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Kegler, Philip [Author]; Neumeier, Stefan [Author]; Klinkenberg, Martina [Author]; Bukaemskiy, Andrey [Author]; Deissmann, Guido [Author]; Brandt, Felix [Author]; Bosbach, Dirk [Author]

Accelerated dissolution of doped UO2-based model systems as analogues for modern spent nuclear fuel under repository conditions

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  • Media type: E-Article
  • Title: Accelerated dissolution of doped UO2-based model systems as analogues for modern spent nuclear fuel under repository conditions
  • Contributor: Kegler, Philip [Author]; Neumeier, Stefan [Author]; Klinkenberg, Martina [Author]; Bukaemskiy, Andrey [Author]; Deissmann, Guido [Author]; Brandt, Felix [Author]; Bosbach, Dirk [Author]
  • Published: Springer Nature Switzerland AG, 2023
  • Published in: MRS advances 8(6), 255 - 260 (2023). doi:10.1557/s43580-023-00544-y
  • Language: English
  • DOI: https://doi.org/10.1557/s43580-023-00544-y; https://doi.org/10.34734/FZJ-2023-03429
  • ISSN: 2731-5894; 2059-8521
  • Origination:
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  • Description: Systematic single-effect dissolution studies were carried out on the dissolution behaviour of pure and Cr- or Nd-doped UO2 reference pellets as model materials for spent nuclear fuel with varying doping levels, densities, and grain sizes as well as of industrially produced Cr- and Cr/Nd-doped UO2 pellets. The results were obtained from accelerated static batch dissolution experiments performed under strictly controlled conditions using H2O2 as simulant for radiolytic oxidants formed due to the alpha-irradiation of water. The results indicate that the addition of Cr and the consequential modification of the fuel matrix does not lead to a significant change of the dissolution behaviour of these model materials compared to pure UO2 reference materials. Contrarily, the dissolution rates of Nd-doped pellets are significantly lower than those of pure and Cr-doped pellets. These results provide additional insights into the influence of doping on the dissolution behaviour of modern spent light water reactor fuels under the post-closure conditions expected in a deep geological repository.
  • Access State: Open Access