Hydrodynamic characteristics of magnetically stabilized fluidized admixture beds of iron and copper particles

## Abstract Pressure fluctuations within a bed of Type D particles (coarse sand, long grain rice, red spring wheat, 10 mm glass beads, pearl barley and whole peas) were measured at various bed heights. Analysis of the pressure fluctuation profiles leads to correlations that predict the minimum slug

Hydrodynamic characteristics were investigated in a cocurrent gas-liquid-solid fluidized bed containing a binary mixture of particles. The binary mixtures used were ten combinations of eight types of spherical particles differing in diameter and/or density. The density variation of the particles in

## Abstract The dynamics of a gas‐solid fluidized bed containing Geldart Group D particles mixed with a small proportion of Geldart Group B particles are investigated using pressure fluctuations data. Time series analysis, using a variety of nonlinear dynamics tools, shows that the slugging present

By maintaining the same operational conditions of one conventional ¯uidized-bed bioreactor (CFB) and two tapered ¯uidized-bed bioreactors (TFBs), the performance of the TFBs with taper angles of 5 °and 2.5 °were found to be superior to that of the CFB with a taper angle of 0 °. Experimental results

Prediction of hydrodynamic characteristics is a prerequisite in the design and operation of tapered and minitapered fluidized beds. This paper has been focused on the development of generalized models for prediction of minimum fluidization velocity and maximum pressure drop in gas-solid tapered and