Cocurrent upward gas-liquid fluidization of coarse solids is actuated
primarily by the motion of the liquid at relatively low gas velocities
and by the momentum of the gas at zero or low liquid velocities. Our
gas-perturbed Liquid model, which has previously been shown to give go
od predictions of the minimum liquid fluidization velocity, U-lmf at a
fixed low gas velocity, is shown here also to give reasonable agreeme
nt with U-lmf measurements for inverse three-phase fluidization at a g
iven upward gas velocity, using the coefficient in the gas hold-up equ
ation of Yang et al. [X.L. Yang, G. Wild, J.P. Euzen, Int. Chem. Eng.
33 ( 1993) 72] as an adjustable parameter. It is further shown that a
liquid-buoyed solids/liquid-perturbed gas model can predict with moder
ate success the minimum gas fluidization velocity, U-gmf, for three-ph
ase cocurrent upward fluidization of coarse solids at zero or low liqu
id velocities. (C) 1998 Elsevier Science S.A. All rights reserved.