Constructive interference in a network of elastically-bounded flapping plates

Olivieri, Stefano; Boragno, C.; Verzicco, Roberto; Mazzino, Andrea

doi:10.1016/j.jfluidstructs.2019.07.009

Cited by 4 publications

(6 citation statements)

References 37 publications

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“…Instead, when the dynamics is fully governed by the resulting fluid-structure interaction (e.g., the flapping flag), the second method, which is based on a moving-least-squares (MLS) interpolation, is more effective in minimising the spurious numerical oscillations 54 . Both methods have been extensively validated and used for multiphase and biological FSI problems 10,49,52,53,55,56 .…”

Section: B Numerical Techniquementioning

confidence: 99%

“…Fluid-structure interaction (FSI) is ubiquitous and governs many physical problems with relevance in natural processes [1][2][3] and engineering applications [4][5][6][7][8][9][10] . A formidable and recently increased effort has been devoted to understand these problems in more detail and, in particular, characterise the aeroelastic instabilities leading to self-sustained, flow-induced oscillations [11][12][13][14] .…”

Section: Introductionmentioning

confidence: 99%

“…In FSI, the effect of turbulence can be crucial on triggering (or suppressing) the onset of aeroelastic instabilities and more generally altering the characteristics of the resulting flow-induced oscillations, thus affecting, e.g., the potential for energy harvesting 10,11,41 . In particular, here we focus on the three-dimensional flapping dynamics of a flexible flag, a problem attracting significant attention both from the fundamental and applied perspective 5,6,13,[42][43][44][45][46] , however so far substantially limited to the situation where the incoming flow is laminar.…”

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confidence: 99%

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Direct numerical simulation of flapping flags in grid-induced turbulence

et al. 2021

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FIG. 1. Fluid-structure interaction between a flexible flag (green) and the turbulent flow generated using a passive grid (gray). Snapshot from DNS where the instantaneous fluid flow is shown by means of streamlines in the domain and contours onto a longitudinal plane (normal to the transverse direction), both coloured (from black to red) by the fluid velocity magnitude. The flag is hinged at its leading edge while the other edges are free to move.

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Section: B Numerical Techniquementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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confidence: 99%

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Direct numerical simulation of flapping flags in grid-induced turbulence

et al. 2021

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“…Moreover, decreasing distance between foils enhanced both thrust and efficiency [10][11][12]. Furthermore, by diminishing flow separation, extra thrust and efficiency will be generated if the foils in biplane arrangement are equipped with an auto-pitch mechanism along with an elastic pitching axis [13,14].…”

Section: Introductionmentioning

confidence: 99%

A new phenomenon in interference effect on catamaran dynamic response

Honaryar

Ghiasi

Liu

2021

International Journal of Mechanical Sciences

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Interference effect between catamaran demi-hulls has been considered as an adverse fluid-solid interaction; the narrower separation distance between the two hulls, the greater drag force acts upon the catamaran. However, this study is aimed at introducing a novel phenomenon contrasting outcome in semi-planing and planing regimes. As speed and accordingly the Froude number increase the catamaran transits across different modes, free surface profile becomes complicated and so does the interference effect as well as the prediction of catamaran dynamic response. The situation will be even more complex if demi-hull separation narrows where nonlinearity in interference effect is more pronounced. So, free-running tests in six degrees of freedom as well as obtaining fluid flow characteristics using computational fluid dynamics were conducted for a high-speed catamaran vehicle with asymmetric non-prismatic demi-hulls to tackle the problem. The results of catamaran dynamic response reveal that not only is drag reduced substantially up to 15%, but also trim angle diminishes by 30% as hulls separation distance decreases in semi-planing and planing modes. In other words, with increasing speed, and decreasing trim angle by 2.3 o , the current method achieved the goal of consequently reducing the risk of porpoising instability, without the increase of delivered power.

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“…The interaction between elastic objects and fluid flows plays an essential role in a variety of both fundamental and applied problems, ranging from biological (e.g., mucus-cilia or red blood cells hydrodynamics) 1-3 and environmental processes (e.g., flow in flexible canopies and plant reconfiguration) [4][5][6][7] to engineering applications (e.g., energy harvesting and flow control) [8][9][10][11][12][13][14] . Despite the great advancement of research in these fields, the available knowledge on such nontrivial phenomena mostly concerns the situation where the flow is laminar [15][16][17][18] , whereas the interaction between elastic objects and turbulence has started to be understood only more recently [19][20][21][22][23] .…”

mentioning

confidence: 99%

Universal flapping states of elastic fibers in modulated turbulence

Olivieri,

Mazzino,

Rosti

2021

Preprint

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Constructive interference in a network of elastically-bounded flapping plates

Cited by 4 publications

References 37 publications

Direct numerical simulation of flapping flags in grid-induced turbulence

Direct numerical simulation of flapping flags in grid-induced turbulence

A new phenomenon in interference effect on catamaran dynamic response

Universal flapping states of elastic fibers in modulated turbulence

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