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Time dependent dispersivity behavior of non-reactive solutes in a system of parallel fractures
1Department of Civil Engineering, Queens University, Kingston, Canada
2Department of Civil Engineering, Indian Institute of Science, Bangalore, India
3Department of Mining and Geological Engineering, University of Alaska, Fairbanks, USA
Abstract. In order to obtain meaningful predictions of contaminant transport, an accurate way of quantifying dispersivity needs to be developed. Results from the theoretical studies suggest that dispersion and the associated dispersivity is non-fickian near the source of contaminant and it grows with travel time and distance. In most tests of a limited duration it is quite probable that the asymptotic regime is not reached, and a proper interpretation of the test should be based on the time-dependent results due to the difficulty associated with the expensive experimental setups added to the marked scarcity of field data. An attempt has been made using spatial moment analysis to evaluate the time dependent dispersivity for a system of parallel fractures with matrix diffusion. The study is limited to non-reactive solutes, having a constant continuous source. An empirical relation to evaluate the dispersivity was developed by us based on the sensitivity analysis, when distinct parallel fractures have constant aperture width and is found to be functions of matrix porosity, matrix diffusion coefficient and injected fracture velocity at pre-asymptotic stage. The system becomes more complex when the aperture widths of the distinct parallel fractures are varied, as it appears that the initial development period of non-fickian behavior may be long due to the continuous lateral mixing of the solute body. It is found that dispersivity at pre-asymptotic regime increases with the coefficient of variation for distinct parallel fractures with varying aperture widths.
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Citation: Suresh Kumar, G., Sekhar, M., and Misra, D.: Time dependent dispersivity behavior of non-reactive solutes in a system of parallel fractures, Hydrol. Earth Syst. Sci. Discuss., 3, 895-923, 2006. Bibtex EndNote Reference Manager
