MHD FLOW AND HEAT TRANSFER OF A TERNARY HYBRID FERROFLUID OVER A STRETCHING/SHRINKING POROUS SHEET WITH THE EFFECTS OF BROWNIAN DIFFUSION AND THERMOPHORESIS

Abstract

H 2O. Brownian motion and thermophoresis are integrated into the ternary hybrid ferrofluid model. Similarity transformations convert the governing partial differential equations into ordinary differential equations. The boundary value problem (bvp) is used in the Maple computer software to solve transformed equations numerically. The computed results for relevant parameters such as velocity profile, temperature profile, skin friction coefficient, local Nusselt and Sherwood numbers are visually shown and explained in detail.- CoFe2O4 - Fe3O4 -In this paper, the magnetohydrodynamic (MHD) flow of a ternary hybrid ferrofluid over a stretching/shrinking porous sheet in the presence of radiation and mass transpiration is studied. The ternary hybrid ferrofluid is formed by suspending three types of nanoparticles for enhancing heat transfer. The nanoparticles of copper (Cu), iron oxide (Fe3O4), and cobalt ferrite (CoFe2O4) are suspended in water in this study, producing in the combination Cu.