Bridging the crucial gap between introductory and advanced studies, this volume provides a reader-friendly overview of intermediate heat transfer principles-highlighing essential information, methodologies, and many practical problems to clarify concepts.
Equips engineers with the tools to independently assess and understand complex material on the topic.
Intermediate Heat Transfer discusses numerical analysis in conduction and convection...temperature-dependent thermal conductivity......conduction through a slab from one fluid to another.steady-state heat conduction in a two-dimensional fin...truncation and round-off errors in the finite difference method....radiation intensity and blackbody....radiative exchange between two differential area elements, which are then developed into two finite areas.....and radiation with conduction and convection.
Preface
Section 1 : Fundamentals of Heat Transfer
Chapter 1 : Fundamentals of Heat Transfer
Section 2 : Conduction
Chapter 2 : The General Heat Conduction Equation
Chapter 3 : One-Dimensional Steady-State Heat Conduction
Chapter 4 : Two-Dimensional Steady and One-Dimensional Unsteady Heat Conduction
Chapter 5 : Numerical Analysis in Conduction
Section 3 : Convection
Chapter 6 : Equations for Convection
Chapter 7 : External Forced Convection
Chapter 8 : Internal Forced Convection
Chapter 9 : Natural Convection
Chapter 10 : Numerical Analysis in Convection
Section 4 : Radiation
Chapter 11 : Basic Relations of Radiation
Chapter 12 : Radiative Exchange in a Non-Participating Medium
Chapter 13 : Radiation Exchange in Long Enclosures
Chapter 14 : Radiation with Other Modes of Heat Transfer
Appendix A : Bessel Functions
Appendix B : Physical Constants and Thermophysical Properties
Index