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CONCEPTS AND DEFINITIONS
DESCRIPTION OF A FLUID IN MOTION
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ammonia analogy analysis applied assumed boundary conditions boundary layer Btu/hr ft2 Chapter component considered constant control volume convective heat-transfer coefficient correlation cylinder density Determine diameter differential equation diffusion coefficient dimensional dimensional analysis dimensionless dx dy emissivity energy transfer equilibrium evaluated example expression factor film flat plate flow rate fluid flow force friction ft F ft2 F function gas phase gradient heat flux heat transfer heat transfer coefficient Henry's law incompressible insulation integral isothermal laminar flow lb mole length liquid phase mass transfer mixture molar mole fraction molecular molecules naphthalene Nusselt obtain overall parameters partial pressure pipe plot problem radiation ratio relation resistance result Reynolds number shear stress shown in Figure solution solving stagnation point steady-state stream temperature profile thermal conductivity thickness tion tower transfer coefficient tube turbulent flow variables vector velocity profile viscosity zero