Near-field sonic-boom prediction and analysis with hybrid grid Navier-Stokes solver

Boping Ma; Gang Wang; Jiong Ren; Zhengyin Ye; Zhijin Lei; Gecheng Zha

doi:10.2514/1.C034659

Near-field sonic-boom prediction and analysis with hybrid grid Navier-Stokes solver

Boping Ma
, Gang Wang
, Jiong Ren
, Zhengyin Ye
, Zhijin Lei
, Gecheng Zha

航空学院

科研成果: 期刊稿件 › 文章 › 同行评审

14 引用（Scopus）

摘要

A high-fidelity prediction of near-field sonic-boom signature is performed. Three benchmark cases (including an axisymmetric body, a simple delta wing-body, and a complete low-boom supersonic transport configuration) and the Lockheed Martin 1021 (LM1021) case are simulated with a hybrid grid Reynolds-averaged Navier-Stokes solver, HUNS3D, to predict near-field sonic-boom signature. Overall, the computational results agree well with the wind-tunnel experiment data. The influence of geometrical modification, grid size and distribution, spatial discretization schemes, and viscosity are studied and analyzed. The near-field signature of the LM1021 configuration propagating to the ground is analyzed by a linear wave approach.

源语言	英语
页（从-至）	1890-1904
页数	15
期刊	Journal of Aircraft
卷	55
期	5
DOI	https://doi.org/10.2514/1.C034659
出版状态	已出版 - 2018

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title = "Near-field sonic-boom prediction and analysis with hybrid grid Navier-Stokes solver",

abstract = "A high-fidelity prediction of near-field sonic-boom signature is performed. Three benchmark cases (including an axisymmetric body, a simple delta wing-body, and a complete low-boom supersonic transport configuration) and the Lockheed Martin 1021 (LM1021) case are simulated with a hybrid grid Reynolds-averaged Navier-Stokes solver, HUNS3D, to predict near-field sonic-boom signature. Overall, the computational results agree well with the wind-tunnel experiment data. The influence of geometrical modification, grid size and distribution, spatial discretization schemes, and viscosity are studied and analyzed. The near-field signature of the LM1021 configuration propagating to the ground is analyzed by a linear wave approach.",

author = "Boping Ma and Gang Wang and Jiong Ren and Zhengyin Ye and Zhijin Lei and Gecheng Zha",

note = "Publisher Copyright: Copyright {\textcopyright} 2018 by David Cleaver. Published by the American Institute of Aeronautics and Astronautics Inc.",

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T1 - Near-field sonic-boom prediction and analysis with hybrid grid Navier-Stokes solver

AU - Ma, Boping

AU - Wang, Gang

AU - Ren, Jiong

AU - Ye, Zhengyin

AU - Lei, Zhijin

AU - Zha, Gecheng

PY - 2018

Y1 - 2018

N2 - A high-fidelity prediction of near-field sonic-boom signature is performed. Three benchmark cases (including an axisymmetric body, a simple delta wing-body, and a complete low-boom supersonic transport configuration) and the Lockheed Martin 1021 (LM1021) case are simulated with a hybrid grid Reynolds-averaged Navier-Stokes solver, HUNS3D, to predict near-field sonic-boom signature. Overall, the computational results agree well with the wind-tunnel experiment data. The influence of geometrical modification, grid size and distribution, spatial discretization schemes, and viscosity are studied and analyzed. The near-field signature of the LM1021 configuration propagating to the ground is analyzed by a linear wave approach.

AB - A high-fidelity prediction of near-field sonic-boom signature is performed. Three benchmark cases (including an axisymmetric body, a simple delta wing-body, and a complete low-boom supersonic transport configuration) and the Lockheed Martin 1021 (LM1021) case are simulated with a hybrid grid Reynolds-averaged Navier-Stokes solver, HUNS3D, to predict near-field sonic-boom signature. Overall, the computational results agree well with the wind-tunnel experiment data. The influence of geometrical modification, grid size and distribution, spatial discretization schemes, and viscosity are studied and analyzed. The near-field signature of the LM1021 configuration propagating to the ground is analyzed by a linear wave approach.

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M3 - 文章

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SN - 0021-8669

VL - 55

SP - 1890

EP - 1904

JO - Journal of Aircraft

JF - Journal of Aircraft

IS - 5

ER -

Near-field sonic-boom prediction and analysis with hybrid grid Navier-Stokes solver

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