Bubbles, Drops, and Particles |
Contents
Chapter | 1 |
Shapes of Rigid and Fluid Particles | 16 |
Slow Viscous Flow Past Spheres | 30 |
Copyright | |
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AIChE amplitude angle approximation aspect ratio axis axisymmetric boundary conditions boundary layer bubble or drop bubbles and drops calculated Chapter Chem concentration constant contaminated continuous phase convection correlation creeping flow curve cylinders defined by Eq deformation diameter dimensionless disks dispersed phase drag coefficient drops and bubbles drops in air ellipsoidal equations external resistance factor Fluid Mech fluid particles fluid spheres form drag function given by Eq Hamielec Heat Mass Transfer heat transfer increases interfacial internal circulation liquid Masliyah maximum Nusselt number obtained occurs orifice Ph.D Phys potential flow predicted pressure Pruppacher range rear regime Reynolds number rigid sphere rotation secondary motion Sherwood number shown in Fig shows skirts slug spherical spherical-cap stagnant stagnation point steady Stokes flow stream function surface tension surface-active surfactant Table terminal velocity Thesis transfer factor transfer rate turbulence Univ viscosity vortex vorticity water drops