Resistance effect of electric double layer on liquid flow in microchannel

The presence of the electrical double layer near a solid-liquid interface results in the electro-viscous effect on pressure-driven liquid flow through microchannels. The objective of this paper is to examine the magnitude of the additional flow resistance caused by the electrokinetic effect in micro

The effects of the electrical double layer near the solid-liquid nels, where the theory is well developed and documented (1), interface and the induced electrokinetic field on the pressureno widely accepted theories have been established for the interdriven liquid flow through a rectangular microcha

## Abstract The electric double layer (EDL) and electroosmotic flows (EOFs) constitute the theoretical foundations of microfluidics. Numerical solution is one of the effective means of analysis in microfluidics. In general, it is difficult to obtain an accurate numerical solution of complex EOFs be

## Abstract A microchannel forms a laminar flow if the fluid velocity is sufficiently slow. It is important to clarify the effect of gravity on laminar flow, since several microsystems require side‐by‐side laminar flow, which does not possess an interfacial tension. In this work, the influence of g