A New Paradigm for Pathogen Deposition in Porous Media: The Roles of Pore Structure and Colloid-Colloid Interactions

Approach: Extended DLVO theory calculations and direct measurement of pathogen-pathogen interaction forces using atomic force microscopy (AFM) will be utilized to determine colloid-colloid and colloid-grain interaction energies. Real time direct observation of pore-scale deposition processes using video microscopy in impinging jet and micromodel systems will also be utilized to determine dominant deposition mechanisms. A three dimensional particle trajectory model will be developed to study pore-scale transport and deposition processes in porous media composed of spherical grains. This model will explicitly account for the presence of grain to grain contacts and interaction energies, and will provide a theoretical basis for exploring the potential role of colloid-colloid interactions. Batch and column scale experiments will be performed to provide additional information on deposition mechanisms and profiles with transport distance. Continuum based flow and transport models will be utilized and modified to simulate the breakthrough curves and deposition profiles in these column experiments, and to predict the influence of various observations at larger spatial and temporal scales. Documents Reimbursable with NRI. Log 30737.