Hypersonic air inlet performance based on engineering transition model

YANG Hui; LU Wenrui; LI Hongyang; YUE Lianjie

doi:10.13700/j.bh.1001-5965.2017.0516

Volume 44 Issue 7

Jul. 2018

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Journal of Beijing University of Aeronautics and Astronautics > 2018 > 44(7): 1408-1418.

YANG Hui, LU Wenrui, LI Hongyang, et al. Hypersonic air inlet performance based on engineering transition model[J]. Journal of Beijing University of Aeronautics and Astronautics, 2018, 44(7): 1408-1418. doi: 10.13700/j.bh.1001-5965.2017.0516(in Chinese)

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YANG Hui, LU Wenrui, LI Hongyang, et al. Hypersonic air inlet performance based on engineering transition model[J]. Journal of Beijing University of Aeronautics and Astronautics, 2018, 44(7): 1408-1418. doi: 10.13700/j.bh.1001-5965.2017.0516(in Chinese)

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Hypersonic air inlet performance based on engineering transition model

doi: 10.13700/j.bh.1001-5965.2017.0516

YANG Hui^{1, 2
,
,},
LU Wenrui^{1, 2},
LI Hongyang³,
YUE Lianjie⁴

1.
School of Energy and Power Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100083, China
2.
Collaborative Innovation Center for Advanced Aero-Engine, Beijing 10008
3.
AVIC Shenyang Aircraft Design Research Instiute, Shenyang 110035, China
4.
Institute of Mechanics, Chinese Academy of Sciences, Beijing 100080, China

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Corresponding author: YANG Hui.E-mail:huiyang@buaa.edu.cn
Received Date: 31 Jul 2017
Accepted Date: 11 Aug 2017
Publish Date: 20 Jul 2018

Abstract

Abstract

In order to study the variation of the performance parameters of a hypersonic air inlet with the flight height, free stream turbulence intensity and free stream Mach number, and the influence of the boundary layer transition on the compression surface on air inlet performance, a series of numerical simulations were conducted by using the γ-Re_θ transition model developed in a in-house HGFS and the flow phenomena and mechanisms were analyzed. Firstly, the improved γ-Re_θ transition model implemented in the HGFS code was verified using a simplified model of an air inlet compression surface. Secondly, a hypersonic air inlet with isentropic compression surface was studied the effect of flight height and Mach number on parameters such as the transition location. Main conclusions are as follows:with the increase of the flight height, transition location of the boundary layer moves downstream on the compression surface, and the total pressure recovery coefficient decreases. Compared with the ground surface state, at the design flight height, the transition location moves downstream for about 0.525 m, the boundary layer thickness increases by about 73%, and the total pressure recovery coefficient decreases by 3.2%. About 0.5% magnitude change of the inflow turbulence intensity will contribute to 0.2 m movement of the transition location. However, the influence of turbulence intensity on the total pressure recovery coefficient is quite small.
- hypersonic air inlet,
- transition model,
- flight height,
- turbulence intensity,
- numerical simulation

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References(26)

References

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Hypersonic air inlet performance based on engineering transition model

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