Electro-Osmotic Flow of MHD Jeffrey Fluid in a Rotating Microchannel by Peristalsis: Thermal Analysis

In this study, we examine the rotating and heat transfer on peristaltic electro-osmatic flow of a Jeffery fluid in an asymmetric microchannel with slip impact. A pressure gradient anal axially imposed electric field work together to impact electro-osmotic (EOF). Mathematical modeling is imported by employing low Reynolds number long wavelength approximation. The exact solution has been simplified for stream function, temperature, velocity distributions. effects diverse egress quantities gush virtue are exhibited discussed help graphs. shear stress trapping phenomena have investigated. characterization results resolved governing ingrained appropriate parameters table. Our findings can be summarized as follows: (i) Debye length strong influence conducting viscous EOF non-uniform micro-channel. (ii) temperature enhanced through elevated values rotation parameter EOF. (iii) oscillatory behavior transmission rate increases magnitude larger Finally, there good agreement between current those that already published. This model applies study chemical fraternization/separation procedures bio-microfluidic devices resolution diagnosis.