Sg. Bike et Dc. Prieve, ELECTROKINETIC LIFT OF A SPHERE MOVING IN SLOW SHEAR-FLOW PARALLEL TOA WALL .2. THEORY, Journal of colloid and interface science, 175(2), 1995, pp. 422-434
Any flow in the counterion cloud next to a charged interface causes co
nvection of charge. Conservation of charge requires a streaming potent
ial which exerts an electrical stress on the interface. For a sphere m
oving near a plane wall, the net electrokinetic force that is produced
can be significant at separations equal to many Debye lengths and is
always repulsive, regardless of the relative sign of charge on each of
the two surfaces. The electrokinetic lift on a sphere, freely rotatin
g and translating in linear shear flow along a plane wall, was calcula
ted numerically assuming that the zeta potentials of the sphere and th
e plate are equal and that the Debye length is sufficiently small that
the space charge density is not perturbed by flow. Compared to earlie
r models [S. G. Bike and D. C. Prieve, J. Colloid Interface Sci. 136,
95 (1990)], we have relaxed the lubrication approximation and have acc
ounted more fully for the hydrodynamics, including rotation as well as
translation. Although the predictions are in qualitative agreement wi
th all of the experimental observations in Part I, the magnitude of th
e predictions is too weak to produce the effects observed, We suspect
that the Debye length in our experiments is not small enough to allow
the perturbation of the counterion cloud caused by how to be neglected
. (C) 1995 Academic Press, Inc.