Numerical Solution of Magnetohydrodynamic Flow and Heat transfer of Sisko Fluid over an Exponential Stretching Sheet

Abstract: The present work explores the numerical solution of magnetohydrodynamic (MHD) flow and heat transfer of Sisko fluid model over an exponential stretching surface. The flow is produced by the stretching of exponential surface in the presence of a uniform magnetic field. The governing equations are converted to nonlinear ordinary differential equations, using some appropriate dimensionless variables. The solution of the reduced nonlinear ordinary differential equations are found by numerical technique using bvp4c… Show more

“…Based on these assumptions, equations for conservation of mass, momentum, thermal energy, and nanoparticle concentration for Sisko nanofluids can be stated as [12,18,20] e boundary conditions are at y 0: u 0; v 0; T T w ; C C w ,…”

“…It may be assessed as a broad view of Newtonian and power-law uids. Dadhich and Jain [20] examined some important characteristics of the uid ow over an exponential surface in the Sisko model. e Falkner-Skan wedge ow of a power-law uid through a porous material was studied by several researchers, including Kim [21].…”

Insights of Heat and Mass Transfer in Magneto-Mixed Convective Sisko Nanofluid over a Wedge with Viscous Dissipation

“…Based on these assumptions, equations for conservation of mass, momentum, thermal energy, and nanoparticle concentration for Sisko nanofluids can be stated as [12,18,20] e boundary conditions are at y 0: u 0; v 0; T T w ; C C w ,…”

“…It may be assessed as a broad view of Newtonian and power-law uids. Dadhich and Jain [20] examined some important characteristics of the uid ow over an exponential surface in the Sisko model. e Falkner-Skan wedge ow of a power-law uid through a porous material was studied by several researchers, including Kim [21].…”

Insights of Heat and Mass Transfer in Magneto-Mixed Convective Sisko Nanofluid over a Wedge with Viscous Dissipation

A revised Jaffrey-Hamel problem with enhanced heat transport attributes considering the Darcy-Forchheimer flow of partially ionized Power-law nanofluid