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Impact of transversal traveling surface waves in a non-zero pressure gradient turbulent boundary layer flow

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  • Meysonnat, Pascal S.
  • Koh, Seong Ryong
  • Roidl, Benedikt
  • Schröder, Wolfgang

Abstract

The impact of non-zero pressure gradient flow in a turbulent boundary layer flow over a surface undergoing spanwise transversal traveling waves is investigated via large-eddy simulations. While it is known that in zero-pressure gradient flow spanwise surface waves can lead to drag reduction, this question still remains open for non-zero pressure gradient flows. In the present analysis, the effect of a linear pressure gradient is investigated and compared to the zero-pressure gradient flow at a momentum thickness based Reynolds number Reθ=2000 for a constant surface wave, i.e., the wave length is λ+=500, the amplitude A+=50, and the wave speed is c+=6.25. The results show a drag reduction of about 10% for the zero-pressure gradient flow, 6% for the adverse-pressure gradient, and a drag increase of 4% for the favorable-pressure gradient flow. The analysis of the velocity profiles shows a reduced gradient at the trough region for all actuated setups. At the crest, an increased gradient is obtained. Furthermore, the viscous sublayer is extended. The streamwise turbulent intensity is reduced for all configurations compared to the non-actuated reference case at the crest. At the trough, the shift off the wall is only present for the zero-pressure gradient flow and the adverse pressure gradient flow. The hypothesis based on numerous zero-pressure gradient flow investigations of a reduced wall-normal vorticity component at the crest and trough indicating drag reduction is corroborated. That is, for the adverse-pressure gradient flow the wall-normal component distribution is lowered and for the favorable pressure gradient flow, which possesses a drag increase, the distribution at the trough is similar to that of the reference non-actuated case.

Suggested Citation

  • Meysonnat, Pascal S. & Koh, Seong Ryong & Roidl, Benedikt & Schröder, Wolfgang, 2016. "Impact of transversal traveling surface waves in a non-zero pressure gradient turbulent boundary layer flow," Applied Mathematics and Computation, Elsevier, vol. 272(P2), pages 498-507.
  • Handle: RePEc:eee:apmaco:v:272:y:2016:i:p2:p:498-507
    DOI: 10.1016/j.amc.2015.05.094
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    Cited by:

    1. Yang, Haoze & Ge, Mingwei & Abkar, Mahdi & Yang, Xiang I.A., 2022. "Large-eddy simulation study of wind turbine array above swell sea," Energy, Elsevier, vol. 256(C).

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