Heat Transfer Analysis in Reiner-Philippoff Fluidvia Finite Element Approach

In this article, we discuss the increase in Reiner-Philippoff liquid thermal energy and mass transferthrough a perpendicular plane in the presence of the magnetizing field. Characterizations regardingmass dissipation and heat energy are improved using non-Fourier's analysis with the existence of athermal source. Three kinds of nanoparticles, i.e., titanium dioxide, silicon dioxide, and aluminumoxide, are introduced in engine lubricants to create thermal energy. Darcy-Forchheimer analysis isadopted to examine the effects of flow and thermal energy. Furthermore, the Dufour and Soret effectsare also discussed. A developing model is converted into a system of ordinary differential equations usingsimilarity variables and solved using the finite element method. It is observed that the heat energy of thefluid increased as opposed to a higher rate of time relaxation number. Moreover, the fluid concentrationdeclined as opposed to changes in the Schmidt number and chemical reaction parameters