Abstract
A specially constructed hot-wire probe was used to obtain very near-wall velocity measurements in both a fully developed turbulent channel flow and flat plate boundary layer flow. The near-wall hot-wire probe, having been calibrated in a specially constructed laminar flow calibration rig, was used to measure the mean streamwise velocity profile, distributions of streamwise and spanwise intensities of turbulence and turbulence kinetic energy k in the viscous sublayer and beyond; these distributions compare very favorably with available DNS results obtained for channel flow. While low Reynolds number effects were clearly evident for the channel flow, these effects are much less distinct for the boundary layer flow. By assuming the dissipating range of eddy sizes to be statistically isotropic and the validity of Taylor's hypothesis, the dissipation rate ɛ iso in the very near-wall viscous sublayer region and beyond was determined for both the channel and boundary layer flows. It was found that if the convective velocity U c in Taylor's hypothesis was assumed to be equal to the mean velocity U¯ at the point of measurement, the value of (ɛ+ iso)1 thus obtained agrees well with that of (ɛ +)DNS for y + ≥ 80 for channel flow; this suggests the validity of assuming U c=U¯ and local isotropy for large values of y +. However, if U c was assumed to be 10.6u τ , the value of (ɛ+ iso)2 thus obtained was found to compare reasonably well with the distribution of (ɛ+ iso)DNS for y +≤ 15.
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Received: 31 May 1999/Accepted: 20 December 1999
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Khoo, B., Chew, Y. & Teo, C. On near-wall hot-wire measurements. Experiments in Fluids 29, 448–460 (2000). https://doi.org/10.1007/s003480000112
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DOI: https://doi.org/10.1007/s003480000112