Radiative Heat Transfer, Second Edition
β Michael Modest
π Library
π
2003
π English
β¦ LIBER β¦
π
Advanced Heat Transfer, Second Edition
β Scribed by F. Naterer, Greg
- Publisher
- CRC Press
- Year
- 2018
- Tongue
- English
- Leaves
- 537
- Edition
- Second edition
- Category
- Library
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β¦ Synopsis
"Advanced Heat Transfer, Second Edition provides a comprehensive presentation of intermediate and advanced heat transfer, and a unified treatment including both single and multiphase systems. It provides a fresh perspective, with coverage of new emerging fields within heat transfer, such as solar energy and cooling of microelectronics. Conductive, radiative and convective modes of heat transfer are presented, as are Read more...
Abstract: "Advanced Heat Transfer, Second Edition provides a comprehensive presentation of intermediate and advanced heat transfer, and a unified treatment including both single and multiphase systems. It provides a fresh perspective, with coverage of new emerging fields within heat transfer, such as solar energy and cooling of microelectronics. Conductive, radiative and convective modes of heat transfer are presented, as are phase change modes. Using the latest solutions methods, the text is ideal for the range of engineering majors taking a second-level heat transfer course/module, which enables them to succeed in later coursework in energy systems, combustion, and chemical reaction engineering."--Provided by publisher
β¦ Table of Contents
Content: Cover
Half Title
Title Page
Copyright Page
Dedication
Contents
Preface
Author
List of Symbols
1. Introduction
1.1 Fundamental Concepts and Definitions
1.2 Conservation of Energy
1.3 Thermophysical Properties
1.3.1 Thermodynamic Properties
1.3.2 Kinematic Properties
1.3.3 Transport Properties
1.4 Heat Conduction
1.5 Convection
1.6 Thermal Radiation
1.7 Phase Change Heat Transfer
1.8 Mass Transfer
Problems
References
2. Heat Conduction
2.1 Introduction
2.2 One-Dimensional Heat Conduction
2.2.1 Heat Conduction Equation
2.2.2 Thermal Resistance 2.2.3 Fins and Extended Surfaces2.3 Multidimensional Conduction
2.3.1 Cartesian Coordinates
2.3.2 Orthogonal Curvilinear Coordinates
2.4 Method of Separation of Variables
2.5 Conformal Mapping
2.6 Transient Heat Conduction
2.6.1 Lumped Capacitance Method
2.6.2 Semi-Infinite Solid
2.6.3 Unidirectional Conduction
Problems
References
3. Convection
3.1 Introduction
3.2 Governing Equations
3.2.1 Conservation of Mass (Continuity Equation)
3.2.2 Conservation of Momentum (Navier-Stokes Equations)
3.2.3 Total Energy (First Law of Thermodynamics)
3.2.4 Mechanical Energy Equation 3.2.5 Internal Energy Equation3.2.6 Transformation to Dimensionless Variables
3.2.7 Buckingham Pi Theorem
3.3 Convection Boundary Layers
3.3.1 Boundary Layer Equations
3.3.2 Heat and Momentum Analogies
3.3.3 Evaporative Cooling
3.4 External Forced Convection
3.4.1 Scale Analysis
3.4.2 Integral Analysis
3.4.3 External Flow over a Flat Plate
3.5 Cylinder in Cross Flow
3.6 Other External Flow Configurations
3.6.1 Sphere
3.6.2 Tube Bundles
3.7 Internal Flow
3.7.1 Poiseuille Flow in Circular Tubes
3.7.2 Noncircular Ducts
3.8 Free Convection 3.8.1 Boundary Layer Flow on a Vertical Flat Plate3.8.2 Body Gravity Function Method
3.8.3 Spherical Geometries
3.8.4 Tilted Rectangular Enclosures
3.9 Introduction to Turbulence
3.9.1 Turbulence Spectrum
3.9.2 Reynolds Averaged Navier-Stokes Equations
3.9.3 Eddy Viscosity
3.9.4 Mixing Length
3.9.5 Near-Wall Flow
3.9.6 One and Two Equation Closure Models
3.10 Entropy and the Second Law
3.10.1 Formulation of Entropy Production
3.10.2 Apparent Entropy Production Difference
3.10.3 Dimensionless Entropy Production Number
Problems
References
4. Thermal Radiation
4.1 Introduction 4.2 Electromagnetic Spectrum4.3 Radiation Intensity
4.4 Blackbody Radiation
4.5 Radiative Surface Properties
4.6 Radiation Exchange between Surfaces
4.7 Thermal Radiation in Enclosures
4.7.1 Radiation Exchange at a Surface
4.7.2 Radiation Exchange between Surfaces
4.7.3 Two-Surface Enclosures
4.8 Solar Radiation
4.8.1 Components of Solar Radiation
4.8.2 Solar Angles
4.8.3 Incident Solar Radiation
4.9 Solar Collectors
4.9.1 Collector Efficiency and Heat Losses
4.9.2 Temperature Distribution
4.9.3 Heat Removal Factor
Problems
References
5. Gas-Liquid Two-Phase Flows
β¦ Subjects
Heat -- Transmission;Thermodynamics
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