Residence time distribution of solids in multistage fluidised beds

The cross-flow model (Chem. Engng Sci. 1973 28 X5), proposed by the authors for multistage systems, is matched with the experimental data taken subsequently on the residence time distribution of solids in a multistage fluidised bed. The model parameters are related to the plate geometry and the flow

A stochastic model based on Markov chain is proposed to describe the gas residence time distribution and contact time distribution in multistage fluidised beds. The Kolmogorov-Feller equations are solved by Laplace transform and subsequent numerical inversion. The effects of flow fluctuations on the

Individual particle velocities have been measured by photographing the movement of tracer particles in a completely transparent bed of glass particles fluidised with dimethyl phthalate. The system is shown to exhibit certain important anisotropic features, but the distribution function for each of t

Ahstraet-This paper describes stimulus-response experiments with a fluidised bed of porous cracking catalyst in which two tracer gases, one adsorbable and one non-adsorbable, were used. It is shown that the moments of the response curves are strongly dependent on the degree of adsorption of the trac

The distribution of residence-times of the gas flowing through a fluidised catalyst regenerator has been determined by using helium as a tracer. Only about 5 y0 of the gas spends less than half, and about 5 y0 more than twice, the mean residence-time in the regenerator. It appears that the flow thro