Transport Phenomena, Volume 1The market leading transport phenomena text has been revised! Authors, Bird, Stewart and Lightfoot have revised Transport Phenomena to include deeper and more extensive coverage of heat transfer, enlarged discussion of dimensional analysis, a new chapter on flow of polymers, systematic discussions of convective momentum, energy, and mass transport, and transport in two-phase systems. If this is your first look at Transport Phenomena you'll quickly learn that its balanced introduction to the subject of transport phenomena is the foundation of its long-standing success. About the Revised 2nd Edition: Since the appearance of the second edition in 2002, the authors and numerous readers have found a number of errors--some major and some minor. In the Revised 2nd Edition the authors have endeavored to correct these errors. A new ISBN has been assigned to the Revised 2nd Edition in order to more easily identify the most correct version. For Bird's corrigenda, please click here and see Transport Phenomena in the "Books" section. |
Contents
Velocity Distributions with More than | 114 |
Velocity Distributions | 152 |
41 Simultaneous Heat and Mass | 177 |
52 Application of Prandtls Mixing Length | 197 |
61 TimeSmoothed Velocity Distribution in | 231 |
Questions for Discussion | 258 |
22 Heated Wire with Specified Heat | 265 |
42 Concentration Profile in a Tubular | 271 |
520 | 582 |
43 Catalytic Oxidation of Carbon | 596 |
Questions for Discussion | 605 |
Concentration Distributions with | 612 |
Nonisothermal Mixtures | 671 |
52 Estimation of Volumetric Mass Transfer | 695 |
72 Marangoni Instability in a Falling | 702 |
Questions for Discussion | 721 |
9 3O Theory of Thermal Conductivity of Gases at | 274 |
The Equations of Change | 333 |
Vertical Plate | 346 |
Questions for Discussion | 360 |
Temperature Distributions with More | 374 |
12 2O Steady Heat Conduction in Laminar | 381 |
12 4O Boundary Layer Theory for Nonisothermal | 387 |
Concentration Distributions | 392 |
595 | 444 |
42 Heat Transfer in Laminar Forced | 454 |
Energy Transport by Radiation | 487 |
52 Radiation and FreeConvection Heat | 504 |
Mass Transport | 513 |
13 The Macroscopic Balances and Diracs | 731 |
23 2O The Macroscopic Momentum and Angular | 738 |
Other Mechanisms | 764 |
22 Pressure Diffusion and the Ultra | 772 |
24 5O Mass Transport across Selectively Permeable | 785 |
24 6O Mass Transport in Porous Media | 793 |
State Problems 739 | 805 |
Differential Operations in Curvilinear | 807 |
Appendix B Fluxes and the Equations | 843 |
Factors | 867 |
Mathematical Topics | 877 |
| 885 | |
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Common terms and phrases
assumed boundary conditions boundary layer Btu/hr Chapter Chem circular tube constant cross section cylinder density diameter differential equation diffusion dimensional analysis dimensionless groups energy balance energy equation equation of motion equations of change Example experimental expression film flow rate force friction factor function gases given gives gradient heat conduction heat flux heat transfer coefficient integration kinetic laminar flow macroscopic balances mass flow rate mechanical energy balance molar molecular molecules momentum balance Newtonian fluid Nusselt Nusselt number obtained pipe plane polymer polymeric liquids Prandtl number pressure problem quantity R. B. Bird radiation radius result Reynolds number shear Show shown in Fig solution solved sphere steady-state stream stress tank temperature profiles tensor theory thermal conductivity time-smoothed tion transport turbulent flow v₁ v₂ vector velocity distribution velocity profiles viscoelastic viscosity wall York zero