This book discusses the heat transfer analysis on two-dimensional steady free or mixed convection flow of Newtonian or non-Newtonian fluids over a stretching surface or Upper Horizontal Surface of a Paraboloid (uhsp) or rotating disc. This book is divided into eight chapters. The governing equations of the flow under consideration were solved with the appropriate boundary conditions by using well established numerical technique Keller Box Method or Runge-Kutta-Fehlberg method of fourth and fifth order.

The present book discusses the heat transfer analysis on two or three dimensional steady or unsteady free or mixed convection flow of Newtonian or non-Newtonian fluids over a stretching surface or spiralling disks or stretching cylinder with various physical effects. This book is divided into eight chapters. The governing equations of the flow under consideration were solved with the appropriate boundary conditions by using well established numerical technique Finite Element Method or bvp4c method.

The present book discusses the heat transfer analysis on two-dimensional steady free or mixed convection flow of some non-Newtonian fluids over a stretching surface or cone surface or rotating disk surface. This book is divided into six chapters. The governing equations of the flow under consideration were solved with the appropriate boundary conditions by using well established numerical technique bvp4c method or Runge-Kutta-Fehlberg method of fourth fifth order or Spectral Quasi Linearization method. Chapter 1 intends to analyse the buoyancy effect on two-dimensional flow of Casson fluid...

This book discusses the heat transfer analysis on two-dimensional steady free or mixed convection flow of Newtonian or non-Newtonian fluids over a stretching surface or upper horizontal surface or squeezing channel. This book is divided into eight chapters. The governing equations of the flow under consideration were solved with the appropriate boundary conditions by using well established numerical technique Keller Box Method or Runge-Kutta-Fehlberg method of fourth and fifth order.

This book discusses the heat transfer analysis on two-dimensional steady free or mixed convection flow of nanofluids or hybrid nanofluids over a stretching surface (Squeezing channels) or vertical plate. This book is divided into six chapters. The governing equations of the flow under consideration were solved with the appropriate boundary conditions by using well established numerical technique bvp4c method or spectral relaxation method or Runge-Kutta method.

The present book discusses the heat transfer analysis on two-dimensional steady free or bio convection flow of Newtonian or non-Newtonian nanofluids over a stretching surface or cone surface or cylindrical surface. This book is divided into five chapters. The governing equations of the flow under consideration were solved with the appropriate boundary conditions by using well established numerical technique bvp4c method or Runge-Kutta-Fehlberg method of fourth fifth order. Chapter 1 intends to analyse the thermal optimization in magnetic materials based on the entropy generation in a mixed...

Historically, efficiency calculations in thermal industrial applications were heavily reliant on the fundamental rule of thermodynamics. It is more reliable to assign probabilities depending on the another law of thermodynamics associated to the rate of generation of entropy and the estimate of effectiveness, than to make estimates founded on the first law of thermodynamics. In almost all thermal systems, the proportion of definite thermal effectiveness with reversible thermal effectiveness may be calculated using the second law. The second law of thermodynamics is used to quantify...

In this book, a numerical investigation has been carried out to discuss the steady, two-dimensional flow and heat transfer on micropolar nanofluid over a stretching/shrinking sheet with variable suction or injection in the presence of magnetic field and Newtonian heating. Copper (Cu), alumina (Al2O3) and titanium (TiO2) in water - based micropolar nanofluid has been considered for the present investigation. The solutions of the transformed nonlinear equations have been obtained by using Runge-Kutta-Gill procedure together with the shooting method. The results are presented graphically and...

Free or mixed convection boundary layer flow and heat transfer characteristics over a nonlinearly stretching surface or wedge surface or stretching cylinder with five different types fluid models like Ferrofluid, Prandtl - Eyring fluid, Casson fluid, Maxwell nanofluid and engine oil fluid with heat transfer are numerically investigated. This book is divided into six chapters. The governing equations of the flow under consideration were solved with the appropriate boundary conditions by using well established numerical technique spectral relaxation method.

In this book, The effect of viscous dissipation on Free convection boundary layer flow and on heat transfer characteristics over a nonlinearly stretching surface or radially heated stretching surface with five different types of non-Newtonian fluid models like Powell-Eyring Fluid, Ferro fluid, non-Newtonian Nanofluid, Maxwell Fluid and Sutter by Fluid with heat transfer are numerically investigated. The governing PDE of flow is first converted into ODE by using similarity variables, later higher order ODE is transformed into first order ODE by using suitable substitutions, after that solved...