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Abstract
In this article, we present a two-dimentional (2D) solute transport model using streamline simulation and semi-analytical solutions of one-dimensional (1D) transport equation. We validated the accuracy of the developed model by comparing three simulation results of contaminant transport using an analytical, a semi-analytical, and an upwind finite-difference solution of 1D transport equation. We also show how to apply the developed model to simulate solute transport with complex boundary conditions, such as the first-order degraded source condition and the Cauchy boundary condition. For an advection-dominant flow, we can clearly see the differences of plume spreads between the streamline simulation models with the semi-analytical solution and the numerical solution. From the comparison of computing time, the streamline simulation using the semi-analytical solution is 10–200 times faster than the streamline simulation using the numerical solution. If we would use a semi-analytical solution instead of a numerical solution in case no analytical solution is available, we could obtain faster and more accurate simulation results free from numerical dispersion.
Acknowledgments
This work was supported by the Ministry of Environment's “Eco-Technopia Project” No. 2003-04001-0021-0. This research was conducted through the Research Institute of Engineering Science at Seoul National University, Korea.