Migration of pollutants in groundwater. III. Numerical dispersion reduction with cartesian coordinates
- 1 March 1986
- journal article
- research article
- Published by Springer Nature in Environmental Monitoring and Assessment
- Vol. 6 (2) , 145-164
- https://doi.org/10.1007/bf00395626
Abstract
The partial differential equation governing the movement of a decomposing pollutant undergoing 2-dimensional flow in a saturated aquifer is examined. The analytical solution of the equation is usually not possible, and use of mesh numerical integration techniques causes excessive numerical dispersion to arise from the advection term. We apply two asymmetrical upwind formulas to approximate the advection term. These markedly reduce numerical dispersion without requiring the use of coordinate systems obtained by conformal mapping. Flow within a right angle and flow toward a sink in an otherwise uniform field are analyzed to illustrate the methods.Keywords
This publication has 9 references indexed in Scilit:
- Migration of pollutants in groundwater. II. adsorbable pollutants and numerical dispersion reductionEnvironmental Monitoring and Assessment, 1984
- Migration of pollutants in groundwater: I. reduction of numerical dispersion by conformal mappingEnvironmental Monitoring and Assessment, 1982
- Using models to simulate the movement of contaminants through groundwater flow systemsC R C Critical Reviews in Environmental Control, 1979
- A stable and accurate convective modelling procedure based on quadratic upstream interpolationComputer Methods in Applied Mechanics and Engineering, 1979
- Comment on ‘Numerical Solution to the Convective Diffusion Equation’ by C. A. Oster, J. C. Sonnichsen, and R. T. JaskeWater Resources Research, 1971
- Numerical Solution to the Convective Diffusion EquationWater Resources Research, 1970
- Theory of dispersion in a granular mediumProfessional Paper, 1970
- Numerical Calculation of Multidimensional Miscible Displacement by the Method of CharacteristicsSociety of Petroleum Engineers Journal, 1964
- General theory of dispersion in porous mediaJournal of Geophysical Research, 1961