W. Wang et al., A THEORETICAL-STUDY OF TRANSIENT CROSS-FLOW FILTRATION USING FORCE BALANCE ANALYSIS, Chemical engineering journal and the biochemical engineering journal, 60(1-3), 1995, pp. 55-62
A model of transient cross-flow filtration in a permeable cylindrical
tube based on a force balance analysis is presented. Particle layer (o
r cake) formation on the tube is simulated. A slip boundary condition
for cross-flow is applied at the interface between the flow and the po
rous surface of the tube, which represents the hydrodynamic effect of
the porosity of the tube wall and cake on the cross-flow. For a given
particle size distribution in the fluid, the mean radius of particles
at different depths in the cake and at different positions along the t
ube is calculated. It is found that when a slip boundary condition is
applied, the critical radius of particles is reduced, resulting in a s
lower growth of cake on the surface of the tube. In the model, the thi
ckness of the cake can either increase or decrease along the axial dir
ection of the tube depending on the conditions, pressures, permeabilit
y of the tube etc. This differs from results of concentration polariza
tion models, which predict a continuously increasing particle layer.