Effect of surface-active agents on the phase holdups of three-phase fluidized beds

Experiments were performed at ambient temperature and pressure in a 127-mm inner diameter column with air, 1.2 and 5-mm spherical glass beads and various aqueous solutions containing surface-active agents. Perforated plates were employed as the gas and liquid distributors. Gas and liquid velocities...

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Bibliographic Details
Published inChemical engineering and processing Vol. 45; no. 9; pp. 764 - 772
Main Authors Dargar, Puneet, Macchi, Arturo
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 01.09.2006
Elsevier
Subjects
Applied sciences
Bubble column
Chemical engineering
Exact sciences and technology
Fluidization
Holdups
Hydrodynamics
Hydrodynamics of contact apparatus
Reactors
Surfactants
Three-phase fluidization
Hydrodynamics
Holdups
Three-phase fluidization
Surfactants
Bubble column
Gas holdup
Perforated tray
Perforated plate
Foaming
Glass
Fluidization
Operating conditions
Flow regime
Foam
Surface tension
Bubble flow
Aqueous solution
Reactor
Fluidized bed
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Summary:Experiments were performed at ambient temperature and pressure in a 127-mm inner diameter column with air, 1.2 and 5-mm spherical glass beads and various aqueous solutions containing surface-active agents. Perforated plates were employed as the gas and liquid distributors. Gas and liquid velocities were chosen to span the dispersed and coalesced bubble flow regimes. The dynamic surface tension behaviour of a specific liquid solution correlated to its ability to form stable foam. However, the magnitude of the impact of surface-active agents on phase holdups depended primarily on the operating conditions. The presence of surface-active agents increased the gas holdups in a bubble column by an average of 41%. In a three-phase fluidized bed, surface-active agents increased the gas holdups by an average of 37% while the liquid and solids holdups were reduced by an average of 6.2 and 4.5%, respectively. There is still no reliable means to estimate the gas holdups of three-phase fluidized beds subject to foaming. More work is required to quantify the interaction effects of surface-active agents and operating conditions on the hydrodynamic features of multiphase reactors.
ISSN:0255-2701
1873-3204
DOI:10.1016/j.cep.2006.03.004