Hydrodynamics, electroosmosis, and electrokinetic instability in imperfect electric membranes


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Abstract

For the first time within the framework of the Nernst−Planck−Poisson−Stokes set, the behavior of an electrolytic solution in imperfect electric membranes is investigated numerically. The distributions of the electric potential, fluid velocities, charge density, and other values in the zones of the depleted and enriched solution and a porous membrane for all current modes are obtained: prelimit, limit, and superlimit. The dependence of selectivity of a membrane on the density of its space charge is obtained. The boundaries of superlimit modes, when the one-dimensional solution loses stability, are found and replaced by the twodimensional solution with the formation of microvortices in both the desalination and enriched-solution zones. The basic types of current arising at supercritical currents are investigated.

About the authors

V. A. Kiriy

Finance University under the Government of the Russian Federation; Kuban State University

Author for correspondence.
Email: vladimir@kiriy.ru
Russian Federation, Krasnodar, 350051; Krasnodar, 350040

V. S. Shelistov

Finance University under the Government of the Russian Federation

Email: vladimir@kiriy.ru
Russian Federation, Krasnodar, 350051

E. N. Kalaidin

Finance University under the Government of the Russian Federation; Kuban State University

Email: vladimir@kiriy.ru
Russian Federation, Krasnodar, 350051; Krasnodar, 350040

E. A. Demekhin

Finance University under the Government of the Russian Federation; Research Institute of Mechanics

Email: vladimir@kiriy.ru
Russian Federation, Krasnodar, 350051; Moscow, 117192

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