4.6 Article

Three-dimensional measurement of turbulent flow over a riblet surface

期刊

EXPERIMENTAL THERMAL AND FLUID SCIENCE
卷 85, 期 -, 页码 229-239

出版社

ELSEVIER SCIENCE INC
DOI: 10.1016/j.expthermflusci.2017.03.006

关键词

Turbulent channel flow; Riblet surface; Particle image velocimetry; Particle tracking velocimetry

资金

  1. Natural Sciences and Engineering Research Council of Canada (NSERC) [RGPIN 1512 GHAEMI]

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Measurement of three-dimensional (3D) turbulence over riblet surfaces is challenging due to the small size of the grooves and the requirement for measurement in the inner layer. The capability of two-dimensional (2D) and 3D particle image velocimetry (PIV) and particle tracking velocimetry (PTV) for characterization of the 3D structure of turbulent flow over a riblet surface with groove spacing of 750 gm at Re-tau = 147 (based on friction velocity and half channel height) is investigated. The 2D measurements were carried out using standard planar PIV and high-magnification long-range microscopic PTV (micro-PTV). The investigated 3D techniques include tomographic PIV (tomo-PIV) and 3D-PTV. The results are evaluated in comparison with measurement over a smooth surface and also with direct numerical simulation (DNS) of channel flow by Tsukahara et al. (2005) at Re tau = 150. The reflection of the laser light from the smooth and riblet surfaces is significantly different in spite of the wall-parallel illumination. This resulted in biased near-wall (y/H < 0.05) measurement using planar PIV. The shortcoming was fulfilled by micro-PTV which could measure the mean velocity profile within the linear viscous sublayer (2 < y(+) < 5) and showed a 6.1% reduction of the skin-friction over the riblet surface. Micro-PTV also accurately measured the location of the ( u(2)) peak and its magnitude reduction over the riblet surface compared with planar Ply. The Planar PIV measured (v(2)) peak which is further away from the wall at y/H = 0.15 and also the (uv) profile in the outer layer. The (uv) profile showed 7.4% reduction of wall shear stress over the riblet surface. 3D-PTV showed a 9.4% reduction of the (w(2)) peak and attenuation of v and w fluctuations over the riblet surface compared to the smooth surface through quadrant analysis. The three components of fluctuating vorticity measured by tomo-PIV showed negligible variation over the two surfaces due to the random noise and lack of spatial resolution. Quadrant analysis using planar Ply showed attenuation of the sweep and ejection events near the riblets, which indicates weaker streamwise vortices. Two-point correlation of PIV measurement also demonstrated increase of the coherence of the low and high-speed steaks over the riblets. (C) 2017 Published by Elsevier Inc.

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