期刊
JOURNAL OF FLUID MECHANICS
卷 701, 期 -, 页码 333-351出版社
CAMBRIDGE UNIV PRESS
DOI: 10.1017/jfm.2012.161
关键词
colloids; low-Reynolds-number flows
资金
- Israel Science Foundation [114/09]
We analyse particle electrophoresis in the thin-double-layer limit for asymptotically large applied electric fields. Specifically, we consider fields scaling as delta(-1), delta (<< 1) being the dimensionless Debye thickness. The dominant advection associated with the intense flow mandates a uniform salt concentration in the electro-neutral bulk. The O(delta(-1)) large tangential fields in the diffuse part of the double layer give rise to a novel 'surface conduction' mechanism at moderate zeta potentials, where the Dukhin number is vanishingly small. The ensuing O(1) electric current emerging from the double layer modifies the bulk electric field; the comparable O(1) transverse salt flux, on the other hand, is incompatible with the nil diffusive fluxes at the homogeneous bulk. This contradiction is resolved by identifying the emergence of a diffusive boundary layer of O(delta(1/2)) thickness, resembling thermal boundary layers at large-Reynolds-number flows. The modified electric field within the bulk gives rise to an irrotational flow, resembling those in moderate-field electrophoresis. At leading order, the particle electrophoretic velocity is provided by Smoluchowski's formula, describing linear variation with applied field.
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