Title of article :
Colloid transport in a geochemically heterogeneous porous medium: aquifer tank experiment and modeling
Author/Authors :
Jonathan P. Loveland، نويسنده , , Subir Bhattacharjee، نويسنده , , Joseph N. Ryan، نويسنده , , Menachem Elimelech، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2003
Pages :
22
From page :
161
To page :
182
Abstract :
To examine colloid transport in geochemically heterogeneous porous media at a scale comparable to field experiments, we monitored the migration of silica-coated zirconia colloids in a two-dimensional layered porous media containing sand coated to three different extents by ferric oxyhydroxides. Transport of the colloids was measured over 1.65 m and 95 days. Colloid transport was modeled by an advection–dispersion–deposition equation incorporating geochemical heterogeneity and colloid deposition dynamics (blocking). Geochemical heterogeneity was represented as favorable (ferric oxyhydroxide-coated) and unfavorable (uncoated sand) deposition surface areas. Blocking was modeled as random sequential adsorption (RSA). Release of deposited colloids was negligible. The time to colloid breakthrough after the onset of blocking increased with increasing ferric oxyhydroxide-coated surface area. As the ferric oxyhydroxide surface area increased, the concentration of colloids in the breakthrough decreased. Model-fits to the experimental data were made by inverse solutions to determine the fraction of surface area favorable for deposition and the deposition rate coefficients for the favorable (ferric oxyhydroxide-coated) and unfavorable sites. The favorable deposition rate coefficient was also calculated by colloid filtration theory. The model described the time to colloid breakthrough and the blocking effect reasonably well and estimated the favorable surface area fraction very well for the two layers with more than 1% ferric oxyhydroxide coating. If mica edges in the uncoated sand were considered as favorable surface area in addition to the ferric oxyhydroxide coatings, the model predicted the favorable surface area fraction accurately for the layer with less than 1% ferric oxyhydroxide coating.
Keywords :
colloid , transport , Ferric oxyhydroxide , Geochemical heterogeneity , modeling
Journal title :
Journal of Contaminant Hydrology
Serial Year :
2003
Journal title :
Journal of Contaminant Hydrology
Record number :
693458
Link To Document :
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