An FCT Model Of Contaminant Transport On Unstructured Meshes

Sharp concentration fronts are usually present when the advection dominates contaminant transport in groundwater. Traditional numerical meth- ods for solving transport equations either generate spurious oscillation near fronts or introduce numerical diffusion to enforce positivity. The Flux-Correcte...

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Veröffentlicht in:	WIT Transactions on Ecology and the Environment 1998-01, Vol.23
Hauptverfasser:	Yu, Mengchun, Dougherty, David E
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Contaminants Diffusion Finite difference method Finite volume method Flux corrected transport Groundwater Groundwater pollution Mathematical models
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container_title	WIT Transactions on Ecology and the Environment
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creator	Yu, Mengchun Dougherty, David E
description	Sharp concentration fronts are usually present when the advection dominates contaminant transport in groundwater. Traditional numerical meth- ods for solving transport equations either generate spurious oscillation near fronts or introduce numerical diffusion to enforce positivity. The Flux-Corrected Transport (FCT) algorithm for finite difference methods has been developed on structured meshes to avoid spurious oscillation and minimize the numerical diffusion. This paper extends the FCT algorithm to unstructured meshes. A finite volume method is developed to model the contaminant transport on unstructured meshes. Solutions for advective flux are sought by a first-order upwind scheme and a second-order scheme. FCT is based on mutual correction between the two schemes. Comparisons with analytical and existing upwin
doi_str_mv	10.2495/CMWR980251
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Traditional numerical meth- ods for solving transport equations either generate spurious oscillation near fronts or introduce numerical diffusion to enforce positivity. The Flux-Corrected Transport (FCT) algorithm for finite difference methods has been developed on structured meshes to avoid spurious oscillation and minimize the numerical diffusion. This paper extends the FCT algorithm to unstructured meshes. A finite volume method is developed to model the contaminant transport on unstructured meshes. Solutions for advective flux are sought by a first-order upwind scheme and a second-order scheme. FCT is based on mutual correction between the two schemes. 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subjects	Algorithms Contaminants Diffusion Finite difference method Finite volume method Flux corrected transport Groundwater Groundwater pollution Mathematical models
title	An FCT Model Of Contaminant Transport On Unstructured Meshes
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