Dynamics of an inverted flexible plate in a uniform flow

The dynamics of an inverted flexible plate with a free leading-edge and a fixed trailing-edge in a uniform flow has been studied numerically by an immersed boundary-lattice Boltzmann method for the fluid flow and a finite element method for the plate deformation. Mechanisms underlying the dynamics o...

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Bibliographic Details
Published in:Physics of fluids (1994) 2015-07, Vol.27 (7)
Main Authors: Tang, Chao, Liu, Nan-Sheng, Lu, Xi-Yun
Format: Article
Language:English
Subjects:
Angle of attack
Aspect ratio
Computational fluid dynamics
Deformation mechanisms
Finite element method
Flapping
Fluid dynamics
Fluid flow
Kinetic energy
Mathematical analysis
Physics
Plates (structural members)
Reynolds number
Stiffness
Strain
Uniform flow
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Summary:The dynamics of an inverted flexible plate with a free leading-edge and a fixed trailing-edge in a uniform flow has been studied numerically by an immersed boundary-lattice Boltzmann method for the fluid flow and a finite element method for the plate deformation. Mechanisms underlying the dynamics of the fluid-plate system are elucidated systematically. A series of distinct states of the plate deformation and motion are identified and can be described as straight, flapping, deflected, deflected-flapping, and asymmetric-flapping states. Which state to occur depends mainly on the bending stiffness and aspect ratio of the plate. The forces exerted on the plate and the elastic strain energy of the plate are analyzed. It is found that the flapping state can improve the conversion of fluid kinetic energy to elastic strain energy. In addition, the effects of the mass ratio of the plate and the fluid, the Reynolds number, and the angle of attack of the uniform flow on the dynamics and the elastic strain energy of flexible plate are also investigated in detail. The vortical structures around the plate are given to discuss the connection of the evolution of vortices with the plate deformation and motion. The results obtained in this study provide physical insight into the understanding of the mechanisms on the dynamics of the fluid-plate system.
ISSN:1070-6631
1089-7666
DOI:10.1063/1.4923281