• Title of article

    Comparison of hydrodynamic and mass transfer performances of an emulsion loop-venturi reactor in cocurrent downflow and upflow configurations

  • Author/Authors

    Gourich، B. نويسنده , , Vial، Ch. نويسنده , , Soulami، M. Belhaj نويسنده , , Zoulalian، A. نويسنده , , Ziyad، M. نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی 1 سال 2008
  • Pages
    9
  • From page
    439
  • To page
    447
  • Abstract
    Hydrodynamic parameters (gas-induced flow rate and gas hold-up) and mass transfer characteristics (kLa, kL and a) have been investigated in a gas–liquid reactor denoted “Emulsair” in which the distributor is an emulsion-venturi and the gas phase is self-aspired by action of the kinetic energy of the liquid phase at the venturi throat. Two configurations, respectively cocurrent downflow and cocurrent upflow were compared. A chemical method involving the dispersion of a CO2–air mixture in a monoethanolamine (MEA) aqueous solution was used to measure mass transfer parameters. Experimental results showed that only the homogeneous bubbling regime prevailed in the upward configuration, while an annular regime could also be observed for cocurrent downflow at low liquid flow rate. Gas-induced flow rate and gas hold-up were usually smaller for cocurrent upflow, both at constant liquid flow rate and specific power input. The same stood for mass transfer properties. Conversely, specific power requirements were lower at constant liquid flow rate and mass transfer characteristics were enhanced at constant gas-induced flow rate for cocurrent upflow. A comparison with other gas–liquid contacting devices showed that the Emulsair reactor is a versatile tool avoiding the presence of mechanically moving parts when high and quickly adaptable dissolved gas supply is required. The cocurrent upflow configuration can be preferred when high gas flow rates are desired because the evolutions of gas-induced flow rate and mass transfer characteristics exhibit a stronger dependence on specific power input in the homogeneous bubbling regime for this configuration.
  • Keywords
    Aeration , Hydrodynamics , Mass transfer , Chemical absorption , Emulsion venturi
  • Journal title
    Chemical Engineering Journal
  • Serial Year
    2008
  • Journal title
    Chemical Engineering Journal
  • Record number

    122541