Phase holdup characteristics in three phase fluidized beds

## Phase Holdups in Three-Phase Fluidized Beds The local bubble frequency, the local phase holdups and the local bed porosity in three-phase fluidized beds were measured. Air, water, and 250 pm glass beads were used as the gas, liquid, and solid phases. The effects of gas and liquid velocities on

AMtract--Pressure fluctuation characteristics at different axial and radial positions were investigated in a three-phase fluidized-bed Plexiglas column of 285 mm inside diameter and 4100 mm height operated with air, tap water and glass beads under different conditions. It was found that the whole co

Bubble size and nsmg velocity m freely bubblmg hqmd%as and three phase fhudrzed beds have been measured by means of movie photography Three sohds (l-6 mm), a variety of hqtuds, and au were employed as the three phases Both bubble Size and rlsmg velocity were found to Increase with gas velocity but w

A mechanistic model developed based on modification of the concept underlying the classical wake model (CWM), more specifically the generalized wake model, is presented to account for the phase holdup behavior in gas-liquid-solid fluidized beds. The CWM is characterized by two parameters, namely, th

Liquid holdups and wall-to-bed heat transfer coefficients in threephase fluidized beds with glass beads and cylindrical y-alumina particles were determined ex- perimentally. It was found that the product of heat transfer coefficient and liquid holdup in threephase fludized beds is equal to that in c