Interactions of cement pore fluids with host rock and the effects on HTO, Na and Cs diffusion
Journal article, 1998

In the post-closure period of a deep disposal facility for low- and intermediate-level radioactive waste, pore-fluids chemically equilibrated with cementious components of the engineered barriers will migrate into the surroundings. Secondary calcium silicate hydrate (CSH) phases might be formed in the micro pore system of the rocks and change the available porosity for radionuclides and hence permeability. Since the retardation of radionuclides in host rock is dependent on the sorption and matrix diffusion, these chemical reactions are of concern. Experiments have been undertaken to react discs of Äspö diorite with alkaline cement porewaters. These experiments provided aged material for through diffusion experiments and samples for studies of chemical reactions. 1 cm thick discs of Äspö diorite were reacted with waters representative for fresh and leached concrete at 70C in nitrogen filled vessels for six months. Analysis of the waters indicates dissolution of primary minerals and precipitation of secondary CSH phases. HTO, Na and Cs diffusion experiments were then undertaken with both reacted and unreacted discs in a nitrogen-flushed glovebox facility. The effects of alkaline degradation of Äspö diorite on tracer through-diffusion was found to be small and of the same order of magnitude as natural variations in rock heterogenity between undegraded samples.

Diffusion in grano-diorite

Radioactive waste

Alkaline degradation of grano-diorite

Author

Stellan Holgersson

Department of Nuclear Chemistry

Yngve Albinsson

Department of Nuclear Chemistry

Ingemar Engkvist

Christopher Rochelle

Jonathan Pierce

Radiochimica Acta

0033-8230 (ISSN)

Vol. 82 197-203

Areas of Advance

Energy

Materials Science

Subject Categories

Earth and Related Environmental Sciences

Chemical Sciences

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Created

10/6/2017