InTech, 2011. 350 p. ISBN:9789533074047, 9533074047.
The content of this book covers several up-to-date approaches in the heat conduction theory such as inverse heat conduction problems, non-linear and non-classic heat conduction equations, coupled thermal and electromagnetic or mechanical effects and numerical methods for solving heat conduction equations as well. The book is comprised of 14 chapters divided into four sections. In the first section inverse heat conduction problems are discuss. The first two chapters of the second section are devoted to construction of analytical solutions of nonlinear heat conduction problems. In the last two chapters of this section wavelike solutions are attained.The third section is devoted to combined effects of heat conduction and electromagnetic interactions in plasmas or in pyroelectric material elastic deformations and hydrodynamics. Two chapters in the last section are dedicated to numerical methods for solving heat conduction problems.
Contents
Preface
Part 1 Inverse Heat Conduction Problems
Inverse Heat Conduction Problems
Assessment of Various Methods in Solving Inverse Heat Conduction Problems
Identifiability of Piecewise Constant Conductivity
Experimental and Numerical Studies of Evaporation Local Heat Transfer in Free Jet
Part 2 Non-Fourier and Nonlinear Heat Conduction, Time Varying Heat Sorces
Exact Travelling Wave Solutions for Generalized Forms of the Nonlinear Heat Conduction Equation
Heat Conduction Problems of Thermosensitive Solids under Complex Heat Exchange
Can a Lorentz Invariant Equation Describe Thermal Energy Propagation Problems?
Time Varying Heat Conduction in Solids
Part 3 Coupling Between Heat Transfer and Electromagnetic or Mechanical Excitations
Heat Transfer and Reconnection Diffusion in Turbulent Magnetized Plasmas
Energy Transfer in Pyroelectric Material
Steady-State Heat Transfer and Thermo-Elastic Analysis of Inhomogeneous Semi-Infinite Solids
Self-Similar Hydrodynamics with Heat Conduction
Part 4 Numerical Methods
Particle Transport Monte Carlo Method for Heat Conduction Problems
Meshless Heat Conduction Analysis by Triple-Reciprocity Boundary Element Method
The content of this book covers several up-to-date approaches in the heat conduction theory such as inverse heat conduction problems, non-linear and non-classic heat conduction equations, coupled thermal and electromagnetic or mechanical effects and numerical methods for solving heat conduction equations as well. The book is comprised of 14 chapters divided into four sections. In the first section inverse heat conduction problems are discuss. The first two chapters of the second section are devoted to construction of analytical solutions of nonlinear heat conduction problems. In the last two chapters of this section wavelike solutions are attained.The third section is devoted to combined effects of heat conduction and electromagnetic interactions in plasmas or in pyroelectric material elastic deformations and hydrodynamics. Two chapters in the last section are dedicated to numerical methods for solving heat conduction problems.
Contents
Preface
Part 1 Inverse Heat Conduction Problems
Inverse Heat Conduction Problems
Assessment of Various Methods in Solving Inverse Heat Conduction Problems
Identifiability of Piecewise Constant Conductivity
Experimental and Numerical Studies of Evaporation Local Heat Transfer in Free Jet
Part 2 Non-Fourier and Nonlinear Heat Conduction, Time Varying Heat Sorces
Exact Travelling Wave Solutions for Generalized Forms of the Nonlinear Heat Conduction Equation
Heat Conduction Problems of Thermosensitive Solids under Complex Heat Exchange
Can a Lorentz Invariant Equation Describe Thermal Energy Propagation Problems?
Time Varying Heat Conduction in Solids
Part 3 Coupling Between Heat Transfer and Electromagnetic or Mechanical Excitations
Heat Transfer and Reconnection Diffusion in Turbulent Magnetized Plasmas
Energy Transfer in Pyroelectric Material
Steady-State Heat Transfer and Thermo-Elastic Analysis of Inhomogeneous Semi-Infinite Solids
Self-Similar Hydrodynamics with Heat Conduction
Part 4 Numerical Methods
Particle Transport Monte Carlo Method for Heat Conduction Problems
Meshless Heat Conduction Analysis by Triple-Reciprocity Boundary Element Method