2022
DOI: 10.1017/jfm.2022.339
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Aspect ratio-dependent hysteresis response of a heavy inverted flag

Abstract: The bistable fluttering response of heavy inverted flags with different aspect ratios ( $AR$ ) is investigated to determine how the vortical structures affect the intermittent vibration response of the flag. A heavy inverted flag in a uniform flow may exhibit several response modes; amongst them are three major modes that occur over an extended velocity range: stationary, large-scale periodic oscillation and one-sided deflected modes. Significant hysteretic bistability is observed at … Show more

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Cited by 4 publications
(8 citation statements)
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“…Even if our experiments have been arranged in such a way that the end effects of the cylinder on the film motion are excluded (see figure 1 in § 2), the spanwise variations in the phase and strength of the vortex shedding are inescapable (Szepessy & Bearman 1992). If so, the aspect ratio of the film (Ojo et al 2022) and the spanwise correlation length of the vortex shedding (Zdravkovich 1996;West & Apelt 1997) will be two crucial parameters. A more thorough investigation into the deeper mechanism requires synchronous measurement of the three-dimensional flow field, the deformation field as well as the dynamic force, which represents one of the challenges in current experimental fluid mechanics.…”
Section: Discussionmentioning
confidence: 99%
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“…Even if our experiments have been arranged in such a way that the end effects of the cylinder on the film motion are excluded (see figure 1 in § 2), the spanwise variations in the phase and strength of the vortex shedding are inescapable (Szepessy & Bearman 1992). If so, the aspect ratio of the film (Ojo et al 2022) and the spanwise correlation length of the vortex shedding (Zdravkovich 1996;West & Apelt 1997) will be two crucial parameters. A more thorough investigation into the deeper mechanism requires synchronous measurement of the three-dimensional flow field, the deformation field as well as the dynamic force, which represents one of the challenges in current experimental fluid mechanics.…”
Section: Discussionmentioning
confidence: 99%
“…As such, the accumulation of elastic energy in this portion is contingent upon the consumption of its own kinetic energy, akin to that of an inverted film. It should be mentioned that the elastic energy accumulation of the inverted film not only consumes its own kinetic energy, but continuously gains energy from the flow field (Kim et al 2013;Ojo et al 2022). In contrast, the elastic energy accumulation in the middle region is mainly ascribed to the mutual interactions between the film and the cylinder vortices, V C and V ⊕ C , as evidenced by the evolution of the LCS in figure 18.…”
Section: Evolution Of Energy On the Filmmentioning
confidence: 98%
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“…The dynamics of an inverted flag in both uniform and perturbed flow conditions is highly dependent on U * [23]. Here, the non-dimensional velocity is varied from 1.41 ⩽ U * ⩽ 2.58, while the separation distance is kept constant at representative values of S = 0.4L, 0.8L, 1.4L.…”
Section: Effect Of U * On the Flag's Dynamicsmentioning
confidence: 99%
“…exhibit multiple response modes due to their interaction with flow [4,22] and their response is highly correlated with the leading-edge vortex separation dynamics [23]. When placed in the wake of a bluff body, the interaction of the bluff body wake and the flag initiates distinct response modes.…”
Section: Introductionmentioning
confidence: 99%