Titre :
|
Optimum hydraulic conductivity to limit contaminant flux through cutoff walls
|
Auteurs :
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J. Devlin ;
B. Parker
|
Type de document :
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article/chapitre/communication
|
Année de publication :
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1996
|
Format :
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p. 719-726
|
Langues:
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= Anglais
|
Catégories :
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HYDROLOGIE ET HYDRAULIQUE
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Mots-clés:
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CONDUCTIVITE HYDRAULIQUE
;
TRANSPORT DE CONTAMINANT
;
SOLUTE
;
PERMEABILITE
;
DIFFUSION
|
Résumé :
|
Cutoff walls are becoming increasingly attractive options for the control of solute migration from long-term sources of contamination. The main advantage of low permeability enclosures is that they restrict advective transport of solutes away from the source. However, with high concentration source zones surrounded by cutoff walls, there exists the potential for notable mass fluxes outward due to diffusive transport. This paper shows, through the use of the steady-state flux equations, that there is an optimal range of hydraulic conductivities for barrier materials which permit the outward diffusive flux to be counter balanced by an inward advective and dispersive flux. This concept of designing optimum contaminant containment using an inward advective flux to counter the outward diffusive flux is valid for sealable joint sheet pile walls, bentonite-slurry walls and clay liners, but not synthetic membrane materials with extremely low hydraulic conductivities.
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Source :
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Ground water, vol.34, n°4
|