Author: Blackburn H.M. Melbourne W.H.
Publisher: Academic Press
ISSN: 0889-9746
Source: Journal of Fluids and Structures, Vol.11, Iss.4, 1997-05, pp. : 413-431
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Abstract
Measurements of sectional lift forces are presented that were obtained using a circular cylinder with forced cross-flow oscillation in smooth and turbulent wind tunnel flows at a Reynolds number of 1·6x10 5 . Maximum oscillation amplitudes were 3% of diameter. By employing variable-frequency forcing, the dimensionless oscillation frequency could be altered while the Reynolds number was held constant. With six transducers set out equispaced along the cylinder span it was possible to estimate spanwise correlation of lift based on simultaneous measurements, in addition to sectional lift coefficients. Decomposition of lift forces into components correlated and uncorrelated with cylinder motion indicated that it was reasonable to assume that the uncorrelated component was unaffected by cylinder motion and that the observed increase in spanwise correlation of lift could be accounted for by the motion-correlated component. For smooth flow, examination of the magnitude and phase angle of lift force showed that lock-in was an intermittent occurrence at the amplitudes of motion employed. Motion-correlated forces were found to be less significant in turbulent flows, with changes in oscillation frequencies producing little observable effect.
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