ECCOMAS 2024

A Class of Scalloped Riblets for Turbulent Drag Reduction

  • Wang, Yiqian (Soochow University)
  • Fu, Song (Tsinghua University)

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Riblets are small protruding surfaces aligned the direction of the flow, and are one of the most well-known passive turbulent drag reduction methods. We consider a class scalloped riblet, the shape of which was constructed by smoothly connecting two third-order polynomials and was not as sharp in the tip as corresponding triangular riblets with the same height-width ratio. Numerical simulations were then performed for turbulent channel flow with and without riblet control at various configurations. The drag reduction rates are obtained and compared. It is found that the drag reduction rate of a selected scalloped riblet is larger than the corresponding drag reduction rates of corresponding triangular riblets. Mean flow fields and second-order statistics of velocity, vorticity, and Liutex, a quantity introduced to represent vortices, were reported. It was found that streamwise vortices just above the riblet tips, which have a length scale of 200 − 300 in wall units, have an important influence on those statistics and thus the turbulence generation cycle and the drag reduction mechanism. Pre-multiplied energy spectra of streamwise velocity and the Liutex component were reported to reveal the length scales in the flow field. Instantaneous vortical flow fields visualized by the Liutex method were provided with emphases on the streamwise vortices just above riblet tips. It should be noted that the class of scalloped riblets is suitable for investigations on the influences of curvatures at the tip and the valley of the riblet in future.