A comparative study on scoping numerical calculations of anisotropic diffusion experiment in Clay
Safety assessment of nuclear waste disposal in a deep geological repository requires understanding and quantifying radionuclide transport through the hosting geological formation. Radionuclide diffusion is the main transport mechanism in clay formations since they usually have small hydraulic conductivities. Thus, understanding diffusion and determining diffusion parameters under real conditions is crucial for the performance assessment of a deep geological repository. In this paper, a comparative analysis is performed which focus on the dimensions of the packed-off section where tracers are injected and the packer between the intervals, diffusion of neutral (HTO), anionic (I) and sorbing cationic tracers with different distribution coefficients (22Na and 85Sr) has been simulated considering the anisotropy effect. The results indicate that The expected anisotropy has been clearly measurable for the sake of a short injection interval, in the final geometric configuration, the length of injection interval is larger than the transport distance, so the anisotropy effect is not as clearly measurable as in the preliminary because practically no tracer breakthrough from one interval to the other is expected if diffusion anisotropy is confirmed. The tracer depletion in the final design is larger than in the preliminary design.
Scoping calculation Anisotropic diffusion High-level radionuclide waste Clay
Qingchun Yang
Escuela de Ingenieros de Caminos, Universidad de A Coruna, Campus de Elvina, 15192, A Coruna, Spain
国际会议
大连
英文
1434-1437
2011-10-19(万方平台首次上网日期,不代表论文的发表时间)