Mathematical Modeling of the Fluidized Bed Drying of Cubic Materials

A mathematical model was formulated to describe the reaction rate and the particle size distribution of solids in a Puidized bed for the chlorination of rutile by a CO/CI, mixture. The bubble assemblage model was applied to describe the gas behaLRor in the bed. The particle-size distribution in the

Their performance is tested against experimental data for different operating conditions. The importance of the different assumptions is analyzed and discussed. For the conditions analyzed in the present article the model of Rajah and Wen more closely follows the experimental trends. However, some d

Notation a air mass #ow, kg/s A air mass, kg c , c constants C N speci"c heat, kJ/kg K h enthalpy #ow, kJ/s H total enthalpy, kJ H T latent heat of evaporation, kJ/kg J evaporation rate, kg H O/kg dm s k drying rate constant, s\ ¸bed depth, m m #ow rate of dry matter, kg/s M dry matter mass, kg ¹ te

An axial dispersion model has been developed for a continuous fluid&d bed catalytic reactor with a cocurrent flow of the emulsion phase gas and the catalyst particles. The influence of some parameters on multiplicity of steady states has been reported. Several examples illustrating the transient beh