and thus help speed up the treatment process. |
Ключевые слова | Zirconium-niobium alloy, nanostructured uranium compounds, thermodynamic modeling, interactions, oxide and fluoride fluxes |
Библиографический список | 1. Zhang D., Li Y., Gao R. et al. Hydrothermal synthesis of uranium dioxide and graphene composite and its application as an additive for uraniumdioxide-based accident tolerant fuel. Ceramics International. 2021. Vol. 47, Iss. 8. pp. 11249–11256. DOI: 10.1016/j.ceramint.2020.12.250. |
Language of full-text | русский |
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