Caputo-Fabrizio Fractional Model of Electro-Osmotic Flow of Walters??™-B Fluid in the Presence of Diffusion-Thermo: Exact Solution via Integral Transform

Abstract

Electrically conducted viscoelastic fluids have recently caught the attention of scientists and engineers due to their extensive applications in various sectors of research and engineering. They're utilized in cancer therapy (hyperthermia), MRI, medication administration, and magnetic refrigeration, to name a few applications (MR). The core objective of the present analysis is to develop the exact solution of the fractional convective flow of Walters B liquid. The effects of thermal radiations, magnetic field, electro-osmosis, and diffusion thermo have been considered in the present phenomenon. With the help of relative constitutive equations, the governing equations of the present phenomenon have been modeled in terms of second-order partial differential equations. To established the closed-form solution for velocity, temperature, and concentration equation, the Caputo-Fabrizio, and the Laplace transform technique have been implemented. To check the influences of various inserted parameters on fluid, graphs have been plotted. It is very important to mention that electro-osmotic and Walters??™-B fluid parameters decline the profile of velocity.?