Colloid Retention in Porous Media: Mechanistic Confirmation of Wedging and Retention in Zones of Flow Stagnation
Citations Over TimeTop 1% of 2007 papers
Abstract
A three-dimensional particle tracking model for colloid transport in porous media was developed that predicts colloid retention in porous media in the presence of an energy barrier via two mechanisms: (1) wedging of colloids within grain to grain contacts; (2) retention of colloids (without attachment) in flow stagnation zones. The model integrates forces experienced by colloids during transport in porous media, i.e., fluid drag, gravity, diffusion, and colloid-surface Derjaguin-Landau-Verwey-Overbeek interactions. The model was implemented for a fluid flow field that explicitly represented grain to grain contacts. The model utilized a variable time stepping routine to allow finer time steps in zones of rapid change in fluid velocity and colloid-surface interaction forces. Wedging was favored by colloid: collector ratios greater than about 0.005, with this threshold ratio increasing with decreasing fluid velocity. Retention in flow stagnation zones was demonstrated for colloid: collector ratios less than about 0.005, with this threshold decreasing with increasing fluid velocity. Both wedging and retention in flow stagnation zones were sensitive to colloid-surface interaction forces (energy barrier height and secondary energy minimum depth). The model provides a mechanistic basis for colloid retention in the presence of an energy barrier via processes that were recently hypothesized to explain experimental observations.
Related Papers
- → Mechanical properties and porosity relationship of porous iron compacts(2008)7 cited
- CHANGES OF POROSITY VALUE IN ABNORMALLY HIGH PRESSURE GAS RESERVOIRS AND ITS EFFECTS ON THE PRECISION OF RESERVE CALCULATION——A CASE STUDY ON JIA-2 GAS RESERVOIR,MOXI GASFIELD(2007)
- → Observation of porosity distribution in Al-4.4%Mg DC slab and porosity formation.(1998)4 cited
- STUDY ON POROSITY OF SINTERED METALLIC POROUS MATERIAL(2005)
- EFFECT OF POROUS PREFORMS ON POROSITY OF PREPARED TiC/Ni_3Al COMPOSITES(2009)