Finite Difference Method for Computation of 1D Pollutant Migration through Saturated Homogeneous Soil Media
Publication: International Journal of Geomechanics
Volume 11, Issue 1
Abstract
The physical processes such as advection, dispersion, and diffusion and interaction between the solution and the soil solids such as sorption, biodegradation, and retention processes have been considered in the governing equation used in the present study. Finite difference method has been adopted herein to solve the one-dimensional contaminant transport model to predict the pollutant migration through soil in waste landfill. In the finite difference technique, the velocity field is first determined within a hydrologic system, and these velocities are then used to calculate the rate of contaminant migration by solving the governing equation. A total of seven contaminants have been chosen for analysis to represent a wide variety of wastes both organic and inorganic. A computer software CONTAMINATE has been developed for solution of the contaminant transport model. Results of this study have been compared with existing analytical solution for validation of the proposed solution technique. Design charts for liners have also been developed to facilitate the designers. The liner thickness has been optimized by considering the effect of velocity of advection, dispersion coefficient, and geochemical reactions for all the contaminants of this study.
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Information & Authors
Information
Published In
International Journal of Geomechanics
Volume 11 • Issue 1 • February 2011
Pages: 12 - 22
Copyright
© 2011 ASCE.
History
Received: Jul 6, 2009
Accepted: Apr 7, 2010
Published online: Apr 10, 2010
Published in print: Feb 2011
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