Chemical Engineering Science, Vol.60, No.10, 2545-2555, 2005
Voidage characteristics and prediction of bed expansion in liquid-solid inverse fluidized bed
Studies on voidage fluctuations, axial voidage profile and bed expansion are carried out by measuring the local void fraction using particles of wide ranging characteristics in liquid-solid inverse fluidized bed. The quality of fluidization is elucidated by the local voidage fluctuations. The RMS voidage fluctuation depicts a maximum with respect to average bed void fraction and increases with increase in Archimedes number. The fluidization quality has been quantified using average normalized RMS voidage fluctuation in terms of Transition number. The axial void fraction is almost uniform throughout the bed except for particles with size distribution. All the literature and present experimental data on bed expansion are unified in terms of Richardson and Zaki equation using experimental terminal velocities. A new correlation is proposed for predicting the wall effect corrected experimental terminal velocities, as a substitute for standard drag equation. The bed expansion data are also predicted using the drift flux model. (c) 2005 Elsevier Ltd. All rights reserved.
Keywords:multiphase reactors;fluidization;inverse fluidized bed;hydrodynamics;voidage;terminal velocity