Fundamentals of Momentum, Heat, and Mass TransferWiley, 20 jan 1984 - 832 pagina's An integrated treatment of transfer processes including momentum transfer of fluid mechanics, energy/heat transfer, and mass transfer/diffusion. Designed for undergraduates taking transport phenomena or transfer and rate process courses. Changes in this edition include: material updates, the additon of problems in both number and variety, additional use of numerical analysis for problem-solving, and computer applications of subject matter. |
Veelvoorkomende woorden en zinsdelen
analogy analysis applies Ax Ay boiling boundary conditions boundary layer Btu/hr ft F Chapter concentration condensation considered constant control volume convective heat-transfer coefficient coordinates correlations cylinder density Determine diameter differential equation diffusion coefficient dimensional dimensional analysis dimensionless emissivity energy transfer evaluated example expression film fins fluid flow force ft² F function gases gradient heat exchanger heat flux heat transfer coefficient horizontal insulation integral isotherms laminar flow liquid mass transfer molar molecular molecules Nusselt obtain parameters pipe plane wall plot Prandtl Prandtl number pressure problem properties radiation ratio relation resistance result Reynolds analogy Reynolds number shear stress shown in Figure solution solving steady-state stream surface temperature T₁ T₂ temperature temperature difference temperature profile thermal conductivity thickness tube turbulent flow vapor variables velocity profile vertical view factor viscosity W/m²K zero