Abstract
Experimental results are reported and discussed for a rotating cylinder drag balance designed to predict drag reduction by surfaces like riblets. The apparatus functions by measuring the torque applied to the inner cylinder by a fluid, such as water, that is set in motion by the controlled rotation of the outer cylinder. The instrument was validated by calibration for laminar flow and comparison of turbulent flow results to the those of G. I. Taylor. The ability to predict drag reduction was demonstrated by testing 114 m symmetric sawtooth riblets, which gave a maximum reduction of about 5% and an overall drag reduction range of 5<S +<20, both of which are in excellent comparison to results reported in literature. The most suitable conditions for testing riblets are to apply the riblets only to the inner cylinder surface and to use cylinders for which the curvature of the flow is minimized.
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Received: 2 February 1999/Accepted: 1 October 1999
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Hall, T., Joseph, D. Rotating cylinder drag balance with application to riblets. Experiments in Fluids 29, 215–227 (2000). https://doi.org/10.1007/s003489900075
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DOI: https://doi.org/10.1007/s003489900075