Numerical simulation of a delta wing at high angles of attack

Shun Kang; Yong Le Du; Ming Xu Qi

Numerical simulation of a delta wing at high angles of attack

Shun Kang^*, Yong Le Du, Ming Xu Qi

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科研成果: 期刊稿件 › 文章 › 同行评审

2 引用（Scopus）

摘要

Low speed flows around a delta wing body at high angles of attack were simulated by using the flow solver FINE^TM/HEXA which is based on all-hexahedral unstructured mesh. Simulation results show good agreement with the experimental data. The convergence is greatly accelerated with the method of agglomeration, and 3D mesh adaptation can help to capture the delicate flow features while the mesh cell number remains not very large in global. This paper also presents analysis of the flow features ahead and behind of the leading edge vortex breakdown and the topological features of section streamlines.

源语言	英语
页（从-至）	395-401
页数	7
期刊	Kongqi Donglixue Xuebao/Acta Aerodynamica Sinica
卷	23
期	4
出版状态	已出版 - 12月 2005
已对外发布	是

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Kang, S., Du, Y. L., & Qi, M. X. (2005). Numerical simulation of a delta wing at high angles of attack. Kongqi Donglixue Xuebao/Acta Aerodynamica Sinica, 23(4), 395-401.

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title = "Numerical simulation of a delta wing at high angles of attack",

abstract = "Low speed flows around a delta wing body at high angles of attack were simulated by using the flow solver FINETM/HEXA which is based on all-hexahedral unstructured mesh. Simulation results show good agreement with the experimental data. The convergence is greatly accelerated with the method of agglomeration, and 3D mesh adaptation can help to capture the delicate flow features while the mesh cell number remains not very large in global. This paper also presents analysis of the flow features ahead and behind of the leading edge vortex breakdown and the topological features of section streamlines.",

keywords = "Delta-wing, High angle of attack, Numerical simulation, Vortex, Vortex breakdown",

author = "Shun Kang and Du, {Yong Le} and Qi, {Ming Xu}",

year = "2005",

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language = "English",

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pages = "395--401",

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T1 - Numerical simulation of a delta wing at high angles of attack

AU - Kang, Shun

AU - Du, Yong Le

AU - Qi, Ming Xu

PY - 2005/12

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N2 - Low speed flows around a delta wing body at high angles of attack were simulated by using the flow solver FINETM/HEXA which is based on all-hexahedral unstructured mesh. Simulation results show good agreement with the experimental data. The convergence is greatly accelerated with the method of agglomeration, and 3D mesh adaptation can help to capture the delicate flow features while the mesh cell number remains not very large in global. This paper also presents analysis of the flow features ahead and behind of the leading edge vortex breakdown and the topological features of section streamlines.

AB - Low speed flows around a delta wing body at high angles of attack were simulated by using the flow solver FINETM/HEXA which is based on all-hexahedral unstructured mesh. Simulation results show good agreement with the experimental data. The convergence is greatly accelerated with the method of agglomeration, and 3D mesh adaptation can help to capture the delicate flow features while the mesh cell number remains not very large in global. This paper also presents analysis of the flow features ahead and behind of the leading edge vortex breakdown and the topological features of section streamlines.

KW - Delta-wing

KW - High angle of attack

KW - Numerical simulation

KW - Vortex

KW - Vortex breakdown

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AN - SCOPUS:33644961928

SN - 0258-1825

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JO - Kongqi Donglixue Xuebao/Acta Aerodynamica Sinica

JF - Kongqi Donglixue Xuebao/Acta Aerodynamica Sinica

IS - 4

ER -

Numerical simulation of a delta wing at high angles of attack

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