This work investigates electroviscous effects in the presence of charge-dependent slip in
steady pressure-driven laminar flow of a symmetric (1: 1) electrolyte liquid through a …

Background Micro-scale systems depict a different flow behavior from the macro-scale
systems due to more vital surface forces such as surface tension, electrical charges …

We develop a theoretical model of the electrokinetic streaming potential considering the
Navier–Stokes equation coupled with the Poisson–Boltzmann equation in order to elaborate …

The effect of an electrical double layer (EDL) on microchannel flow has been studied widely,
and a constant bulk electric conductivity is often used in calculations of flow rate or pressure …

A finite volume numerical method is used to predict electroviscous effects in steady state,
pressure-driven liquid flow in a slit-like microfluidic contraction at low Reynolds number. A …

Electroviscous effects in steady, pressure-driven flow of a symmetric 1: 1 electrolyte in a
cylindrical microfluidic 4: 1: 4 contraction–expansion at low Reynolds number are …

The aim of this investigation was to develop a basic understanding of the emulsification
process by considering simple systems such as n-hexane, n-heptane, n-decane, and …

This study has numerically investigated the charge-heterogeneity effects in the
electroviscous flow of symmetric ($1 $: $1 $) electrolyte liquid through a uniform slit …

Electroviscous effects in steady, pressure-driven flow of a Carreau shear-thinning liquid in a
cylindrical microfluidic 4: 1: 4 contraction–expansion at low Reynolds number are …

The electroviscous effects are relevant in controlling and manipulating the fluid, thermal, and
mass transport microfluidic processes. The existing research has mainly focused on the …