Interpretation of dissolution behavior at the surface of uranium-zirconium oxide solid solutions

IF 3.2 2区工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of Nuclear Materials Pub Date : 2025-04-10 DOI:10.1016/j.jnucmat.2025.155820

Ryutaro Tonna , Takayuki Sasaki , Yoshihiro Okamoto , Taishi Kobayashi

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Abstract

The dissolution behavior of (U,Zr)O₂, the primary uranium solid phase in the fuel debris from the Fukushima Daiichi nuclear power plant accidents, was investigated thermodynamically and kinetically under atmospheric conditions. Cubic (U,Zr)O₂ samples with a uniform solid solution of Zr were prepared using wet chemistry methods, and static batch immersion tests were conducted. In strongly acidic conditions, where the solubility of U and Zr exceeded their concentrations, congruent dissolution of both elements was observed with (U,Zr)O₂ dissolving at the same rate as UO₂. In moderately acidic conditions, where the U solubility was higher than its concentration with Zr reaching a steady state at lower solubility, the U dissolution rate from (U,Zr)O₂ decreased compared to UO₂. In the presence of oxalic acid, with increased Zr solubility due to the formation of complexes, the U dissolution rate from (U,Zr)O₂ did not decrease. This indicates that Zr in (U,Zr)O₂ formed a secondary solid phase on the solid surface under conditions of lower Zr solubility, which in turn suppressed the oxidative dissolution of U.

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氧化铀锆固溶体表面溶解行为的解释

研究了常压条件下（U,Zr）O2 （U,Zr）固相在福岛第一核电站事故燃料碎片中的溶解行为。采用湿化学方法制备了含有均匀固溶体Zr的立方（U,Zr）O2样品，并进行了静态间歇浸泡试验。在强酸性条件下，当U和Zr的溶解度超过其浓度时，观察到两种元素的完全溶解，（U,Zr）O2的溶解速率与UO2相同。在中酸性条件下，当U的溶解度大于其浓度时，Zr在较低的溶解度下达到稳定状态，（U,Zr）O2对U的溶解速率比UO2降低。在草酸存在下，配合物的形成增加了Zr的溶解度，但（U,Zr）O2对U的溶解速率没有降低。这表明在Zr溶解度较低的条件下，（U,Zr）O2中的Zr在固体表面形成了二次固相，从而抑制了U的氧化溶解。

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来源期刊

Journal of Nuclear Materials 工程技术-材料科学：综合

CiteScore

5.70

自引率

25.80%

发文量

601

审稿时长

63 days

期刊介绍： The Journal of Nuclear Materials publishes high quality papers in materials research for nuclear applications, primarily fission reactors, fusion reactors, and similar environments including radiation areas of charged particle accelerators. Both original research and critical review papers covering experimental, theoretical, and computational aspects of either fundamental or applied nature are welcome. The breadth of the field is such that a wide range of processes and properties in the field of materials science and engineering is of interest to the readership, spanning atom-scale processes, microstructures, thermodynamics, mechanical properties, physical properties, and corrosion, for example. Topics covered by JNM Fission reactor materials, including fuels, cladding, core structures, pressure vessels, coolant interactions with materials, moderator and control components, fission product behavior. Materials aspects of the entire fuel cycle. Materials aspects of the actinides and their compounds. Performance of nuclear waste materials; materials aspects of the immobilization of wastes. Fusion reactor materials, including first walls, blankets, insulators and magnets. Neutron and charged particle radiation effects in materials, including defects, transmutations, microstructures, phase changes and macroscopic properties. Interaction of plasmas, ion beams, electron beams and electromagnetic radiation with materials relevant to nuclear systems.