GIANT DISPERSION OF DIELECTRIC PERMEABILITY OF THE DISPERSE SYSTEM IN AN ALTERNATING ELECTRIC FIELD. OVERVIEW OF APPROACHES TAKING INTO ACCOUNT PRESENCE OF A DOUBLE LAYER
Автор: V. E. Kurochkin, B. P. Sharfarets
Журнал: Научное приборостроение @nauchnoe-priborostroenie
Рубрика: Физика приборостроения
Статья в выпуске: 4 т.30, 2020 года.
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This review analyzes two approaches to describing the polarization of disperse systems when an alternating electric field is applied in the general case. Polarization models of Trukhan and Dukhin – Shilov are considered. As a result of this review, it follows that the most preferable model, which makes it possible to significantly increase the rate of electrophoresis of the dispersed phase, is the Dukhin – Shilov model, in the implementation of which a giant dispersion of the dielectric constant of a heterogeneous dispersed system may appear if the condition of a thin double layer around non-conducting dispersed particles in a conducting dispersive medium.
The dielectric constant, giant dispersion of the dielectric constant, electrophoresis, thin double layer approximation, heterogeneous environment, Maxwell—Wagner polarization, dispersion system
Короткий адрес: https://sciup.org/142224613
IDR: 142224613 | DOI: 10.18358/np-30-4-i3245