Radiation induced dissolution of (U, Gd)O^sub 2^ pellets in aqueous solution – A comparison to standard UO^sub 2^ pellets

The behavior of spent nuclear fuel exposed to groundwater is crucial in the safety assessment of a deep geological repository for spent nuclear fuel. For this reason, leaching experiments on spent nuclear fuel as well as non-radioactive analogues have been conducted for several decades. Although the...

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Bibliographic Details
Published in:Journal of nuclear materials 2019-02, Vol.514, p.216
Main Authors: Fidalgo, Alexandre Barreiro, Jonsson, Mats
Format: Article
Language:English
Subjects:
Absorbers
Aqueous solutions
Dissolution
Doping
Gadolinium
Gamma rays
Groundwater
Hydrogen peroxide
Irradiation
Leaching
Nuclear engineering
Nuclear fuels
Nuclear safety
Pellets
Radiation effects
Radioactive wastes
Spent nuclear fuels
Uranium
Uranium dioxide
γ Radiation
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Summary:The behavior of spent nuclear fuel exposed to groundwater is crucial in the safety assessment of a deep geological repository for spent nuclear fuel. For this reason, leaching experiments on spent nuclear fuel as well as non-radioactive analogues have been conducted for several decades. Although the processes involved can be considered to be fairly well understood, there is a need for further experimental studies whenever new fuel types are introduced. Fuels with burnable absorbers are now in use but very little is known about their behavior under repository conditions. In this work, the impact of burnable absorbers doping (Gd, 3–8%wt.) on the oxidative dissolution of UO2 in an aqueous system was studied in H2O2 and γ-irradiation induced dissolution experiments. The results showed a significant decrease in uranium dissolution and lower reactivity towards H2O2 for (U,Gd)O2 pellets compared to standard UO2. The resulting decrease in the final oxidative dissolution yield was mainly attributed to decreased redox reactivity of the UO2-matrix upon doping. The results of the gamma radiation exposures display an even larger effect of Gd-doping. These findings indicate that other processes are involved in the radiation-induced dissolution of Gd-doped UO2 compared to pure UO2.
ISSN:0022-3115
1873-4820
DOI:10.1016/j.jnucmat.2018.11.037