Abstract
The effect of heat transfer on Couple-Stress fluid’s unsteady peristaltic motion is theoretically studied in this paper using applied electric and magnetic fields. Thermal analysis is carried out in the presence of fluid friction-induced viscous dissipation and Joule heating. The potential distribution is examined using the Debye-Huckel linearization approximation. The governing equation’s complexity is decreased using the lubrication theory. The dynamics of electroosmosis and peristaltic pumping are examined for the velocity field, temperature field, pressure distribution, and streamlines. The effects of electrical double layer (EDL) on flow, pumping, and thermal properties have been calculated. Numerical computations have been done to provide the graphical depiction and to explain the model’s outcomes. This model can be used to design a variety of microfluidic gadgets and intelligent micropumps for combining chemicals and ionic liquids.
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