Abstract
Increasing knowledge of ternary hybrid nano-structures can be sketched to its distinctive achievement in enhancement of thermal energy as a useable in automobiles and dynamics of fuel dynamics. Ternary hybrid nanoparticles are based on three kinds of nanoparticles (aluminum oxide, titanium dioxide and silicon dioxide) along with base fluid (engine oil) in Sisko liquid over a vertical heated cylinder under action of magnetic field. Maximum transportation of heat transfer rate is occurred due to tri-hybrid nanoparticles as applicable in au-tomobiles and dynamics of fuel. Aspects of heat source and chemical reaction are observed. Similarity variables are implemented to obtain ordinary differential equations from system of partial differential equations. Finite element method is implemented to simulate numerical results. Such developing investigation regarding tri-hybrid nanomaterial have various applications which are used in packing process, hair care products, elec-trical insulators, dental products, solar cells and fuel cells. An enhancement into temperature profile causes higher values of Eckert number, Dufour parameter and heat generation number. Diffusion of mass species be-comes fast against Soret and Schmidt number but opposite trend is captured into mass species against variation in chemical reaction number. Mass diffusion rate and heat transfer rate are declined versus variation in magnetic parameter, heat source number and Dufour number.