Improvement of the fluctuating pressure empirical functions for a body of revolution at transonic mach numbers

Rui Zhao; Ji Li Rong; Fang Ren; Yue Jun Li; Wu Yuan

doi:10.3873/j.issn.1000-1328.2016.10.004

Improvement of the fluctuating pressure empirical functions for a body of revolution at transonic mach numbers

Rui Zhao, Ji Li Rong, Fang Ren, Yue Jun Li, Wu Yuan

School of Aerospace Engineering

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

5 Citations (Scopus)

Abstract

The transonic buffet environment around a generic rocket fairing has been numerically investigated by the large-eddy simulation (LES) method. It is found that the flow structures generating the fluctuating wall pressure vary temporally and spatially, and also interact with each other. In particular, serious buffet environment could also be induced by the expansion fan, where significant flow acceleration and deceleration occur. Accordingly, the flow regions are redefined, and the corresponding empirical functions are proposed. By introducing the spatially-correlated corrections, the accuracy of the modified functions are remarkably improved, especially at the locations after the separation bubble.

Original language	English
Pages (from-to)	1179-1184
Number of pages	6
Journal	Yuhang Xuebao/Journal of Astronautics
Volume	37
Issue number	10
DOIs	https://doi.org/10.3873/j.issn.1000-1328.2016.10.004
Publication status	Published - 30 Oct 2016

Keywords

Body of revolution
Fluctuating pressure
Large-eddy simulation
Rocket faring

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10.3873/j.issn.1000-1328.2016.10.004

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title = "Improvement of the fluctuating pressure empirical functions for a body of revolution at transonic mach numbers",

abstract = "The transonic buffet environment around a generic rocket fairing has been numerically investigated by the large-eddy simulation (LES) method. It is found that the flow structures generating the fluctuating wall pressure vary temporally and spatially, and also interact with each other. In particular, serious buffet environment could also be induced by the expansion fan, where significant flow acceleration and deceleration occur. Accordingly, the flow regions are redefined, and the corresponding empirical functions are proposed. By introducing the spatially-correlated corrections, the accuracy of the modified functions are remarkably improved, especially at the locations after the separation bubble.",

keywords = "Body of revolution, Fluctuating pressure, Large-eddy simulation, Rocket faring",

author = "Rui Zhao and Rong, {Ji Li} and Fang Ren and Li, {Yue Jun} and Wu Yuan",

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AU - Zhao, Rui

AU - Rong, Ji Li

AU - Ren, Fang

AU - Li, Yue Jun

AU - Yuan, Wu

PY - 2016/10/30

Y1 - 2016/10/30

N2 - The transonic buffet environment around a generic rocket fairing has been numerically investigated by the large-eddy simulation (LES) method. It is found that the flow structures generating the fluctuating wall pressure vary temporally and spatially, and also interact with each other. In particular, serious buffet environment could also be induced by the expansion fan, where significant flow acceleration and deceleration occur. Accordingly, the flow regions are redefined, and the corresponding empirical functions are proposed. By introducing the spatially-correlated corrections, the accuracy of the modified functions are remarkably improved, especially at the locations after the separation bubble.

AB - The transonic buffet environment around a generic rocket fairing has been numerically investigated by the large-eddy simulation (LES) method. It is found that the flow structures generating the fluctuating wall pressure vary temporally and spatially, and also interact with each other. In particular, serious buffet environment could also be induced by the expansion fan, where significant flow acceleration and deceleration occur. Accordingly, the flow regions are redefined, and the corresponding empirical functions are proposed. By introducing the spatially-correlated corrections, the accuracy of the modified functions are remarkably improved, especially at the locations after the separation bubble.

KW - Body of revolution

KW - Fluctuating pressure

KW - Large-eddy simulation

KW - Rocket faring

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JF - Yuhang Xuebao/Journal of Astronautics

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Improvement of the fluctuating pressure empirical functions for a body of revolution at transonic mach numbers

Abstract

Keywords

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