Design of Liquid—Liquid—Solid Fluidized-Bed Bioreactors

## Abstract A dynamic model of the liquid fluidized bed containing two or more solid particle species of different size and density is presented. The model incorporates the particle mass transport mechanisms of the convection and the dispersion. The movement of the upper interface of the bed subjec

## Abstract A proper characterization of the hydrodynamics of binary‐solid liquid fluidized beds is an important first step in its effective utilization. Of particular importance in this connection is to be able to predict the unique hydrodynamic phenomenon of the layer‐inversion, which is associat

## Abstract The bed expansion characteristics of two‐phase inverse fluidization were studied. Twelve different spheres with diameters from 1.31 to 7.24 mm and densities between 75 and 930 kg/m^3^ were fluidized with water. The experimental lne‐lnU curves were parallel to those predicted by the mode

## Abstract BACKGROUND: Both laboratory‐scale and pilot‐scale liquid–solid circulating fluidized bed (LSCFB) bioreactors have demonstrated excellent biological nutrient removal (BNR) from municipal wastewater. In this study, a model for the LSCFB for biological nutrient removal has been developed,