Elementary Heat Transfer Analysis

PrefaceNomenclature Design Problem IChapter 1 Introduction 1.1 The Continuum Postulate 1.2 The Laws of Continuum Physics 1.3 Mechanisms of Energy Transport 1.4 Units 1.5 Design Objectives Solution to Design Problem I Problems References Design Problem IIChapter 2 Steady, One-Dimensional Heat Conduction Summary of Section 2.1 2.1 The Fundamental Energy Postulate 2.2 Steady Heat Conduction 2.3 Steady, One-Dimensional Heat Conduction in Rectangular Coordinates 2.4 Steady, One-Dimensional Heat Conduction in Cylindrical Coordinates 2.5 Steady, One-Dimensional Heat Conduction in Spherical Coordinates 2.6 Extended Surfaces - the Rectangular Fin 2.7 Order-of-Magnitude Analysis Solution to Design Problem II Problems References Design Problem IIIChapter 3 Transient Heat Conduction 3.1 The Governing Equation for Transient Heat Conduction 3.2 Transient Heat Conduction for Bodies with Negligible Internal Resistance 3.3 Transient Heat Conduction in a Semi-Infinite Slab Solution to Design Problem III Problems References Design Problem IVChapter 4 The Basic Equations of Momentum and Energy Transfer Summary of Section 4.1 4.1 Kinematics Summary of Section 4.2 4.2 The Laws of Mechanics Summary of Section 4.3 4.3 The Energy Principle Summary of Section 4.4 4.4 The Thermal Energy Equation Summary of Section 4.5 4.5 The Thermal Energy Equation for a General Flow Process 4.6 Dimensional Analysis for Forced Convection Heat Transfer Summary of Section 4.7 4.7 The Momentum and Energy Equations for Laminar Boundary Layer Flow 4.8 Exact Solution of the Laminar Boundary Layer Equations Summary of Section 4.9 4.9 Approximate Solution of the Laminar Boundary Layer Equations 4.10 Dimensional Analysis for Free Convection 4.11 Boundary Layer Analysis of Free Convection Solution to Design Problem IV Problems References Design Problem VChapter 5 Turbulent Flow 5.1 Time Averages 5.2 Time-Averaged Form of the Transport Equations 5.3 Turbulent Momentum and Energy Transport Solution to Design Problem V Problems References Design Problem VIChapter 6 Macroscopic Balances 6.1 The Macroscopic Mass Balance 6.2 The Macroscopic Momentum Balance 6.3 The Macroscopic Thermal Energy Balance 6.4 Film Heat Transfer Coefficients for Pipe Flow: Analysis Summary of Section 6.5 6.5 Dimensional Analysis for Heat Transfer to a Fluid Flowing in a Tube 6.6 Experimental Data and Empirical Correlations for Heat Transfer for Flow in Pipes 6.7 Heat Transfer to Fluids Flowing Past Flat Plates, Cylinders, and Spheres 6.8 Heat Transfer for Flow in Packed Beds and Tube Bundles 6.9 Free Convection Solution to Design Problem VI Problems References Design Problem VIIChapter 7 Thermal Radiation 7.1 Electromagnetic Radiation Summary of Section 7.2 7.2 The Photon Transport Equation 7.3 Radiant Energy Transfer at Surfaces 7.4 Black Body Radiation Summary of Section 7.5 7.5 Non-Black Bodies Solution to Design Problem VII Problems References Design Problem VIIIChapter 8 Radiant Energy Exchange 8.1 Black Body Radiant Energy Exchange 8.2 Evaluation of View Factors 8.3 Radiant Energy Exchange in an Enclosure 8.4 Radiant Energy Exchange between Gray Surfaces Solution to Design Problem VIII Problems ReferencesChapter 9 Heat Transfer with Boiling and Condensation 9.1 Pool Boiling 9.2 Dimensional Analysis for a Two-Phase System with Phase Changes 9.3 Nucleate Boiling and Critical Heat Flux Correlations 9.4 Film Boiling 9.5 Forced-Convection Boiling 9.6 Condensation 9.7 Film Condensation 9.8 Dropwise Condensation Problems ReferencesAppendix AAppendix BAuthor IndexSubject Index