Thermophysical Study of Oldroyd-B Hybrid Nanofluid with Sinusoidal Conditions and Permeability: A Prabhakar Fractional Approach

The functional implications of substances, such as retardation and relaxation, can be studied for magnetized diffusion coefficient based on the relative increase throughout magnetization is a well-known realization. In this context, we have explored Oldroyd-B hybrid nanofluid flowing through pored oscillating plate along with an inclined applied magnetics effect. slipping effect sinusoidal heating conditions are also supposed to under consideration. An innovative current classification fractional derivatives, i.e., Prabhakar derivative Laplace transform, implemented result transformed leading equations. graphical representation described understand physical implementation all effecting parameters. order justify physically examine considered problem, some limiting cases, rate heat mass transfer, friction factors analyzed. As result, concluded that thermal enhancement improved more progressively interaction silver-water-based suspension compared copper-nanoparticles mixed nanofluid. Furthermore, It has examined impact both parameters, time relaxation ?1 ?2 opposite momentum field.