From (CTS) wind tunnel data to noise impact assessment

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From (CTS) wind tunnel data to noise impact assessment Mark-Jan van der Meulen, Harry Brouwer, Marthijn Tuinstra & Kylie Knepper CEAS-ASC workshop 2018

Introduction Current best practice: Aerodynamic test in Closed test sections (CTS) Acoustic tests in open test sections (OTS) Preferable to use acoustic results obtained in CTS Scaling effects Geometric near field effects Measurements only available at limited number of radiation angles Desired are EPNL and noise impact assessment From wind tunnel data to noise impact assesment, 7 September 2018 2

Approach Public domain semi-empirical noise radiation models calibrated against the CTS data We have limited ourselves to airframe noise Flap side edge noise Slat noise Trailing edge noise Landing gear noise Reconstruction of aircraft noise directivity by ad-hoc calibrations EPNL and assessment of environmental impact From wind tunnel data to noise impact assesment, 7 September 2018 3

4-step approach From wind tunnel data to noise impact assesment, 7 September 2018 4

Acoustic wind tunnel measurements The sound strength from different sound sources on the model are obtained with phased microphone measurements. Diagonal removal is employed to remove boundary layer noise Measurements in CTS are performed in geometric near field: Every source is located at a different distance emits with a different angle to the array From wind tunnel data to noise impact assesment, 7 September 2018 5

Calibration of sound modules Sound source modules are calibrated at the local emission angle 1) Local axis system at the centre of the sound source 2) Transformation to inertial system 3) Calculation of virtual sound source position (1) (2) (3) From wind tunnel data to noise impact assesment, 7 September 2018 6

Sound source modules Sound source Landing gear noise Separate description for nose and main LG Local flow correction Source model Guo Reference - Empirical prediction of aircraft landing gear noise, NASA 2005 - Effects of a local flow variation on landing gear noise prediction and analysis, JOA 2010 Slat noise Guo -Aircraft slat noise modelling and prediction, AIAA 2010 -Component-based empirical model for highlift system noise prediction, JOA 2003 Flap side edge noise Guo Aircraft flap side edge noise modelling and prediction AIAA 2011 Trailing edge noise Brooks, Pope and Marcolini Airfoil self-noise and prediction, NASA 1989 From wind tunnel data to noise impact assesment, 7 September 2018 7

Calibration of noise modules From wind tunnel data to noise impact assesment, 7 September 2018 8

Calibration of noise modules Measured noise levels in WT can be reproduced Sound levels for different observer positions and conditions can be determined. From wind tunnel data to noise impact assesment, 7 September 2018 9

Full scale aircraft sound Full scale predictions by changing to full scale input Strouhal scaling of frequency Correction of levels to account for larger source region Reynolds dependent scaling is used for high lift devices (Flap side edge noise and slat noise) From wind tunnel data to noise impact assesment, 7 September 2018 10

EPNL for noise impact assessment To assess the noise impact at certification points, levels need to be translated from source to an observer on the ground. Propagation effects Spreading losses Atmospheric attenuation Ground reflection Doppler frequency shift From wind tunnel data to noise impact assesment, 7 September 2018 11

Prediction of fly-over data From wind tunnel data to noise impact assesment, 7 September 2018 12

Footprints full scale aircraft prediction From wind tunnel data to noise impact assesment, 7 September 2018 13

Conclusions Models from the public domain are used to describe the behaviour of different acoustic sources. Acoustic sources are treated separately to correct for: Different distances, emission angles in the CTS and scaling effects Translation of acoustic CTS measurements to: Emission footprints for full scale airplane and airplane parts Effective Perceived noise levels for noise impact assessment For different flight conditions Good trend between translated CTS data and fly-over data. From wind tunnel data to noise impact assesment, 7 September 2018 14

Fully engaged Netherlands Aerospace Centre NLR Amsterdam Anthony Fokkerweg 2 1059 CM Amsterdam NLR Marknesse Voorsterweg 31 8316 PR Marknesse p ) +31 88 511 31 13 f ) +31 88 511 32 10 e ) info@nlr.nl i ) www.nlr.nl p ) +31 88 511 44 44 f ) +31 88 511 42 10 e ) info@nlr.nl i ) www.nlr.nl

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