• DocumentCode
    1871411
  • Title

    Usage of the spatial filter method for measurements of local particle velocities in multiphase flows

  • Author

    Fiedler, O. ; Kumpart, J. ; Labahn, N.

  • Author_Institution
    Dept. of Electr. Eng., Rostock Univ., Germany
  • fYear
    1996
  • fDate
    35173
  • Firstpage
    42522
  • Lastpage
    42524
  • Abstract
    The optical spatial filter method is based upon the evaluation of light distributions by grating-like structures. The velocity of objects moving through the measuring volume is obtained by determining. the center frequency of a signal delivered by a light receiver observing that volume. The most common realization of this method is laser Doppler anemometry. The measurement volume is located within an intersection of two focused laser beams; a grating results from interference. A single light receiver observes an integral over the intersection area. In our present work, the grating function is performed within the optical receiver. The active gratings simplify the optical arrangement. In order to apply the spatial filter measuring system to multiphase flows with high solid concentrations or optically dense fluids a special probe has been designed. This probe guides light to the measurement volume at its tip and ensures the visibility of particles in this volume for the light receiver. Thus, it is possible to measure the particle velocity at any position inside a gas/solid or fluid/solid flow. The measurement range can be adjusted to the process easily by changing the focal length of the used lens
  • Keywords
    CCD image sensors; anemometry; flow measurement; fluidised beds; interference filters; laser velocimetry; multiphase flow; spatial filters; CCD image sensor; DC-free output signal; active gratings; differential grating; fluid-solid flow; fluidised bed measurements; gas-solid flow; grating-like structures; laser Doppler anemometry; light distributions; local particle velocity measurement; multiphase flows; phase detection; probe design; single light receiver; spatial filter method;
  • fLanguage
    English
  • Publisher
    iet
  • Conference_Titel
    Advances in Sensors for Fluid Flow Measurement, IEE Colloquium on
  • Conference_Location
    London
  • Type

    conf

  • DOI
    10.1049/ic:19960574
  • Filename
    543307