A Generalized Relaxation Method for Transport and Diffusion of Pollutant Models in Shallow Water

Author:

Delis A.I.1,Katsaounis Th.23

Affiliation:

1. 1Department of Sciences, Division of Mathematics, Technical University of Crete, University Campus, Chania 73100, Crete, Greece.

2. 2Institute of Mathematics, National Academy of Sciences, 3 Tereschenkivska Str., 01601 Kyiv, Ukraine.

3. 3Institute of Applied and Computational Mathematics, FORTH, Heraklion 71110, Crete, Greece.

Abstract

AbstractWe present a numerical method based on finite difference relaxation approximations for computing the transport and diffusion of a passive pollutant by a water flow. The flow is modeled by the well-known shallow water equations and the pollutant propagation is described by a transport equation. The previously developed nonoscillatory relaxation scheme is generalized to cover problems with pollutant trans- port, in one and two dimensions and source terms, resulting in a class of methods of the first and the second order of accuracy in space and time. The methods are based on the classical relaxation models combined with a Runge-Kutta time splitting scheme, where neither Riemann solvers nor characteristic decompositions are needed. Numerical results are presented for several benchmark test problems. The schemes presented are verified by comparing the results with documented ones, proving that no special treatment is needed for the transport equation in order to obtain accurate results.

Publisher

Walter de Gruyter GmbH

Subject

Applied Mathematics,Computational Mathematics,Numerical Analysis

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