Heat Transfer: Evolution, Design and PerformanceJohn Wiley & Sons, 2022 M04 5 - 608 pages HEAT TRANSFER Provides authoritative coverage of the fundamentals of heat transfer, written by one of the most cited authors in all of Engineering Heat Transfer presents the fundamentals of the generation, use, conversion, and exchange of heat between physical systems. A pioneer in establishing heat transfer as a pillar of the modern thermal sciences, Professor Adrian Bejan presents the fundamental concepts and problem-solving methods of the discipline, predicts the evolution of heat transfer configurations, the principles of thermodynamics, and more. Building upon his classic 1993 book Heat Transfer, the author maintains his straightforward scientific approach to teaching essential developments such as Fourier conduction, fins, boundary layer theory, duct flow, scale analysis, and the structure of turbulence. In this new volume, Bejan explores topics and research developments that have emerged during the past decade, including the designing of convective flow and heat and mass transfer, the crucial relationship between configuration and performance, and new populations of configurations such as tapered ducts, plates with multi-scale features, and dendritic fins. Heat Transfer: Evolution, Design and Performance:
Heat Transfer: Evolution, Design and Performance is essential reading for undergraduate and graduate students in mechanical and chemical engineering, and for all engineers, physicists, biologists, and earth scientists. |
Contents
3 | 14 |
1 | 24 |
Unidirectional Steady Conduction | 37 |
2 | 48 |
1 | 51 |
3 | 60 |
Multidirectional Steady Conduction | 85 |
Heat Flux Boundary Conditions | 92 |
Other External Flows | 215 |
Turbulent Jets | 221 |
References | 227 |
Internal Forced Convection | 245 |
Heat Transfer in Laminar Flow | 252 |
Isothermal Wall | 258 |
Natural Convection | 291 |
Isothermal Wall | 299 |
Cylindrical Coordinates | 98 |
Evolutionary Design | 104 |
Rewards from Freedom | 111 |
4 | 121 |
5 | 123 |
Constant Heat Flux Surface | 128 |
1 | 131 |
Cylinder | 138 |
3 | 140 |
Multidirectional Conduction | 148 |
2 | 152 |
Moving Heat Sources | 156 |
5 | 162 |
External Forced Convection | 177 |
Energy Equation | 185 |
Thermal Boundary Layer | 195 |
Turbulent Boundary Layer | 202 |
Wall Friction | 208 |
Other External Flows | 305 |
Other Immersed Bodies | 311 |
Enclosures Heated from the Side | 317 |
Inclined Enclosures | 323 |
Miniaturization | 329 |
Convection with Change of Phase | 343 |
Turbulent Film on Vertical Surface | 350 |
Dropwise and DirectContact Condensation | 359 |
Nucleate Boiling and Peak Heat Flux | 365 |
Heat Exchangers | 387 |
Radiation | 447 |
Appendix A Constants and Conversion Factors | 521 |
Appendix B Properties of Solids | 527 |
Properties of Liquids | 541 |
Properties of Gases | 551 |
k Appendix E Mathematical Formulas 557 | 565 |