Flight Test Results for Uniquely Tailored Propulsion Airframe Aeroacoustic Chevrons: Shockcell Noise

Mengle, Vinod G.; Ganz, Ulrich; Nesbitt, Eric; Bultemeier, Eric; Thomas, Russell H.

doi:10.2514/6.2006-2439

Cited by 18 publications

(8 citation statements)

References 10 publications

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“…This represents a very significant change brought to near-field jet noise physics. This peak reduction value is comparable in magnitude to the 5 dB gain mentioned in previous publications on cruise flight tests [21,22,23]. An important difference with results in these papers is the reduction of the high-frequency shock noise by the LINFaN chevrons.…”

Section: Low-noise Fan Nozzles 331 Acoustic Resultssupporting

confidence: 75%

“…Several fan nozzles are tested on engine 3 in an attempt to reduce shock-associated noise in cruise flight. Mengle et al [21,23] and Bultemeier et al [22] have shown recently that fan chevrons may reduce shock noise in cruise by up to 5 dB in the low frequencies on the external fuselage skin. They have also shown a sensitivity of reduction efficiency on the fan chevron design and the engine operating conditions.…”

Section: Low-noise Fan Nozzles 331 Acoustic Resultsmentioning

confidence: 99%

“…• The beamforming used did not account for the refraction of sound waves in the boundary layer on the fuselage. Many experimentalists such as Mengle et al [21] have been using this assumption. Further, the complex influence of the boundary layer on measurements is a subject of current and future research.…”

Section: Beamforming Analysismentioning

confidence: 99%

“…Besides, the use of chevrons to reduce the BBSAN component in high-bypass-ratio jets is reported in several studies [19,20]. The noise reduction potential of different chevron concepts on fan and core nozzles has also been qualified in flight tests in cruise conditions [21,22,23]. The mechanisms by which chevrons affect BBSAN has not been fully clarified.…”

Section: Introductionmentioning

confidence: 99%

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Understanding and Reduction of Cruise Jet Noise at Aircraft Level

Huber

Bulté

Laurendeau³

et al. 2014

International Journal of Aeroacoustics

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Within the LINFaN research project, Airbus and Rolls-Royce have jointly investigated the acoustic impact of supersonic jet noise on the fuselage of an Airbus A340 equipped with Rolls-Royce Trent 500 engines in cruise conditions. The main results are presented in this paper. The influence of chevron fan nozzles designed to reduce cruise jet noise on the rear fuselage is investigated. The characterization of both the acoustic field and the aerodynamic flow is carried out. The acoustic data are obtained from a microphone array on the rear fuselage. After specific data de-noising, the acoustic spectra radiated on the fuselage by only the right inner engine are estimated. Beamforming acoustic maps are also computed to localize the jet noise sources. Besides, the supersonic jet flows are characterized by RANS CFD approach. For the baseline round nozzle, the acoustic results show the presence of two distinct broadband shock-associated noise contributions on the fuselage. The first pattern is observed in the far aft section of the fuselage for Strouhal numbers based on the jet mixing diameter and velocity between St = 4 and 6. The other pattern, around St = 1, radiates preferably forward. In addition, the high frequency source is located between 4 and 5 mixed jet diameters past the secondary nozzle exhaust plane, while the low frequency source is located farther downstream between 7 and 8 mixed jet diameters. Shock-associated noise is usually associated with the interaction between shock cells and turbulent shear-layers. We postulate that the high-frequency noise component results from the interaction between the shock-cells in the secondary flow and the inner shear-layer, while the low-frequency component is due to the interaction between shock cells and the outer shear-layer. This interpretation is consistent with two observations. The first observation is a strong modification of the measured high frequency noise when the engine is pushed to high power. At

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Section: Low-noise Fan Nozzles 331 Acoustic Resultssupporting

confidence: 75%

Section: Low-noise Fan Nozzles 331 Acoustic Resultsmentioning

confidence: 99%

Section: Beamforming Analysismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Understanding and Reduction of Cruise Jet Noise at Aircraft Level

Huber

Bulté

Laurendeau³

et al. 2014

International Journal of Aeroacoustics

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“…This paper focuses on the flight tests results of this T-fan chevron nozzle with and without a conventional core chevron nozzle to determine the community noise results at take-off conditions. A companion paper 14 focuses on the acoustics results of these AVC nozzles for shock-cell noise reduction at cruise conditions important for interior cabin noise. In the next two sections we describe flight test configurations and the data analysis method, then we present the flight test results and conclude its applicability to high bypass ratio engines for more stringent noise restrictions.…”

Section: Table 1 Paa Nozzle Flight Test Configurationsmentioning

confidence: 99%

Flight Test Results for Uniquely Tailored Propulsion-Airframe Aeroacoustic Chevrons: Community Noise

Mengle

Ganz

Nesbitt

et al. 2006

12th AIAA/CEAS Aeroacoustics Conference (27th AIAA Aeroacoustics Conference)

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The flow/acoustic environment around the jet exhaust of an engine when installed on an airplane, say, under the wing, is highly asymmetric due to the pylon, the wing and the high-lift devices. Recent scale model tests have shown that such Propulsion Airframe Aeroacoustic (PAA) interactions and the jet mixing noise can be reduced more than with conventional azimuthally uniform chevrons by uniquely tailoring the chevrons to produce enhanced mixing near the pylon. This paper describes the community noise results from a flight test on a large twin-engine airplane using this concept of azimuthally varying chevrons for engines installed under the wing. Results for two different nozzle configurations are described: azimuthally varying "PAA T-fan" chevrons on the fan nozzle with a baseline no-chevron core nozzle and a second with PAA T-fan chevrons with conventional azimuthally uniform chevrons on the core nozzle. We analyze these test results in comparison to the baseline no-chevron nozzle on both spectral and integrated power level bases. The study focuses on the peak jet noise reduction and the effects at high frequencies for typical take-off power settings. The noise reduction and the absolute noise levels are then compared to model scale results. The flight test results verify that the PAA T-fan nozzles in combination with standard core chevron nozzles can, indeed, give a reasonable amount of noise reduction at low frequencies without high-frequency lift during take-off conditions and hardly any impact on the cruise thrust coefficient.

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Flight Test Results for Uniquely Tailored Propulsion Airframe Aeroacoustic Chevrons: Shockcell Noise

Cited by 18 publications

References 10 publications

Understanding and Reduction of Cruise Jet Noise at Aircraft Level

Understanding and Reduction of Cruise Jet Noise at Aircraft Level

Flight Test Results for Uniquely Tailored Propulsion-Airframe Aeroacoustic Chevrons: Community Noise

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