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Numerical simulation of airfoil vibrations induced by turbulent flow

✍ Scribed by Lenka Dubcová; Miloslav Feistauer; Jaroslav Horáček; Petr Sváček

Publisher
Elsevier Science
Year
2008
Tongue
English
Weight
315 KB
Volume
218
Category
Article
ISSN
0377-0427

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✦ Synopsis

The subject of this paper is the numerical simulation of the interaction between two-dimensional incompressible viscous flow and a vibrating airfoil. A solid elastically supported airfoil with two degrees of freedom, which can rotate around the elastic axis and oscillate in the vertical direction, is considered. The numerical simulation consists of the stabilized finite element solution of the Reynolds averaged Navier-Stokes equations with algebraic models of turbulence, coupled with the system of ordinary differential equations describing the airfoil motion. Since the computational domain is time dependent and the grid is moving, the Arbitrary Lagrangian-Eulerian (ALE) method is used. The developed method was applied to the simulation of flow-induced airfoil vibrations.

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Several authors have proposed studying randomly forced turbulent flows (e.g., E. A. Novikov, Soviet Physics JETP, 20(5), 1290 1965). More recently, theoretical investigations (e.g., renormalization group) have focused on white-noise forced Navier-Stokes equations (V. Yakhot and S. A. Orszag, J. Sci.