A treatise on the mhd flow and heat Transfer analysis of nanofluids over Stretching surfaces

Abstract

The present thesis entitled A Treatise on the MHD Flow and Heat Transfer newlineAnalysis of Nanofluids over Stretching Surfaces is devoted to the numerical study newlineof different substantive problems containing the magnetohydrodynamic flow and newlineheat transport analysis of incompressible electrically conducting nanofluids past newlinethe stretching surfaces under diverse physical constraints. The present thesis is newlinedivided into eight chapters, in which Chapter 1 is introductory. Chapter 2 evolves newlineas an in-depth description of entropy generation in unsteady three-dimensional newlineradiative electrically conducting hydromagnetic Casson nanofluid flow passing over newlinea vertical stretching sheet under the impact of dissipative heat transport. The newlineflow model is developed by presuming the consequences of Hall current and mixed newlineconvection. The procedure of heat and mass transport is implemented in the entity newlineof Brownian motion, thermophoresis, nonlinear thermal radiation, Joule heating, newlineand viscous dissipation. The research described in Chapter 2 is further extended newlinein Chapter 3 by considering the whole proposed model in a non-Darcy porous newlinemedium under the dominance of the binary chemical reaction incited by activation newlineenergy. Thus Chapter 3 reveals a numerical investigation of entropy generation newlineon unsteady Casson nanofluid flow in the attendance of mixed convection and newlineconvective boundary conditions. Chapter 4 is devoted to the exploration of entropy newlinegeneration of chemically reactive mixed convective Casson nanofluid flow closer to newlinethe stagnation point placed in a non-Darcy porous medium under the dominance newlineof the induced magnetic field, nonlinear thermal radiation, and activation energy. newlineThe dissipative heat transport is examined by assigning distinctive consequences newlineof viscous dissipation and Joule heating. Chapter 5 deals with a fascinating newlinesubstantive model concerning the magnetohydrodynamic rotating multiple slip newlineflow of a Carreau-Yasuda nanofluid between two parallel plates inside a non-Darcy newlineporous medium under the dominance of viscous dis