AIChE Symposium Series, Volume 91, Issue 305American Institute of Chemical Engineers, 1972 - Chemical engineering |
Contents
Analysis of Mixing in the Sulzer SMV Mixer by Numerical Simulation | 1 |
Hydrodynamic Analysis of a TwoPhase Tubular Reactor | 20 |
A Comparison of Experimental Data and Numerical Simulation of Mixing in Forced | 39 |
Copyright | |
3 other sections not shown
Common terms and phrases
9 rev/s agitation angular average axial velocity baffles blade bottom clearance bubble column calculated capillary cells Chem Chemical Engineering comparison computational Computational Fluid Dynamics CONE SURFACE constant correlation crystallizer cytoskeleton decrease density dimensionless dissipation distance electrostatic spraying energy equation ESF curves experimental data F-actin film flow field Fluent function gas phase gas-liquid geometry grid HE-3 impeller helical ribbon hold-up impeller speeds increase inlet interfacial JUST-SUSPENDED CONDITIONS kg/m³ laminar layer liquid LVCPDF mass transfer coefficient measured Mexico State University micromixing momentum multiphase Newtonian fluids obtained parameter plane power consumption predicted pressure rad/s radial radial velocity ratio reaction reactor region residence time distributions Reynolds number Reynolds stress scalar scale-up shear rate shear stress shown in Figure simulation SMV mixer solids concentration profiles solids loading stirred vessel suspension tank turbulent flow vertical viscosity voltage volume fraction wavenumber wavenumber range