Nn. Dutta et Vg. Pangarkar, CRITICAL IMPELLER SPEED FOR SOLID SUSPENSION IN MULTI-IMPELLER 3-PHASE AGITATED CONTACTORS, Canadian journal of chemical engineering, 73(3), 1995, pp. 273-283
The critical impeller speed for solid suspension in gas-liquid-solid s
ystems has been measured in multi-impeller agitated contractors of 0.1
5 and 0.30 m and ID and 1.0 m height. Three types of impellers, i.e. d
isk turbine (DT), pitched turbine downflow (PTD) and pitched turbine u
pflow (PTU) were used. Air, deionised water and sand particles were us
ed as the gas, liquid and solid phases, respectively. The superficial
gas velocity and solid loading were varied in the ranges 0-15 mm/s and
0.5 to 10% w/w, respectively. The effects of impeller type and its di
ameter, particle size and loading and gas flow rate were studied. Some
measurements of gas hold-up and mixing time were also made in order t
o get some insight of the hydrodynamic behaviour of the reactor. The c
ritical impeller speed for solid suspension in the presence of gas (n(
jsg)) was found to be more than that in the absence of the gas and the
increase of critical speed correlated well with the gas flow rate. Th
e influence of particle-liquid parameters on solid suspension speed in
the gassed system was similar to but relatively weaker than that in t
he ungassed condition.