• Title of article

    Design parameters for rotating cylindrical filtration

  • Author/Authors

    John A. Schwille، نويسنده , , Deepanjan Mitra، نويسنده , , Richard M. Lueptow، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2002
  • Pages
    13
  • From page
    53
  • To page
    65
  • Abstract
    Rotating cylindrical filtration displays significantly reduced plugging of filter pores and build-up of a cake layer, but the number and range of parameters that can be adjusted complicates the design of these devices. Twelve individual parameters were investigated experimentally by measuring the build-up of particles on the rotating cylindrical filter after a fixed time of operation. The build-up of particles on the filter depends on the rotational speed, the radial filtrate flow, the particle size and the gap width. Other parameters, such as suspension concentration and total flow rate are less important. Of the four mechanisms present in rotating filters to reduce pore plugging and cake build-up, axial shear, rotational shear, centrifugal sedimentation and vortical motion, the evidence suggests rotational shear is the dominant mechanism, although the other mechanisms still play minor roles. The ratio of the shear force acting parallel to the filter surface on a particle to the Stokes drag acting normal to the filter surface on the particle due to the difference between particle motion and filtrate flow can be used as a non-dimensional parameter that predicts the degree of particle build-up on the filter surface for a wide variety of filtration conditions.
  • Keywords
    Fouling , Dynamic filtration , Microfiltration
  • Journal title
    Journal of Membrane Science
  • Serial Year
    2002
  • Journal title
    Journal of Membrane Science
  • Record number

    1350637