• Title of article

    Detection of oversized material in a hydrotransport slurry pipe using a non-invasive acoustic method

  • Author/Authors

    Albion، نويسنده , , Katherine and Briens، نويسنده , , Lauren and Briens، نويسنده , , Cedric and Berruti، نويسنده , , Franco and McDougall، نويسنده , , Steven، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2009
  • Pages
    11
  • From page
    361
  • To page
    371
  • Abstract
    Hydrotransport of solids through a pipe is a cost and energy efficient method to transport solid material over long distances. A problem in the hydrotransport of fine particle slurries is the presence of large material in the line, such as rocks or metal fragments broken off shovels. These rocks may enter the slurry line through breaks in screens. This large material can damage booster pumps and downstream equipment resulting in repairs and loss of production. jective of this study was to develop a reliable, non-intrusive, and on-line method for the detection of large material in the system. Acoustic detection methods are ideal since they are non-invasive. Any probe located within the pipe would be unlikely to survive the harsh conditions present within the line. ry of sand and water was transported in a 0.05 m diameter stainless steel pipeline consisting of inclined, vertical and horizontal pipe sections. Rocks of different sizes, shapes and materials were added to the slurry. Acoustic measurements were recorded at different locations along the pipeline. Analysis of signals recorded by microphones attached to the pipe wall allows for the reliable detection of all rocks, with no false positives.
  • Keywords
    Signal analysis , Hydrotransport , process monitoring , Acoustics
  • Journal title
    Powder Technology
  • Serial Year
    2009
  • Journal title
    Powder Technology
  • Record number

    1698377