A theoretical model is developed to stimulate electro-kinetic transfer through per-istaltic movement in a micro-channel. The effect of variable viscosity and wall properties are considered. The long wavelength and small Reynolds number ap-proximations are supposed to simplify the governing formulas. Debye-Huckel lin-earization is also utilized. The perturbation technique is utilized to solve the gov-erning non-linear equations. The graphical outcomes are presented for velocity and streamlines.
All Science Journal Classification (ASJC) codes
- Renewable Energy, Sustainability and the Environment