On the wake dynamics of an oscillating cylinder via proper orthogonal decomposition
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hdl:2117/372814
Tipus de documentArticle
Data publicació2022-09-02
EditorMultidisciplinary Digital Publishing Institute (MDPI)
Condicions d'accésAccés obert
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Reconeixement 4.0 Internacional
ProjecteALGORITMOS DE INTELIGENCIA ARTIFICIAL Y COMPUTACION DE ALTAS PRESTACIONES PARA MODELADO DE TURBULENCIA, CONTROL DE FLUJO Y AEROACUSTICA. (AEI-PID2020-116937RB-C21)
TOWARDS REAL-TIME ACTUATION STRATEGIES FOR FLOW CONTROL AND NOISE REDUCTION IN AIRCRAFTS. (AEI-PID2020-116937RB-C22)
NextSim - CODA: Next generation of industrial aerodynamic simulation code (EC-H2020-956104)
TOWARDS REAL-TIME ACTUATION STRATEGIES FOR FLOW CONTROL AND NOISE REDUCTION IN AIRCRAFTS. (AEI-PID2020-116937RB-C22)
NextSim - CODA: Next generation of industrial aerodynamic simulation code (EC-H2020-956104)
Abstract
The coherent structures and wake dynamics of a two-degree-of-freedom vibrating cylinder with a low mass ratio at Re=5300 are investigated by means of proper orthogonal decomposition (POD) of a numerical database generated using large-eddy simulations. Two different reduced velocities of U*=3.0 and U*=5.5, which correspond with the initial and super-upper branches, are considered. This is the first time that this kind of analysis is performed in this kind of system in order to understand the role of large coherent motions on the amplification of the forces. In both branches of response, almost 1000 non-correlated in-time velocity fields have been decomposed using the snapshot method. It is seen that a large number of modes is required to represent 95% of the turbulent kinetic energy of the flow, but the first two modes contain a large percentage of the energy as they represent the wake large-scale vortex tubes. The energy dispersion of the high-order modes is attributed to the cylinder movement in the inline and cross-stream directions. Substantially different POD modes have been found in the two branches. While the first six modes resemble those observed in the static cylinder or in the initial branch of a one-degree of freedom cylinder in the initial branch, the modes not only contain information about the wake vortexes in the super-upper branch but also about the formation of the 2T vortex pattern and the Taylor–Görtler structures. It is shown that the 2T vortex pattern is formed by the interplay between the Taylor–Görtler stream-wise vortical structures and the cylinder movement and is responsible for the increase in the lift force and larger elongation in the super-upper branch.
CitacióEiximeno, B. [et al.]. On the wake dynamics of an oscillating cylinder via proper orthogonal decomposition. "Fluids", 2 Setembre 2022, vol. 7, núm. 9, article 292, p. 1-23.
ISSN2311-5521
Versió de l'editorhttps://www.mdpi.com/2311-5521/7/9/292
Col·leccions
- Departament de Física - Articles de revista [2.208]
- TUAREG - Turbulence and Aerodynamics in Mechanical and Aerospace Engineering Research Group - Articles de revista [78]
- Departament de Màquines i Motors Tèrmics - Articles de revista [472]
- Computer Applications in Science & Engineering - Articles de revista [273]
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