The aerodynamic roughness of textile materials

Experiments were performed in a low-speed wind tunnel to study the effect of textile roughness on the aerodynamic flow around a circular cylinder. The circular cylinder is fitted with different fabric samples on the outer surface. For each of the fabric samples, the drag force and the mean pressure...

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Bibliographic Details
Published in:Journal of the Textile Institute 2019-05, Vol.110 (5), p.771-779
Main Authors: Hsu, X. Y., Miau, J. J., Tsai, J. H., Tsai, Z. X., Lai, Y. H., Ciou, Y. S., Shen, P. T., Chuang, P. C., Wu, C. M.
Format: Article
Language:English
Subjects:
aerodynamic roughness
Aerodynamics
Circular cylinder
Circular cylinders
critical transition
Drag
Drag coefficients
Fluid dynamics
Fluid flow
Low speed wind tunnels
Minimum drag
Reynolds number
Surface roughness
textile roughness
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Summary:Experiments were performed in a low-speed wind tunnel to study the effect of textile roughness on the aerodynamic flow around a circular cylinder. The circular cylinder is fitted with different fabric samples on the outer surface. For each of the fabric samples, the drag force and the mean pressure on the circular cylinder are measured. Based on the data obtained, the critical transition range with respect to the Reynolds number is identified for comparison. The surface roughness of each fabric sample is examined using a laser scanning microscope. The roughness is then represented by a quantity named S10z, which is defined according to ISO 25178. Consequently, based on the wind-tunnel data and the textile roughness information, further discussion is made with regard to the roughness of the textile material and the Nikuradse's sand-grain roughness, k s , which characterizes the aerodynamic roughness. Examining the empirical relationships that are proposed in the literature concerning variations of the critical Reynolds number and the minimum drag coefficient in the critical regime against the relative roughness, it is concluded that the roughness parameter S10z can be used to represent the aerodynamic roughness of the tested textile materials.
ISSN:0040-5000
1754-2340
DOI:10.1080/00405000.2018.1518636