Fundamentals of Momentum, Heat, and Mass Transfer |
Contents
CONCEPTS AND DEFINITIONS | 1 |
FLUID STATICS | 14 |
DESCRIPTION OF A FLUID IN MOTION | 30 |
31 other sections not shown
Common terms and phrases
analysis applied assumed Ax Ay boundary conditions boundary layer Btu/hr ft F Chapter component concentration considered constant continuity equation control surface control volume convective heat-transfer coefficient coordinate system cylinder density Determine diameter differential equation dimensional dimensional analysis dimensionless direction emissivity energy transfer evaluated example expression film flat plate flow rate fluid flow force ft² F function head loss heat flux heat transfer illustrated in Figure incompressible flow insulation integral inviscid laminar flow liquid mass transfer molecular molecules momentum transfer Newton's second law obtain P₁ parameters pipe plane pressure gradient problem radiation relation resistance result Reynolds number shear stress shown in Figure solution solving stagnation point steady-state streamline T₁ tank temperature profile thermal conductivity thickness tube turbulent flow v₁ variables vector velocity profile viscosity wall zero ӘР ду