I. Iliuta et al., RESIDENCE TIME DISTRIBUTION OF THE LIQUID IN 2-PHASE COCURRENT DOWNFLOW IN PACKED-BEDS - AIR NEWTONIAN AND NON-NEWTONIAN LIQUID-SYSTEMS/, Canadian journal of chemical engineering, 74(5), 1996, pp. 783-796
New data on the liquid residence time distribution for two-phase downf
low of air-Newtonian and non-Newtonian liquids through packed beds of
porous and non-porous particles are presented. The piston-dispersion-e
xchange model is used to describe the liquid flow. With porous particl
es the dynamic evolution of the tracer concentration in the particles
is described in terms of diffusion phenomena. The axial dispersion is
very important in the case of two-phase downflow of air-water (trickle
flow regime) and air-CMC systems through fixed beds with porous parti
cles, and is negligible in the case of non-porous particles. With the
porous particles, a key value is the effective diffusion coefficient o
f the tracer in the pores of the particles.