Article ID Journal Published Year Pages File Type
157438 Chemical Engineering Science 2008 13 Pages PDF
Abstract

Hydrodynamic similarity in the fully developed zone of co-current upward gas–solid two-phase flow systems under different operating conditions was investigated by measuring the axial profiles of pressure gradient, radial profiles of solid concentration and particle velocity in two circulating fluidized bed (CFB) risers of 15.1 and 10.5 m high, with FCC and sand particles, respectively. The experimental data obtained from this work and in the literature show that when the scaling parameter, Gs/(ρpUg)Gs/(ρpUg), is modified as FrD-0.3Gs/(ρpUg), a detailed hydrodynamic similitude of the gas–solid flow in the fully developed zone of the risers under different operating conditions can be achieved. Furthermore, the experimental results from different gas–solid flow systems also show that as long as FrD-0.3Gs/(ρpUg) remains constant, there is the same solid concentration in the fully developed zone of different CFB risers with different particles. With the same FrD-0.3Gs/(ρpUg), the local solid concentrations, the descending particle velocities, the cluster frequencies and the solid concentrations inside clusters in the fully developed zone of the risers all display the same axial and radial distribution, respectively. In other words, the empirical similarity parameter, FrD-0.3Gs/(ρpUg), appears to have incorporated the effects of operating parameters (Gs(Gs and Ug)Ug), so that, the gas–solid flow in the fully developed zone of CFB risers under those different operating conditions but having the same FrD-0.3Gs/(ρpUg) shows similar micro- and macro-hydrodynamic characteristics. The study shows that the empirical similarity parameter, FrD-0.3Gs/(ρpUg), is also independent of the upward gas–solid flow systems.

Related Topics
Physical Sciences and Engineering Chemical Engineering Chemical Engineering (General)
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