Title of article
An Experimental Investigation of Forces on a Textured Cylinder at Subcritical Reynolds Numbers
Author/Authors
Karampour, H Griffith School of Engineering and Built Environment - Griffith University - Gold Coast Campus - QLD 4222 - Australia , Wu, Z Griffith School of Engineering and Built Environment - Griffith University - Gold Coast Campus - QLD 4222 - Australia , Mason, M. S School of Civil Engineering - The University of Queensland - St. Lucia - QLD 4072 - Australia
Pages
7
From page
1787
To page
1793
Abstract
Spanwise deviations from a perfect circular cross-section, affect the aerodynamics and hydrodynamics of
cylindrical structures. In this study the ability of a novel wavy cylinder, the textured cylinder, to reduce applied drag and lift forces is investigated experimentally. Three different configurations of the proposed textured geometry, as well as a bare cylinder and a cylinder with helical strakes are 3D printed and tested in an open
circuit wind tunnel. Tests are conducted at Reynolds numbers from 3.5×104 to 8.0×104. Results show that the
time-averaged drag and fluctuating lift forces on the textured cylinder can be 20% and 15% lower than those
of a bare cylinder, respectively. Amongst the tested cylinders, the straked cylinder exhibited the lowest
fluctuating lift forces. However, the lowest time-averaged drag forces were measured on the textured cylinder,
Tex30, through the range of Reynolds numbers tested. The Strouhal number of the Tex30 was found to be between those of the bare and straked cylinders.
Keywords
Textured cylinder , Aerodynamic forces , Strouhal number , Wavy cylinder
Journal title
Journal of Applied Fluid Mechanics (JAFM)
Serial Year
2021
Record number
2662797
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