Fluid Flow Analysis |
Contents
FUNDAMENTALS | 1 |
FLOW OF COMPRESSIBLE FLUIDS | 39 |
OPEN CHANNEL FLOW | 132 |
Copyright | |
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angle applied assumed boundary layer calculate channel Chezy coefficient complex potential constant continuity equation cosh critical depth curve cylinder density diameter downstream energy equation example flat plate fluid force friction ft/sec Hence hydraulic jump incompressible integral isentropic laminar lbf/in² M₁ Mach number mass flow mean velocity momentum equation Navier-Stokes equations Newtonian fluid non-Newtonian fluids normal nozzle obtained P₁ P₂ pipe potential function Prandtl equation radius ratio Reynolds number shear stress shock wave sin² slope stagnation stagnation points steady flow stream streamlines subsonic Substituting supersonic surface T₂ temperature throat upstream vector velocity components velocity distribution viscosity vortex vortices weir width y₁ zero ди др ду дх