Acoustic and Aerodynamic Evaluation of Dlr Small-Scale Rotor Configurations Within Garteur AG26-Reference-Cited by-同舟云学术

Acoustic and Aerodynamic Evaluation of Dlr Small-Scale Rotor Configurations Within Garteur AG26

Published:2024-06-17 Issue: Volume: Page:
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Author:

Yin J.¹,Gregorio F.²,Rossignol K.-S.¹,Rottmann L.¹,Ceglia G.²,Reboul G.³,Barakos G.⁴,Qiao G.⁴,Muth M.⁵,Kessler M.⁵,Visingardi A.²,Barbarino M.²,Petrosino F.²,Zanotti A.⁶,Oberti N.⁶,Savino A.⁶,Bernardini G.⁷,Poggi C.⁷,Abergo L.⁶,Caccia F.⁶,Guardone A.⁶,Testa C.⁸,Zaghi S.⁸

Affiliation:

1. German Aerospace Center - DLR

2. Italian Aerospace Research Center - CIRA

3. ONERA, Institut Polytechnique de Paris

4. University of Glasgow

5. University of Stuttgart

6. Politecnico di Milano

7. Roma Tre University

8. CNR-INM

Abstract

This paper presents the activities performed in the GARTEUR Action Group HC/AG-26 to study the acoustic and aerodynamic characteristics of small rotor configurations, including the influence of the rotor-rotor interactions. This paper will focus on comparisons between numerical activities and wind tunnel results on a small rotor provided by DLR. The wind tunnel models included a Rotor/Rotor/Pylon in isolated, tandem and coaxial configuration. The wind tunnel experiments for acoustics were performed in DLR’s Acoustic Wind Tunnel Braunschweig (AWB) and PIV test were performed in CIRA within a joint CIRA/DLR test program. For simulations, the numerical approaches from each partner are applied. The aerodynamic simulations necessary for the aeroacoustic predictions are conducted with various fidelity numerical methods, varying from lifting line to CFD. The acoustic values on the microphone positions are evaluated using Ffowcs Williams-Hawking (FW-H) formulation by all partners. The acoustic and aerodynamic predictions are compared to test data, including performance, PIV and acoustic directivity.

Publisher

Research Square Platform LLC

Reference47 articles.

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2. Rossignol, K.-S., Yin, J., Rottmann, L.: Investigation of Small-Scale Rotor Aeroacoustic in DLR's Acoustic Wind Tunnel Braunschweig, in 28th AIAA/CEAS Aeroacoustics 2022 Conference., Southampton, UK, 2022.

3. Yin, J., Rossignol, K.-S., Rottmann, L., Schwarz, T.: Numerical Investigations on Small-scale Rotor Configurations with Validation using Acoustic Wind Tunnel Data. In: 48th European Rotorcraft Forum (ERF), 2022, Seiten 1–17. 48 European Rotorcraft Forum (ERF) 2022, 6.- 8. September 2022, Winterthur, Switzerland.

4. Nargi, R.E., F. De Gregorio, P. Candeloro, G. Ceglia, and T. Pagliaroli 2021. Evolution of flow structures in twin-rotors wakes in drones by time-resolved PIV. In Journal of Physics: Conference Series, Volume 1977, pp. 012008.

5. Ceglia, G., Nargi R.E., Candeloro P., Pagliaroli, T., De Gregorio, F., “Time-resolved PIV measurements of the rotor wake in a side-by-side configuration” 15th International Symposium on Particle Image Velocimetry, San Diego, CA, June 2023.

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