A flexible plate vertically clamped at the free-end leading edge was used to modulate the aerodynamic forces on a wall-mounted finite square cylinder. The side width (d) of the cylinder was 40 mm and the aspect ratio (H/d) was 5. The flexible plate was made of low-density Polyethylene, with a width of d and thickness of 0.04 mm. The length of the flexible plate ranged from d/8 to d.All measurements were carried out in a low-speed wind tunnel with the free-stream velocity (U∞) ranging from 4 to 20 m/s, corresponding to the Reynolds number ranging from 10960 to 54800. It was found that the flexible plate behaves distinctly depending on its length and has significant effects on the aerodynamic forces on the finite square cylinder. When U∞ is smaller than the critical velocity Ucr, which is closely related to the length of the plate, the plate statically deforms, having a negligible influence on the aerodynamic forces on the cylinder. When U∞ exceeds Ucr, the plate flaps periodically, resulting in a significant reduction in the aerodynamic forces. The maximum reduction in the mean drag, fluctuating drag and fluctuating lateral force reaches approximately 5%, 25% and 60%, respectively. The reduction in the aerodynamic forces is insensitive to both plate length and flapping frequency. Flow visualization and particle image velocimetry (PIV) results point out that the flapping plate induces large-scale vortices in the free-end shear flow, which suppress the formation of spanwise vortex shedding and make the upper part of the near wake symmetrical.The flapping configuration of the flexible plate and the corresponding pressure fluctuation on the This article may be downloaded for personal use only. Any other use requires prior permission of the author and AIP Publishing. This article appeared in Hanfeng Wang (王汉封), Chongyu Zhao (赵崇宇), Lingwei Zeng (曾令伟), Md. Mahbub Alam, and Hui Tang (唐辉), "Control of the flow around a finite square cylinder with a flexible plate attached at the free end", Physics of Fluids 34, 027109 (2022) and may be found at
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