Analysis of acoustic wave from supersonic jets impinging to an inclined flat Plate

S. Tsutsumi; T. Nonomura; K. Fujii; Y. Nakanishi; K. Okamoto; S. Teramoto

Analysis of acoustic wave from supersonic jets impinging to an inclined flat Plate

S. Tsutsumi, T. Nonomura, K. Fujii, Y. Nakanishi, K. Okamoto, S. Teramoto

研究成果: Paper › 査読

抄録

For the prediction and reduction of acoustic loading of launch vehicle at lift-off, acoustic wave radiated from ideally-expanded supersonic cold jets impinging to an 45-degree-inclined flat-plate, representative of a flame deflector, located 5D downstream from the nozzle exit is investigated numerically with the help of the experimental work. It turns out that dominant noise source is classified into three types: (i) the Mach wave radiation from free jet before the impingement, (ii) the acoustic wave generated from the impingement region, and (iii) another Mach wave radiation from supersonic wall jet after the impingement. Those features are clearly observed by applying the Proper Orthogonal Decomposition (POD) analysis to the numerical results. Comparing with the experimental result conducted in this study, prediction accuracy of 5 dB in OASPL is obtained in the current numerical simulation.

本文言語	English
出版ステータス	Published - 2012
外部発表	はい
イベント	7th International Conference on Computational Fluid Dynamics, ICCFD 2012 - Big Island, United States 継続期間: 2012 7 9 → 2012 7 13

Conference

Conference	7th International Conference on Computational Fluid Dynamics, ICCFD 2012
Country	United States
City	Big Island
Period	12/7/9 → 12/7/13

ASJC Scopus subject areas

Energy Engineering and Power Technology
Aerospace Engineering
Computational Mechanics
Mechanical Engineering
Mechanics of Materials
Condensed Matter Physics

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引用スタイル

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title = "Analysis of acoustic wave from supersonic jets impinging to an inclined flat Plate",

abstract = "For the prediction and reduction of acoustic loading of launch vehicle at lift-off, acoustic wave radiated from ideally-expanded supersonic cold jets impinging to an 45-degree-inclined flat-plate, representative of a flame deflector, located 5D downstream from the nozzle exit is investigated numerically with the help of the experimental work. It turns out that dominant noise source is classified into three types: (i) the Mach wave radiation from free jet before the impingement, (ii) the acoustic wave generated from the impingement region, and (iii) another Mach wave radiation from supersonic wall jet after the impingement. Those features are clearly observed by applying the Proper Orthogonal Decomposition (POD) analysis to the numerical results. Comparing with the experimental result conducted in this study, prediction accuracy of 5 dB in OASPL is obtained in the current numerical simulation.",

keywords = "Aeroacoustics, Large-eddy simulation, Launcher acoustics",

author = "S. Tsutsumi and T. Nonomura and K. Fujii and Y. Nakanishi and K. Okamoto and S. Teramoto",

year = "2012",

language = "English",

note = "7th International Conference on Computational Fluid Dynamics, ICCFD 2012 ; Conference date: 09-07-2012 Through 13-07-2012",

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T1 - Analysis of acoustic wave from supersonic jets impinging to an inclined flat Plate

AU - Tsutsumi, S.

AU - Nonomura, T.

AU - Fujii, K.

AU - Nakanishi, Y.

AU - Okamoto, K.

AU - Teramoto, S.

PY - 2012

Y1 - 2012

N2 - For the prediction and reduction of acoustic loading of launch vehicle at lift-off, acoustic wave radiated from ideally-expanded supersonic cold jets impinging to an 45-degree-inclined flat-plate, representative of a flame deflector, located 5D downstream from the nozzle exit is investigated numerically with the help of the experimental work. It turns out that dominant noise source is classified into three types: (i) the Mach wave radiation from free jet before the impingement, (ii) the acoustic wave generated from the impingement region, and (iii) another Mach wave radiation from supersonic wall jet after the impingement. Those features are clearly observed by applying the Proper Orthogonal Decomposition (POD) analysis to the numerical results. Comparing with the experimental result conducted in this study, prediction accuracy of 5 dB in OASPL is obtained in the current numerical simulation.

AB - For the prediction and reduction of acoustic loading of launch vehicle at lift-off, acoustic wave radiated from ideally-expanded supersonic cold jets impinging to an 45-degree-inclined flat-plate, representative of a flame deflector, located 5D downstream from the nozzle exit is investigated numerically with the help of the experimental work. It turns out that dominant noise source is classified into three types: (i) the Mach wave radiation from free jet before the impingement, (ii) the acoustic wave generated from the impingement region, and (iii) another Mach wave radiation from supersonic wall jet after the impingement. Those features are clearly observed by applying the Proper Orthogonal Decomposition (POD) analysis to the numerical results. Comparing with the experimental result conducted in this study, prediction accuracy of 5 dB in OASPL is obtained in the current numerical simulation.

KW - Aeroacoustics

KW - Large-eddy simulation

KW - Launcher acoustics

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