Litcius/Paper detail

Aerodynamic noise analysis of tilting rotor in edgewise flow conditions

Nur Syafiqah Jamaluddin, Alper Çelik, Kabilan Baskaran, Djamel Rezgui, Mahdi Azarpeyvand

2024Journal of Sound and Vibration39 citationsDOIOpen Access PDF

Abstract

This paper presents a comprehensive experimental analysis of the noise characteristics of an isolated tilt-rotor system under edgewise flight conditions. The investigation explores the effect of rotor tilt on noise and aerodynamics using flow velocity, thrust, and far-field noise measurements. Flow field results show that as the tilting angles vary, there is a change in speed over the rotor blade surface, which influences vortex formation and wake attributes. The far-field noise spectra revealed a significant decrease in sound pressure level with increasing tilt angle, predominantly evident in both the high-amplitude tonal peaks and the broadband signal within the low-to-mid frequency range. The directivity patterns of the overall sound pressure level also demonstrated a reduction in magnitude with the tilting of the rotor. This reduction was observed consistently across all top-plane observation points, with a monopole directivity trend. Meanwhile, in the side plane array, the decrease was primarily evident above the plane of rotation with a dipole directivity pattern. The radiation direction at which the minimum sound pressure level occurs was identified near the rotation plane, irrespective of the tilt angle. Furthermore, the time-dependent noise analyses revealed dominant and persistent signal characteristics at the blade passing frequency, whereas the mid-frequency range exhibited more intermittent behaviour, and the high-frequency range indicated transient characteristics.

Topics & Concepts

AcousticsTilt (camera)DirectivityNoise (video)AerodynamicsRotor (electric)PhysicsSound pressureRotation (mathematics)MechanicsOpticsEngineeringStructural engineeringGeometryElectrical engineeringMathematicsAntenna (radio)Computer scienceImage (mathematics)Artificial intelligenceQuantum mechanicsAerodynamics and Acoustics in Jet FlowsFluid Dynamics and Turbulent FlowsAcoustic Wave Phenomena Research
Aerodynamic noise analysis of tilting rotor in edgewise flow conditions | Litcius