• Title of article

    Computational study of film cooling from single and two staggered rows of novel semi-circular cooling holes including coolant plenum

  • Author/Authors

    Asghar، نويسنده , , F.H. and Hyder، نويسنده , , M.J.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2011
  • Pages
    6
  • From page
    329
  • To page
    334
  • Abstract
    Computational analysis of film cooling effectiveness using novel semi-circular hole shapes with streamwise inclination of 30° has been carried out. Velocity profiles from the separate coolant plenum geometry are used for inlet condition to cooling holes. Realizable k−ε turbulence model with enhanced wall treatment is used for turbulence modeling in simulations. It is observed that coolant jet heights for one row and two staggered rows of semi-circular holes are lower than that for one row of circular holes. The centerline and laterally averaged effectiveness values from a row of semi-circular holes are found almost same as that from a row of circular holes due to the less jet lift-off in semi-circular case. Semi-circular hole utilizes half of the coolant mass required for full circular hole for producing the same blowing ratio, so same level of effectiveness from semi-circular holes as that from full circular holes is great advantage. The centerline and laterally effectiveness values from two staggered rows of semi-circular holes are found much higher than a single row of full circular hole case at all streamwise regions at all blowing ratios tested. Along with centerline effectiveness and laterally averaged effectiveness values, the non-dimensional temperature profiles at (x/D, z/D) = (5.0, 0.0), non-dimensional temperature contours and velocity vectors at plane x/D = 5.0 are also presented. Counter rotating vortex pairs from row of semi-circular holes are found to be weak and of lower size as compare to that from a row of full circular holes.
  • Keywords
    Film cooling , Effectiveness , heat transfer , Fluid flow , gas turbine engines , turbine blade cooling , CFD
  • Journal title
    Energy Conversion and Management
  • Serial Year
    2011
  • Journal title
    Energy Conversion and Management
  • Record number

    2335378