Cattaneo-Christove thermal flux in Reiner Philippoff martial under action of variable Lorentz force employing tri-hybrid nanomaterial approach

Abstract

Current investigation is related to study of Reiner Philippoff liquid in the presence of ternary hybrid nanoparticles. Applications of tri-hybrid nanoparticles are observed as significant rather than study regarding hybrid nanoparticles as well as nanoparticles. A variable magnetic is applied towards a moving heated surface whereas non-Fourier's law is used to characterize the heat transfer aspects. Thermal aspect regarding heat generation as well as heat absorption is considered. The mixtures of three kinds of nanoparticles (aluminum oxide, silicon dioxide and titanium dioxide) are inserted into base fluid (Engine oil). Boundary layer approximations are utilized to obtain model related to partial differential equations. Finite element method is used to handle complex model of ODEs. It is noticed that augmenting values of λ upgrades temperature curves and drops velocity field. Maximum amount of heat energy is gained for the case of tri-hybrid nanoparticles rather than hybrid nano-structures and nanoparticles.