• Title of article

    Drag Reduction Performance of Triangular (V-groove) Riblets with Different Adjacent Height Ratios

  • Author/Authors

    Liu ، Z. M. Beijing Key Laboratory of Advanced Manufacturing Technology - Faculty of Materials and Manufacturing - Beijing University of Technology , Chen ، R. Faculty of Materials and Manufacturing - Beijing University of Technology , Tang ، Z. Q. School of Mechanical Engineering - Tianjin University , Tian ، Q. Faculty of Materials and Manufacturing - Beijing University of Technology , Fang ، Y. C. Faculty of Materials and Manufacturing - Beijing University of Technology , Li ، P. J. Faculty of Materials and Manufacturing - Beijing University of Technology , Li ، L. Faculty of Materials and Manufacturing - Beijing University of Technology , Pang ، Y. Beijing Key Laboratory of Advanced Manufacturing Technology - Faculty of Materials and Manufacturing - Beijing University of Technology

  • From page
    671
  • To page
    684
  • Abstract
    Surface structure is used to interfere with the turbulent boundary layer in the groove drag reduction, which is important to the endurance and stability of high-speed and ultrahigh-speed aircraft. The size of the groove structure directly affects the flow in the turbulent boundary layer and changes the drag reduction effect. The drag reduction characteristics of bionic triangular (V-groove) riblets were studied through Particle Image Velocimetry (PIV) experiment and Finite Volume Method (FVM) simulation. Triangular riblets with adjacent height ratios (AHR) of 1.00, 1.74, and 3.02 were considered in this research, and the influence of these groove structures on the flow characteristics of turbulence near the wall is compared with those of the smooth plates. The distribution of time-averaged velocity, turbulence intensity, and coherent structures of turbulent boundary layer on the riblet surface is analyzed to document the effects of the geometric parameters of various groove structures on drag reduction rates. Results showed that the best drag reduction is obtained using the V-groove riblets with adjacent height ratio of 1:1 under the low free-stream velocity. The results can be used as a reference for further optimization of drag reduction structures with surface grooves.
  • Keywords
    Turbulent channel flow , Riblet surface , Adjacent height ratio , PIV
  • Journal title
    Journal of Applied Fluid Mechanics (JAFM)
  • Journal title
    Journal of Applied Fluid Mechanics (JAFM)
  • Record number

    2738880