首页|A second-generation URANS model (STRUCT-ε) applied to a generic side mirror and its impact on sound generation
A second-generation URANS model (STRUCT-ε) applied to a generic side mirror and its impact on sound generation
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NETL
NSTL
Springer Nature
A generic side mirror can be approximated to the combination of a half cylinder topped with a quarter of sphere. The flow structure in the wake of the side mirror is highly transient and the turbulence plays an important role affecting aeroacoustics through pressure fluctuation. Thus, this geometry is one of the test cases object of several numerical studies in recent years to assess the aerodynamic and aeroacoustic capabilities of the turbulence models. In this context, this study presents how the second-generation URANS closure STRUCT-ε is able to properly predict the expected stagnation, flow separation and vortex shedding phenomena. Besides, the predictive accuracy for the noise generation mechanism is evaluated by comparing the spectra of the sound pressure level measured at several static pressure sensors with the numerical results obtained with the STRUCT-ε. The response of this turbulence model has exceeded that from other hybrid methods and is in good agreement with the results from Large-Eddy Simulations or the experiments. To conclude the paper, the applicability of STRUCT-ε to construct a Spectral Proper Orthogonal Decomposition method that helps identifying the most energetic modes to appropriately capture the dominant flow structures is also introduced.
STRUCT turbulence modelGeneric Side MirrorAeroacousticSPOD
J. Munoz-Paniagua、J. Garcia、E. Latorre-lglesias
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Dpto. Ingenieria Energetica, Universidad Politecnica de Madrid, C/ Jose Gutierrez Abascal 2, Madrid 28006, Spain
Dpto. Ingenieria Audiovisual y Comunicaciones, Universidad Politecnica de Madrid, C/ Nikolas Tesla, Madrid 28031, Spain
NETL
NSTL
Springer Nature
