Effects of Electroosmosis on Peristaltic Flow of Eyring-Powell Fluid through a Non-Uniform channel: An Application to Blood flow

This study examines the electroosmotic effects of a non-uniform passage during the peristaltic phase of an Eyring-Powell model fluid. Understanding how the channel walls affect fluid flow issues in biofluid dynamics is the main goal of the study. Integrating the convective boundary conditions into the series perturbation paradigm is the main focus of the work, assuming low Reynolds number and a long wavelength. For temperature, velocity, stream function and concentration, the governing non-linear equations have their solutions found. MATLAB R2023a software is used to demonstrate a graphical presentation of the study's improvements in accessibility through parametric assessment. The research yields important insights, particularly regarding natural phenomena like blood flow in small arteries, which might be utilized for intervention or management in dysfunctional circumstances. As the analysis demonstrates, different viscosities also have a big role in boosting the temperature profiles, and electroosmotic parameters have a major impact on the fluid properties.