A simple model for the description of flow behavior in three phase (solid-l
iquid-gas) airlift reactors (TPAL) was developed. Based on an energy balanc
e, which takes into account the dissipation of energy in the phase interfac
es, the model predicts liquid and solid circulation velocities, gas holdup
and solid distribution within the reactor. It describes the three flow mode
s in relation to the solid behavior as the gas flow increases, namely, pack
ed, fluidized and circulating beds and establishes the boundary conditions
between the flow modes with accuracy. The hysteresis effect widely describe
d in literature is also predicted, the initial solid holdup distribution (e
psilon(s)(00)) is the main parameter to describe this effect. Experimental
data obtained by various authors for reactors of different shape (internal
or external loops) and size (from 0.020 to 284 m(3)), different solid parti
cles (sizes from 0.1 to 3 mm and solid densities from 2550 to 3700 kg/m(3))
and different experimental conditions are simulated satisfactorily. (C) 19
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