Numerical simulation of thin airfoil stall by using a modified DES approach

Dong Li

doi:10.1002/fld.1403

Numerical simulation of thin airfoil stall by using a modified DES approach

Dong Li

School of Materials Sience and Engineering

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

The detached-Eddy simulation (DES) method was applied to calculate pre- and post-stall aerodynamic characteristics of airfoil stall. A discrepancy between numerical and experimental data was observed near the stall regime for the airfoil NACA64_A-006 which is a thin airfoil stall type. The reason of this discrepancy and one possible way for improvement of the numerical model are discussed here. It is shown that the use of the Baldwin-Lomax model in the RANS region improves the DES results in this case. If the relevant factors (grid density, time step, turbulence model, etc.) are appropriately taken into account, the DES approach could reliably predict stall aerodynamical characteristics.

Original language	English
Pages (from-to)	325-332
Number of pages	8
Journal	International Journal for Numerical Methods in Fluids
Volume	54
Issue number	3
DOIs	https://doi.org/10.1002/fld.1403
State	Published - 30 May 2007

Keywords

Airfoil
Detached-Eddy simulation
Stall
Thin airfoil stall

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10.1002/fld.1403

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abstract = "The detached-Eddy simulation (DES) method was applied to calculate pre- and post-stall aerodynamic characteristics of airfoil stall. A discrepancy between numerical and experimental data was observed near the stall regime for the airfoil NACA64A-006 which is a thin airfoil stall type. The reason of this discrepancy and one possible way for improvement of the numerical model are discussed here. It is shown that the use of the Baldwin-Lomax model in the RANS region improves the DES results in this case. If the relevant factors (grid density, time step, turbulence model, etc.) are appropriately taken into account, the DES approach could reliably predict stall aerodynamical characteristics.",

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AB - The detached-Eddy simulation (DES) method was applied to calculate pre- and post-stall aerodynamic characteristics of airfoil stall. A discrepancy between numerical and experimental data was observed near the stall regime for the airfoil NACA64A-006 which is a thin airfoil stall type. The reason of this discrepancy and one possible way for improvement of the numerical model are discussed here. It is shown that the use of the Baldwin-Lomax model in the RANS region improves the DES results in this case. If the relevant factors (grid density, time step, turbulence model, etc.) are appropriately taken into account, the DES approach could reliably predict stall aerodynamical characteristics.

KW - Airfoil

KW - Detached-Eddy simulation

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KW - Thin airfoil stall

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Numerical simulation of thin airfoil stall by using a modified DES approach

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Keywords

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