论文信息 - Effects of heat/water flow interaction on compacted bentonite: Preliminary results

Effects of heat/water flow interaction on compacted bentonite: Preliminary results

Abstract Compacted bentonite blocks have been heated and hydrated in a stainless steel cell in order to simulate, in the laboratory, the conditions of the clay barrier in a high-level radioactive waste repository. Temperature distributions at different times, rate of hydration, final water content and dry density have been measured. Some chemical parameters, as electrical conductivity in an aqueous extractable amorphous silica, have also been obtained. For the periods of time considered (up to 2500 h), the hydration process is not affected by the thermal gradient, the high suction of the bentonite being the critical factor in the initial water uptake of the clay barrier. A remarkable saline environment has been detected near the heater, due to salt migration towards dried areas. This phenomenon should be taken into account in further investigations of the mechanical and geochemical behaviour of the clay barrier.

[1] S. Horseman,et al. Thermal constraints on disposal of heat-emitting waste in argillaceous rocks , 1996 .

[2] B. F. Smith. Characterization of poorly ordered minerals by selective chemical methods , 1994 .

[3] J. Quirk,et al. Crystalline Swelling of Smectite Samples in Concentrated NaCl Solutions in Relation to Layer Charge , 1991 .

[4] J. Wierzchos,et al. Influence of Calcium and Sodium Concentration on the Microstructure of Bentonite and Kaolin , 1990 .

[5] M. Wilson. A Handbook of determinative methods in clay mineralogy , 1987 .

[6] Abdel-Mohsen Onsy Mohamed,et al. Principles of Contaminant Transport in Soils , 1992 .

[7] María Victoria Villar,et al. Hydraulic properties of montmorillonite-quartz and saponite-quartz mixtures , 1994 .

[8] M. Robert,et al. First steps of smectite-illite transformation with humectation and desiccation cycles , 1989 .