Litcius/Paper detail

Shear electroconvective instability in electrodialysis channel under extreme depletion and its scaling laws

Wei Liu, Yueting Zhou, Pengpeng Shi

2020Physical review. E34 citationsDOI

Abstract

The electroconvective instability (ECI) in an electrodialysis channel under a strong electric field is studied here. The phenomenon of ECI with extreme depletion (ECI-HD) is reported; that is, the overlapping vortices cause the extreme depletion zone to propagate in the horizontal direction. Using scaling theory and direct numerical simulation, we indicate a series of features under the ECI-HD. The decrease in ion transport rate with voltage in ECI-HD is different from the enhancement in the ECI with moderate depletion (ECI-MD), which results in a unique peak in the voltage-current curve. More importantly, we reveal that the ECI is regulated by a scaling factor consisting of the electric field, hydrodynamic coupling coefficient, and Péclet number. For the ECI-HD, the scaling factor has an opposite effect on the vortex size and overlimiting current as that on the ECI-MD. The extreme depletion zone of the ECI-HD also has an uncommon diffusion self-similar dynamics. These unique scaling laws allow one to establish the quantitative bridge between the ion concentration, electric field, and vortex size by the overlimiting current.

Topics & Concepts

Scaling lawMechanicsInstabilityElectrodialysisShear (geology)ScalingPhysicsMaterials scienceClassical mechanicsChemistryMembraneMathematicsBiochemistryGeometryComposite materialMembrane-based Ion Separation TechniquesFuel Cells and Related MaterialsNanopore and Nanochannel Transport Studies