Numerical study of flow-induced vibrations of cylinders under the action of nonlinear energy sinks (NESs)

An isolated two-dimensional circular cylinder with two linear degrees of freedom, parallel and perpendicular to the free-stream direction, and owning a nonlinear energy sink (NES) is investigated by fluid–structure interaction (FSI) simulations to assess vortex-induced vibrations (VIV) at moderate R...

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Vydané v:	Nonlinear dynamics Ročník 94; číslo 2; s. 925 - 957
Hlavní autori:	Dongyang, Chen, Abbas, Laith K., Guoping, Wang, Xiaoting, Rui, Marzocca, Pier
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	Dordrecht Springer Netherlands 01.10.2018 Springer Nature B.V
Predmet:	Automotive Engineering Circular cylinders Classical Mechanics Computational fluid dynamics Computer simulation Control Cylinder liners Damping Degrees of freedom Dynamic response Dynamical Systems Engineering Flow generated vibrations Fluid flow Mathematical models Mechanical Engineering Original Paper Parallel degrees of freedom Reduced order models Stiffness Uniform flow Vibration Vortex shedding Vortex-induced vibrations Nonlinear energy sink Vortex-induced vibrations Fluid–structure interaction Van der Pol oscillator Wake-induced vibrations Passive suppression device
ISSN:	0924-090X, 1573-269X
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Abstract	An isolated two-dimensional circular cylinder with two linear degrees of freedom, parallel and perpendicular to the free-stream direction, and owning a nonlinear energy sink (NES) is investigated by fluid–structure interaction (FSI) simulations to assess vortex-induced vibrations (VIV) at moderate Reynolds numbers. Subsequently, the wake-induced vibration (WIV) of a pair of identical cylinders under the action of two NES in a tandem arrangement and in a proximity–wake interference regime is explored using the same approach. The NES parameters (mass, nonlinear stiffness and damping) are investigated to determine their effects on the dynamic response of a single degree of freedom (in transverse flow direction) coupled system by a reduced-order model based on an experimentally validated van der Pol oscillator. The CFD model coupled with FSI method is also validated against VIV experimental data for an isolated cylinder in a uniform flow. The study is aimed to investigate the effect of the passive suppression NES device on VIV and WIV. The amplitude response, trajectories of cylinder motion and temporal evolutions of vortex shedding are obtained by conducting a series of numerical simulations. It is found that placing a tuned NES in the cylinders can provide good suppression effect; however, the effectiveness is function of the reduced velocity.
AbstractList	An isolated two-dimensional circular cylinder with two linear degrees of freedom, parallel and perpendicular to the free-stream direction, and owning a nonlinear energy sink (NES) is investigated by fluid–structure interaction (FSI) simulations to assess vortex-induced vibrations (VIV) at moderate Reynolds numbers. Subsequently, the wake-induced vibration (WIV) of a pair of identical cylinders under the action of two NES in a tandem arrangement and in a proximity–wake interference regime is explored using the same approach. The NES parameters (mass, nonlinear stiffness and damping) are investigated to determine their effects on the dynamic response of a single degree of freedom (in transverse flow direction) coupled system by a reduced-order model based on an experimentally validated van der Pol oscillator. The CFD model coupled with FSI method is also validated against VIV experimental data for an isolated cylinder in a uniform flow. The study is aimed to investigate the effect of the passive suppression NES device on VIV and WIV. The amplitude response, trajectories of cylinder motion and temporal evolutions of vortex shedding are obtained by conducting a series of numerical simulations. It is found that placing a tuned NES in the cylinders can provide good suppression effect; however, the effectiveness is function of the reduced velocity.
Author	Abbas, Laith K. Marzocca, Pier Guoping, Wang Xiaoting, Rui Dongyang, Chen
Author_xml	– sequence: 1 givenname: Chen surname: Dongyang fullname: Dongyang, Chen organization: Institute of Launch Dynamics, Nanjing University of Science and Technology, School of Engineering, Aerospace Engineering and Aviation Discipline, RMIT University – sequence: 2 givenname: Laith K. surname: Abbas fullname: Abbas, Laith K. email: laithabbass@yahoo.com organization: Institute of Launch Dynamics, Nanjing University of Science and Technology – sequence: 3 givenname: Wang surname: Guoping fullname: Guoping, Wang organization: Institute of Launch Dynamics, Nanjing University of Science and Technology – sequence: 4 givenname: Rui surname: Xiaoting fullname: Xiaoting, Rui organization: Institute of Launch Dynamics, Nanjing University of Science and Technology – sequence: 5 givenname: Pier surname: Marzocca fullname: Marzocca, Pier organization: School of Engineering, Aerospace Engineering and Aviation Discipline, RMIT University
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SubjectTerms	Automotive Engineering Circular cylinders Classical Mechanics Computational fluid dynamics Computer simulation Control Cylinder liners Damping Degrees of freedom Dynamic response Dynamical Systems Engineering Flow generated vibrations Fluid flow Mathematical models Mechanical Engineering Original Paper Parallel degrees of freedom Reduced order models Stiffness Uniform flow Vibration Vortex shedding Vortex-induced vibrations
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Title	Numerical study of flow-induced vibrations of cylinders under the action of nonlinear energy sinks (NESs)
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