Introduction to heat transfer 6th edition pdf download
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Symbols. CHAPTER 1 Introduction. 1.1 What and How? 1.2 Physical Origins and Rate Equations. 1.3 Relationship to Thermodynamics. 1.4 Units and Dimensions. 1.5 Analysis of Heat Transfer Problems: Methodology. 1.6 Relevance of Heat Transfer. 1.7 Summary. CHAPTER 2 Introduction to Conduction. 2.1 The Conduction Rate Equation. 2.2 The Thermal Properties of Matter. 2.3 The Heat Diffusion Equation. 2.4 Boundary and Initial Conditions. 2.5 Summary. CHAPTER 3 One- Dimensional, Steady- State Conduction. 3.1 The Plane Wall. 3.2 An Alternative Conduction Analysis. 3.3 Radial Systems. 3.4 Summary of One- Dimensional Conduction Results. 3.5 Conduction with Thermal Energy Generation. 3.6 Heat Transfer from Extended Surfaces. 3.7 The Bioheat Equation. 3.8 Thermoelectric Power Generation. 3.9 Micro- and Nanoscale Conduction. 3.10 Summary. CHAPTER 4 Two- Dimensional, Steady- State Conduction. 4.1 Alternative Approaches. 4.2 The Method of Separation of Variables. 4.3 The Conduction Shape Factor and the Dimensionless Conduction Heat Rate. 4.4 Finite- Difference Equations. 4.5 Solving the Finite- Difference Equations. 4.6 Summary. CHAPTER 5 Transient Conduction. 5.1 The Lumped Capacitance Method. 5.2 Validity of the Lumped Capacitance Method. 5.3 General Lumped Capacitance Analysis. 5.4 Spatial Effects. 5.5 The Plane Wall with Convection. 5.6 Radial Systems with Convection. 5.7 The Semi- Infinite Solid. 5.8 Objects with Constant Surface Temperatures or Surface Heat Fluxes. 5.9 Periodic Heating. 5.10 Finite- Difference Methods. 5.11 Summary. CHAPTER 6 Introduction to Convection. 6.1 The Convection Boundary Layers. 6.2 Local and Average Convection Coefficients. 6.3 Laminar and Turbulent Flow. 6.4 The Boundary Layer Equations. 6.5 Boundary Layer Similarity: The Normalized Boundary Layer Equations. 6.6 Physical Interpretation of the Dimensionless Parameters. 6.7 Momentum and Heat Transfer ( Reynolds).