• Title of article

    Effect of fiber lumen radius on the permeate flux of hollow fiber membrane modules Original Research Article

  • Author/Authors

    Martin Mondor، نويسنده , , Christine Moresoli، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2006
  • Pages
    6
  • From page
    365
  • To page
    370
  • Abstract
    Microfiltration of rigid spherical particle suspension in a hollow fiber module operating with inside–out flow, at a constant module inlet flow rate, was simulated using the shear-induced hydrodynamic diffusion model of Mondor and Moresoli, with consideration of the axial variation of the pressure drop through the cake layer and the membrane. The influence of the particle size and of the lumen radius, on the length-averaged permeate flux, was investigated for two typical membrane resistances. The results show that different patterns can be observed: A situation where there is negligible or no cake layer formation, a situation where the cake layer resistance is the main resistance to the permeate flux and finally a situation where both cake layer and membrane resistances are similar in magnitude. For the first situation, the length-averaged permeate flux increases with an increasing lumen radius, for the second situation the length-averaged permeate flux decreases with an increasing lumen radius and for the third situation, there exists an optimal lumen radius corresponding to a maximum length-averaged permeate flux. Finally, the current approach was compared with a similar analysis that has been performed for crossflow microfiltration by Arora and Davis.
  • Keywords
    Lumen radius , Microfiltration , Pressure drop , Shear-induced diffusion , Hollow fiber
  • Journal title
    Desalination
  • Serial Year
    2006
  • Journal title
    Desalination
  • Record number

    1109751