TIMODAZ - Modelling the Excavated Damage Zone around an underground gallery - Coupling mechanical, thermal and hydraulical aspects

Research output: Contribution to report/book/conference proceedingsIn-proceedings paper

Authors

  • R. Charlier
  • R. Chambon
  • Xiang Ling Li
  • A. Dizier
  • Y. Sieffert
  • F. Collin
  • S. Levasseur

Institutes & Expert groups

Documents & links

Abstract

The aim of the TIMODAZ project is to investigate the effect of thermal changes on the excavated damaged zone (EDZ) around nuclear deep disposals in clay host rocks. During the disposal construction, rock mass around the gallery is damaged and its permeability may be modified. Further the drainage and later the heating will modified the size and the structure of the damage zone. In the framework of the TIMODAZ project, it is intended to develop constitutive models and numerical tools. A series of benchmark modelling with different constitutive laws and numerical tools are performed. From now, two benchmarks have started. The first one concerns a small scale laboratory experiment on a hollow cylinder clay sample submitted to thermo-hydro-mechanical loadings. The second one is an in-situ experiment which studies the water transmissivity evolution trough the EDZ.

Details

Original languageEnglish
Title of host publicationConference proceedings. EURADWASTE'08. EURADWASTE, the Seventh European Commission Conference on the Management and Disposal of Radioactive Waste
Place of PublicationLuxembourg, Luxembourg
Pages441-445
Volume1
Publication statusPublished - Dec 2009
EventEURADWASTE 2008 - 7th European Commission Conference on the Management and Disposal of Radioactive Waste - European Commission, Luxembourg, Luxembourg
Duration: 20 Oct 200823 Oct 2008

Publication series

NameEUR series
Number24040

Conference

ConferenceEURADWASTE 2008 - 7th European Commission Conference on the Management and Disposal of Radioactive Waste
CountryLuxembourg
CityLuxembourg
Period2008-10-202008-10-23

Keywords

  • Modelling, EDZ, THM coupling, laboratory testing, in situ testing

ID: 74511