Particle flow behavior in three-phase fluidized beds

Bubble behavior, including bubble Sauter diameter, bubble rise velocity, bubble frequency and local gas holdup in different radial and axial positions, was measured using a dual electro-conductivity probe in air-water-glass beads fluidization systems. It has been found that the bubble characteristic

Particle dispersion characteristics have been determined by using the stochastic method in a three-phase (gas-liquid solid) fluidized bed (0.152 m I D × 2.5 m high). To establish the relationship between pressure fluctuations and particle dispersion in three-phase fluidized beds, dynamic pressure fl

## 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