Stochastic modelling and simulations for solute transport in porous media

Authors

  • Tianhai Tian
  • Kevin Burrage
  • Ray Volker

DOI:

https://doi.org/10.21914/anziamj.v45i0.907

Abstract

A stochastic model for solute transport in aquifers is studied based on the concepts of stochastic velocity and stochastic diffusivity. By applying finite difference techniques to the spatial variables of the stochastic governing equation, a system of stiff stochastic ordinary differential equations is obtained. Both the semi-implicit Euler method and the balanced implicit method are used for solving this stochastic system. Based on the Karhunen-Loeve expansion, stochastic processes in time and space are calculated by means of a spatial correlation matrix. Four types of spatial correlation matrices are presented based on the hydraulic properties of physical parameters. Simulations with two types of correlation matrices are presented.

Published

2004-06-29

Issue

Section

Proceedings Computational Techniques and Applications Conference