Dynamics of particle loading in deep-bed filter. Transport, deposition and reentrainment

Abstract: Deep bed filtration is an effective method of submicron and micron particle removal from the fluid stream. There is an extensive body of literature regarding particle deposition in filters, often using the classical continuum approach. However, the approach is not convenient for studying the influence of particle deposition on filter performance (filtration efficiency, pressure drop) when nonsteady state boundary conditions have to be introduced. For the purposes of this work the latticeBoltzmann model describ… Show more

“…Furthermore, the necessary condition for recalculation of the flow filed was that the total volume of deposited particles to be close to 5 % of the fiber volume [18]. Rafał Przekop and Leon Gradoń [19] modeled the deep bed filtration considering the effect of particle growth on the filter structure and flow field. Their model was able to predict the dynamic filter behavior during instantaneous particle loading.…”

Eulerian Lagrangian Simulation of Particle Capture and Dendrite Formation on Binary Fibers

“…Furthermore, the necessary condition for recalculation of the flow filed was that the total volume of deposited particles to be close to 5 % of the fiber volume [18]. Rafał Przekop and Leon Gradoń [19] modeled the deep bed filtration considering the effect of particle growth on the filter structure and flow field. Their model was able to predict the dynamic filter behavior during instantaneous particle loading.…”

Eulerian Lagrangian Simulation of Particle Capture and Dendrite Formation on Binary Fibers

Capacity of quartz fibers with high filtration efficiency for capturing soot aerosol particles

Quantitative analysis of colloid retention and pore fluid flow in monolithic, open-porous media by X-ray computed microtomography and magnetic resonance velocimetry