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Hydro-thermal performance of unsaturated bentonite-sand buffer material |
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| Authors: | RN Yong AMO Mohamed I Shooshpasha C Onofrei |
| Institution: | a University of Wales, Cardiff CF2-1XH, UK b Department of Civil Engineering, McGill University, Macdonald Engineering Building, 817, Sherbrooke Street West, Montreal, Canada QC H3A 2K6 c Fuel Waste Technology, AECL Research, Witheshell Laboratories, Pinawa, Manitoba, Canada R0E 1L0 |
| Abstract: | Several series of one-dimensional heat and moisture flow tests were performed to examine the moisture and temperature distributions in the buffer material compacted to a dry density of 1.67 Mg m?3 and water content of 17.7%. In all tests, water was allowed to infiltrate into a horizontal soil column from one end under a constant hydrostatic head of 276 kPa. Also the specimens were heated from the other end by the heater to a constant temperature. It is experimentally demonstrated that the moisture moves from both ends toward the mid part of the soil column due to both thermal gradient from one end and hydraulic gradient from the other end. It was observed that, in spite of no overall volume change, local volume change occurs in the system. The measured temperatures along the length of the specimen indicate that temperature distributions stabilize within a short period of time. The time required for the temperature to stabilize decreases as the heater skin temperature increases. The diffusivity parameters are calculated using the measured moisture and temperature profiles combined with the finite difference method. Powell's optimization algorithm was used to determine the material parameters. Good agreements between experimentally measured and calibrated volumetric water content shows that the diffusion parameters can be expressed in a linear function of the volumetric water content and temperature. |
| Keywords: | barrier radioactive diffusivity conductivity buffer |
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