Electrokinetic and Electroconvective Effects in Ternary Electrolyte Near Ion-Selective Microsphere

Abstract: The paper presents theoretical and experimental investigations of the behavior of an electrolyte solution with three types of ions near an ion-selective microparticle with electrokinetically and pressure-driven flow. A special experimental cell has been developed for the investigations. An anion-selective spherical particle composed of ion-exchange resin is fixed in the center of the cell. An enriched region with a high salt concentration appears at the anode side of the particle when an electric field is turn… Show more

“…Georgy S. Ganchenko et al [ 1 ] presents theoretical and experimental investigations of the behavior of an electrolyte solution with three types of ions near an ion-selective microparticle with electrokinetically driven and pressure-driven flows. They found that an enriched region with a high salt concentration appears at the anode side of the ion exchange bead when an electric field is turned on.…”

“…The mathematical modeling of the relationships between the structure-transport properties of membranes and of the transfer and selectivity phenomena in an electric field or in its absence; • Commercial, experimental and modified ion exchange membranes (monopolar, bipolar, mosaic, composite, multilayer, organic, inorganic, homogeneous, heterogeneous, etc. ); Georgy S. Ganchenko et al [1] presents theoretical and experimental investigations of the behavior of an electrolyte solution with three types of ions near an ion-selective microparticle with electrokinetically driven and pressure-driven flows. They found that an enriched region with a high salt concentration appears at the anode side of the ion exchange bead when an electric field is turned on.…”

A Commemorative Special Issue in Honor of Professor Victor Nikonenko

“…Georgy S. Ganchenko et al [ 1 ] presents theoretical and experimental investigations of the behavior of an electrolyte solution with three types of ions near an ion-selective microparticle with electrokinetically driven and pressure-driven flows. They found that an enriched region with a high salt concentration appears at the anode side of the ion exchange bead when an electric field is turned on.…”

“…The mathematical modeling of the relationships between the structure-transport properties of membranes and of the transfer and selectivity phenomena in an electric field or in its absence; • Commercial, experimental and modified ion exchange membranes (monopolar, bipolar, mosaic, composite, multilayer, organic, inorganic, homogeneous, heterogeneous, etc. ); Georgy S. Ganchenko et al [1] presents theoretical and experimental investigations of the behavior of an electrolyte solution with three types of ions near an ion-selective microparticle with electrokinetically driven and pressure-driven flows. They found that an enriched region with a high salt concentration appears at the anode side of the ion exchange bead when an electric field is turned on.…”

A Commemorative Special Issue in Honor of Professor Victor Nikonenko

Electrokinetic instability of a highly charged and weakly diffusing analyte in a buffer electrolyte near an ion-selective surface