Calculating transport of water from a conduit to the porous matrix by boundary distributed source method

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Publication Date

11-1-2012

Publication Title

Engineering Analysis with Boundary Elements

Volume Number

36

Issue Number

11

Abstract

This study presents the development of a suitable numerical method for porous media flow with free and moving boundary (Stefan) problems arising in systems with wetted and unwetted regions of porous media. A non-singular version of the method of fundamental solutions (MFS), termed the boundary distributed source method (BDS), is applied. Darcy flow and homogenous isotropic porous media is assumed. The solution is represented in terms of the fundamental solution of the Laplace equation in two-dimensional Cartesian coordinates. The desingularisation is achieved through boundary distributed sources of the fundamental solution and indirect calculation of the derivatives of the fundamental solution. Respectively, the artificial boundary, characteristic for the classical, singular MFS is not present. The novel BDS is compared with the MFS and the analytical solutions for several numerical examples with excellent agreement. A sensitivity study of the solution, regarding the discretization and the free parameters is performed. The main contributions of the study are the application of the BDS to free and moving boundary problems and the comparison of BDS with MFS for these types of problems. The developed model can be applied to various geohydrological problems.

Keywords

Porous materials, Groundwater flow, Numerical analysis, Mathematical models, Boundary value problems

Document Type

Article

Digital Object Identifier (DOI)

https://doi.org/10.1016/j.enganabound.2012.06.001

Language

English

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