Hostname: page-component-586b7cd67f-r5fsc Total loading time: 0 Render date: 2024-11-28T08:53:50.445Z Has data issue: false hasContentIssue false

Thermal diffusion of Helium and volatil fission products in UO2 and zirconolite nuclear ceramics

Published online by Cambridge University Press:  17 March 2011

Danièle Roudil
Affiliation:
CEA VALRHO DEN/DTCD/SECM/LMPA, BP 17171 30207 Bagnols sur Cèze cedex, France
Xavier Deschanels
Affiliation:
CEA VALRHO DEN/DTCD/SECM/LMPA, BP 17171 30207 Bagnols sur Cèze cedex, France
Patrick Trocellier
Affiliation:
CEA SACLAY DEN/DMN/SRMP 91191Gif-sur-Yvette cedex, France
Fran ç ois Jomard
Affiliation:
CNRS Meudon-Bellevue, Place A.Briand, 92195 Meudon, France
Annick Boutry
Affiliation:
CNRS Meudon-Bellevue, Place A.Briand, 92195 Meudon, France
Christophe Jègou
Affiliation:
CEA VALRHO DEN/DTCD/SECM/LMPA, BP 17171 30207 Bagnols sur Cèze cedex, France
Sylvain Peuget
Affiliation:
CEA VALRHO DEN/DTCD/SECM/LMPA, BP 17171 30207 Bagnols sur Cèze cedex, France
Dominique Gosset
Affiliation:
CEA SACLAY DEN/DMN/SRMA 91191Gif-sur-Yvette cedex, France
Pierre Nivet
Affiliation:
CEA VALRHO DEN/DTCD/SECM/LMPA, BP 17171 30207 Bagnols sur Cèze cedex, France
Get access

Abstract

The behaviour and diffusion mechanisms of helium in nuclear ceramics, such as uranium dioxide spent fuel matrix and zirconolite for the specific conditioning of minor actinides, significantly impact the possible evolution of those matrices in interim storage or disposal conditions. In the framework of spent fuel storage studies, the additional diffusion of gas and fission products in uranium dioxidematrix is also an essential aspect of the R&D. Specific experimental studies have been conducted, devoted to thermal diffusion under 1000 C. Data processing methods, lead to helium diffusion coefficient and associated activation energy of 1.05 eV in the zirconolite and 2 eV in UO2. Comparativelywith the uranium dioxide matrix, the helium diffusion coefficient in zirconolite is 1 to 100 million times higher; this parameter will have to be taken into account to dimension the waste form. Diffusion coefficients measurements between 800 C and 1000 C, investigated by SIMS, showed a very slow diffusion of volatile fission products Xe, I, Te and Cs, with coefficients two or three order of magnitude lower than for helium.

Type
Research Article
Copyright
Copyright © Materials Research Society 2004

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1. Gosset, D., Trocellier, P., Serruys, Y., JNM 303 (2002) 115124 Google Scholar
2. Ziegler, J.F., Biresack, J.P., Littmamark, U., The stopping and rangeof ions in solids, Pergammon Press, New-York (1985)Google Scholar
3. Roudil, D., Deschanels, X., Trocellier, P., Jegou, C., Peuget, S., Bart, J.M., JNM 325 (2004) 148158 Google Scholar
4. Gaillard, C, Chevarier, N, DenAuwer, C, , ilard-Pinardn, Deichère, P, sainsot, Ph, JNM,299 (2001) 4352 Google Scholar
5. Constantini, J.M., Grob, J.J., Haussy, J., Trocellier, P, Ph, Trouslard, JNM 321 (2003) pp 281287 Google Scholar
6. Mayer, M., SIMNRA user's guide, Technical Report IPP 9/113, Max-Planck-Institute fü Plasmaphysik, Garching (1997).Google Scholar
7. Matzke, H.J., , Turos, JNM 188 (1992) 285292 Google Scholar
8. Prussin, S.G., Olander, D.R., Lau, W.K., Hansson, L., JNM 154 (1988) 2537 Google Scholar
9. Hocking, W.H., Verrall, R.A., Muir, I.J., JNM 294 (2001) 4552 Google Scholar