: This research examines the influence of electrokinetics on the peristaltic motion of a viscoelastic fluid confined inside a homogeneous geometric microstructure. This research uses formal models to examine actual fluid dynamics within a peristaltic context influenced by electro-osmosis. As part of the scientific inquiry, the fluid's flow shifts from a laboratory reference frame to a wave frame. When you apply the Debye method, it's simpler to work with electro kinetic electro osmotic potential equations. The perturbation approach handles the nonlinear governing equations like Poisson, Nernst Plank equation, Boltzmann, and momentum equations. We can discover the stream function and the difference in axial pressure by looking at how electro-kinetic forces work. Numerical integration is used to find the increase in pressure and the forces that result from friction in various regions. It is carefully and extensively examined at how various things impact flow, pumping, and blockage. This study provides a comprehensive analysis and visual representation of their effects. Electrokinetics makes the pressure differential bigger, as evidenced by the variables and . The results improve the insight into the role of electro-kinetics in these flows, and the results may be used in electrokinetic pumps, microfluidics, lab-on-a-chip applications, and biomedical fluid transport systems.
Liu et al. (Fri,) studied this question.