Analytical solution of two-fluid electro-osmotic flows of viscoelastic fluids

[Display omitted] ► Analytical solution for two-fluid stratified EO flow of viscoelastic fluids. ► The effects of fluid rheology, viscosity ratio, fluid holdup and interfacial zeta potential are analyzed. ► Higher volumetric flow rates are achieved in EOF pumping when the conducting fluid is viscoelastic. This paper presents an analytical model that describes a two-fluid electro-osmotic flow of stratified fluids with Newtonian or viscoelastic rheological behavior. This is the principle of operation of an electro-osmotic two-fluid pump as proposed by Brask et al. [Tech. Proc. Nanotech., 1, 190–193, 2003], in which an electrically non-conducting fluid is transported by the interfacial dragging viscous force of a conducting fluid that is driven by electro-osmosis. The electric potential in the conducting fluid and the analytical steady flow solution of the two-fluid electro-osmotic stratified flow in a planar microchannel are presented by assuming a planar interface between the two immiscible fluids with Newtonian or viscoelastic rheological behavior. The effects of fluid rheology, shear viscosity ratio, holdup and interfacial zeta potential are analyzed to show the viability of this technique, where an enhancement of the flow rate is observed as the shear-thinning effects are increased.