Title of article
Electro-convective versus electroosmotic instability in concentration polarization
Author/Authors
Rubinstein، نويسنده , , Isaak and Zaltzman، نويسنده , , Boris، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
11
From page
190
To page
200
Abstract
Electro-convection is reviewed as a mechanism of mixing in the diffusion layer of a strong electrolyte adjacent to a charge-selective solid, such as an ion exchange (electrodialysis) membrane or an electrode. Two types of electro-convection in strong electrolytes may be distinguished: bulk electro-convection, due to the action of the electric field upon the residual space charge of a quasi-electro-neutral bulk solution, and convection induced by electroosmotic slip, due to electric forces acting in the thin electric double layer of either quasi-equilibrium or non-equilibrium type near the solid/liquid interface. According to recent studies, the latter appears to be the likely source of mixing in the diffusion layer, leading to ‘over-limiting’ conductance in electrodialysis. Electro-convection near a planar uniform charge selective solid/liquid interface sets on as a result of hydrodynamic instability of one-dimensional steady state electric conduction through such an interface. We compare the results of linear stability analysis obtained for instabilities of this kind appearing in the full electro-convective and limiting non-equilibrium electroosmotic formulations. The short- and long-wave aspects of these instabilities are discussed along with the wave number selection principles.
Journal title
Advances in Colloid and Interface Science
Serial Year
2007
Journal title
Advances in Colloid and Interface Science
Record number
1402148
Link To Document