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What is included with this book?
Symbols | p. xxi |
Introduction | p. 1 |
What and How? | p. 2 |
Physical Origins and Rate Equations | p. 3 |
Relationship to Thermodynamics | p. 12 |
Units and Dimensions | p. 36 |
Analysis of Heat Transfer Problems: Methodology | p. 38 |
Relevance of Heat Transfer | p. 41 |
Summary | p. 45 |
References | p. 48 |
Problems | p. 49 |
Introduction to Conduction | p. 67 |
The Conduction Rate Equation | p. 68 |
The Thermal Properties of Matter | p. 70 |
The Heat Diffusion Equation | p. 82 |
Boundary and Initial Conditions | p. 90 |
Summary | p. 94 |
References | p. 95 |
Problems | p. 95 |
One-Dimensional, Steady-State Conduction | p. 111 |
The Plane Wall | p. 112 |
An Alternative Conduction Analysis | p. 132 |
Radial Systems | p. 136 |
Summary of One-Dimensional Conduction Results | p. 142 |
Conduction with Thermal Energy Generation | p. 142 |
Heat Transfer from Extended Surfaces | p. 154 |
The Bioheat Equation | p. 178 |
Thermoelectric Power Generation | p. 182 |
Micro- and Nanoscale Conduction | p. 189 |
Summary | p. 190 |
References | p. 193 |
Problems | p. 193 |
Two-Dimensional, Steady-State Conduction | p. 229 |
Alternative Approaches | p. 230 |
The Method of Separation of Variables | p. 231 |
The Conduction Shape Factor and the Dimensionless Conduction Heat Rate | p. 235 |
Finite-Difference Equations | p. 241 |
Solving the Finite-Difference Equations | p. 250 |
Summary | p. 256 |
References | p. 257 |
Problems | p. 257 |
Transient Conduction | p. 279 |
The Lumped Capacitance Method | p. 280 |
Validity of the Lumped Capacitance Method | p. 283 |
General Lumped Capacitance Analysis | p. 287 |
Spatial Effects | p. 298 |
The Plane Wall with Convection | p. 299 |
Radial Systems with Convection | p. 303 |
The Semi-Infinite Solid | p. 310 |
Objects with Constant Surface Temperatures or Surface Heat Fluxes | p. 317 |
Periodic Heating | p. 327 |
Finite-Difference Methods | p. 330 |
Summary | p. 345 |
References | p. 346 |
Problems | p. 346 |
Introduction to Convection | p. 377 |
The Convection Boundary Layers | p. 378 |
Local and Average Convection Coefficients | p. 382 |
Laminar and Turbulent Flow | p. 389 |
The Boundary Layer Equations | p. 394 |
Boundary Layer Similarity: The Normalized Boundary Layer Equations | p. 398 |
Physical Interpretation of the Dimensionless Parameters | p. 407 |
Boundary Layer Analogies | p. 409 |
Summary | p. 417 |
References | p. 418 |
Problems | p. 419 |
External Flow | p. 433 |
The Empirical Method | p. 435 |
The Flat Plate in Parallel Flow | p. 436 |
Methodology for a Convection Calculation | p. 447 |
The Cylinder in Cross Flow | p. 455 |
The Sphere | p. 465 |
Flow Across Banks of Tubes | p. 468 |
Impinging Jets | p. 477 |
Packed Beds | p. 482 |
Summary | p. 483 |
References | p. 486 |
Problems | p. 486 |
Internal Flow | p. 517 |
Hydrodynamic Considerations | p. 518 |
Thermal Considerations | p. 523 |
The Energy Balance | p. 529 |
Laminar Flow in Circular Tubes: Thermal Analysis and Convection Correlations | p. 537 |
Convection Correlations: Turbulent Flow in Circular Tubes | p. 544 |
Convection Correlations: Noncircular Tubes and the Concentric Tube Annulus | p. 552 |
Heat Transfer Enhancement | p. 555 |
Flow in Small Channels | p. 558 |
Convection Mass Transfer | p. 563 |
Summary | p. 565 |
References | p. 568 |
Problems | p. 569 |
Free Convection | p. 593 |
Physical Considerations | p. 594 |
The Governing Equations for Laminar Boundary Layers | p. 597 |
Similarity Considerations | p. 598 |
Laminar Free Convection on a Vertical Surface | p. 599 |
The Effects of Turbulence | p. 602 |
Empirical Correlations: External Free Convection Flows | p. 604 |
Free Convection Within Parallel Plate Channels | p. 618 |
Empirical Correlations: Enclosures | p. 621 |
Combined Free and Forced Convection | p. 627 |
Convection Mass Transfer | p. 628 |
Summary | p. 629 |
References | p. 630 |
Problems | p. 631 |
Boiling and Condensation | p. 653 |
Dimensionless Parameters in Boiling and Condensation | p. 654 |
Boiling Modes | p. 655 |
Pool Boiling | p. 656 |
Pool Boiling Correlations | p. 660 |
Forced Convection Boiling | p. 669 |
Condensation: Physical Mechanisms | p. 673 |
Laminar Film Condensation on a Vertical Plate | p. 675 |
Turbulent Film Condensation | p. 679 |
Film Condensation on Radial Systems | p. 684 |
Condensation in Horizontal Tubes | p. 689 |
Dropwise Condensation | p. 690 |
Summary | p. 691 |
References | p. 691 |
Problems | p. 693 |
Heat Exchangers | p. 705 |
Heat Exchanger Types | p. 706 |
The Overall Heat Transfer Coefficient | p. 708 |
Heat Exchanger Analysis: Use of the Log Mean Temperature Difference | p. 711 |
Heat Exchanger Analysis: The Effectiveness-NTU Method | p. 722 |
Heat Exchanger Design and Performance Calculations | p. 730 |
Additional Considerations | p. 739 |
Summary | p. 747 |
References | p. 748 |
Problems | p. 748 |
Radiation: Processes and Properties | p. 767 |
Fundamental Concepts | p. 768 |
Radiation Heat Fluxes | p. 771 |
Radiation Intensity | p. 773 |
Blackbody Radiation | p. 782 |
Emission from Real Surfaces | p. 792 |
Absorption, Reflection, and Transmission by Real Surfaces | p. 801 |
Kirchhoff's Law | p. 810 |
The Gray Surface | p. 812 |
Environmental Radiation | p. 818 |
Summary | p. 826 |
References | p. 830 |
Problems | p. 830 |
Radiation Exchange Between Surfaces | p. 861 |
The View Factor | p. 862 |
Blackbody Radiation Exchange | p. 872 |
Radiation Exchange Between Opaque, Diffuse, Gray Surfaces in an Enclosure | p. 876 |
Multimode Heat Transfer | p. 893 |
Implications of the Simplifying Assumptions | p. 896 |
Radiation Exchange with Participating Media | p. 896 |
Summary | p. 901 |
References | p. 902 |
Problems | p. 903 |
Diffusion Mass Transfer | p. 933 |
Physical Origins and Rate Equations | p. 934 |
Mass Transfer in Nonstationary Media | p. 939 |
The Stationary Medium Approximation | p. 947 |
Conservation of Species for a Stationary Medium | p. 947 |
Boundary Conditions and Discontinuous Concentrations at Interfaces | p. 954 |
Mass Diffusion with Homogeneous Chemical Reactions | p. 962 |
Transient Diffusion | p. 965 |
Summary | p. 971 |
References | p. 972 |
Problems | p. 972 |
Thermophysical Properties of Matter | p. 981 |
Mathematical Relations and Functions | p. 1013 |
Thermal Conditions Associated with Uniform Energy Generation in One-Dimensional, Steady-State Systems | p. 1019 |
The Gauss-Seidel Method | p. 1025 |
The Convection Transfer Equations | p. 1027 |
Boundary Layer Equations for Turbulent Flow | p. 1031 |
An Integral Laminar Boundary Layer Solution for Parallel Flow over a Flat Plate | p. 1035 |
Index | p. 1039 |
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