Simultaneous orthogonal-plane particle image velocimetry measurements in a turbulent boundary layer

W. T. HAMBLETON; N. HUTCHINS; IVAN MARUSIC

doi:10.1017/S0022112006000292

Abstract

Stereoscopic particle image velocimetry (PIV) measurements were taken simultaneously in streamwise–spanwise and streamwise–wall-normal planes in a zero-pressure-gradient turbulent boundary layer over a flat plate. Polarization techniques were employed to allow PIV to be taken in both planes simultaneously. Image preprocessing techniques were used to improve the quality of data near the line of intersection of the planes. Linear stochastic estimation was performed on these data, revealing the streamwise, spanwise, and wall-normal extent of swirl events primarily near the top of the log region of the boundary layer. Swirl events with rotation consistent with the mean vorticity are found to have a large footprint in the lower limit of the log region whereas swirls with opposite-signed vorticity are found to have little influence lower in the boundary layer. These long-time-averaged statistics contain features that are consistent with the hairpin packet model (or its kinematic equivalent). This model also seems to provide a reasonable description of many instantaneous events involving large-scale coherence, where long regions of streamwise momentum deficit are surrounded by vortex cores.

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Simultaneous orthogonal-plane particle image velocimetry measurements in a turbulent boundary layer

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Simultaneous orthogonal-plane particle image velocimetry measurements in a turbulent boundary layer

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