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Numerical analysis of thermal impact on hydro-mechanical properties of clay 被引量:1
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作者 Xuerui Wang Hua Shao +3 位作者 Jürgen Hesser Chunliang Zhang Wenqing Wang Olaf Kolditz 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2014年第5期405-416,共12页
As is known, high-level radioactive waste (HLW) is commonly heat-emitting. Heat output from HLWwilldissipate through the surrounding rocks and induce complex thermo-hydro-mechanical-chemical(THMC) processes. In hi... As is known, high-level radioactive waste (HLW) is commonly heat-emitting. Heat output from HLWwilldissipate through the surrounding rocks and induce complex thermo-hydro-mechanical-chemical(THMC) processes. In highly consolidated clayey rocks, thermal effects are particularly significantbecause of their very low permeability and water-saturated state. Thermal impact on the integrity of thegeological barriers is of most importance with regard to the long-term safety of repositories. This studyfocuses on numerical analysis of thermal effects on hydro-mechanical properties of clayey rock using acoupled thermo-mechanical multiphase flow (TH2M) model which is implemented in the finite elementprogramme OpenGeoSys (OGS). The material properties of the numerical model are characterised by atransversal isotropic elastic model based on Hooke's law, a non-isothermal multiphase flow model basedon van Genuchten function and Darcy's law, and a transversal isotropic heat transport model based onFourier's law. In the numerical approaches, special attention has been paid to the thermal expansion ofthree different phases: gas, fluid and solid, which could induce changes in pore pressure and porosity.Furthermore, the strong swelling and shrinkage behaviours of clayey material are also considered in thepresent model. The model has been applied to simulate a laboratory heating experiment on claystone.The numerical model gives a satisfactory representation of the observed material behaviour in thelaboratory experiment. The comparison of the calculated results with the laboratory findings verifies thatthe simulation with the present numerical model could provide a deeper understanding of the observedeffects. 2014 Institute of Rock and Soil Mechanics, Chinese Academy of Sciences. Production and hosting byElsevier B.V. All rights reserved. 展开更多
关键词 Radioactive waste disposal Clayey rock Heating experiment Numerical modelling OpenGeoSys(OGS) Thermo-hydro-mechanical(THM) coupling Multiphase flow thermal effect
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