On Real Fluid Flow Over Yawed Circular Cylinders
Abstract
The equations for both the boundary layer and the outer potential flow over a yawed cylinder can be resolved into equations for the crosswise and spanwise velocity components. These components of the boundary layer are evaluated using Sears' method, and the separation point is found to be uninfluenced by the yaw angle. The potential-flow solutions for the spanwise and crosswise flows are added together to determine vortex patterns behind the cylinder. The approximate direct dependence of the Strouhal number upon the cosine of the yaw angle and/or the drag coefficient upon the square of the cosine, are verified. Experimental determinations of the Strouhal number and visualization of the flow pattern are consistent with the analysis.
Additional Information
Copyright © 1967 by ASME. Received August 1, 1967. Discussion: "On Real Fluid Flow Over Yawed Circular Cylinders" (Chiu, W. S., and Lienhard, J. H., 1967, ASME J. Basic Eng., 89, pp. 851–857) OPEN ACCESS A. Roshko J. Fluids Eng. 90(4), 628-629 (Dec 01, 1968) (2 pages) doi:10.1115/1.3605219 Discussion: "On Real Fluid Flow Over Yawed Circular Cylinders" (Chiu, W. S., and Lienhard, J. H., 1969, ASME J. Basic Eng., 89, pp. 851–857) OPEN ACCESS A. Roshko J. Fluids Eng. 91(1), 132 (Mar 01, 1969) (1 page) doi:10.1115/1.3571015Attached Files
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