A wavelet-based separation method for tonal and broadband components of low Reynolds-number propeller noise

Meloni, Stefano; Paola, Elisa de; Grande, Edoardo; Ragni, Daniele; Stoica, Luana Georgiana; Marco, Alessandro Di; Camussi, Roberto

doi:10.1088/1361-6501/acb071

Cited by 14 publications

(5 citation statements)

References 27 publications

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“…Specifically, the PSD was calculated using a Hanning window with 50% of overlap. Considering a sampling frequency of f s = 2 16 Hz and a windowing of win = 2 14 samples, the frequency bandwidth has been set at ∆f = 4 Hz. It is worth noting that in all the three polar angles reported in figure 2, the BPF and the first two harmonics are clearly visible at the lower frequencies resulting in slightly amplified with the ingestion of the boundary layer.…”

Section: Resultsmentioning

confidence: 99%

“…To further investigate the haystacking behaviour, the second part of the analysis has been performed in the wavelet domain. Unlike the Fourier transform, the wavelet decomposition is a useful tool when it comes to analysing a temporal signal in terms of the time shift (t) and the resolution time scale (s) [13,14]. The formal definition is reported as follows:…”

Section: Resultsmentioning

confidence: 99%

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A multivariate statistical analysis of the noise emitted by an installed propeller

Falsi,

Zaman,

Meloni

et al. 2023

J. Phys.: Conf. Ser.

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Novel-aircraft concepts consider the possibility of placing the propulsor very close to the fuselage to ingest the incoming airframe boundary layer. In this configuration, the engine takes the inflow at a reduced velocity, consuming less fuel in the combustion process. However, this induces a series of noise consequences that alter tonal and broadband noise components. The present work reports an experimental investigation to analyse the sound emitted by a propeller ingesting a turbulent boundary layer. Experiments have been performed in the anechoic wind tunnel at the University of Bristol and the set-up consisted of a two-bladed propeller close to a tangential flat plate to simulate the installed effects. A tripping device was placed 1 m upstream of the propeller and was used to generate a turbulent boundary layer at the propeller location. The wind tunnel velocity was fixed at 33 m/s keeping the advance ratio at J = 0.65. Far-field noise has been acquired using a microphone array positioned parallel to the plate, directly overhead of the propeller. The data were analysed in the frequency domain, providing a characterisation of spectral quantities. Furthermore, wavelet analysis was performed to investigate the time evolution of the identified pressure features. Results show evident haystacking humps close to higher BPF harmonics, due to the ingestion of the boundary layer. Moreover, the wavelet analysis revealed the intermittent nature of the haystacking humps, clearly visible at higher BPF harmonics with low-frequency energy content.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

A multivariate statistical analysis of the noise emitted by an installed propeller

Falsi,

Zaman,

Meloni

et al. 2023

J. Phys.: Conf. Ser.

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show abstract

“…The broadband noise content observed in Fig. 5 is non-deterministic in nature and will have a substantial contribution from trailing-edge scattering of the blade [40]. Since the propeller is hovering in static conditions, turbulence impingement noise at the leading edge of the propeller blades will contribute to the stochastic noise [12,41].…”

Section: Far-field Noisementioning

confidence: 99%

Interactions of Propellers in Edgewise Flight with Turbulence

Hanson

Bowen

Zang

et al. 2023

AIAA AVIATION 2023 Forum

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“…In this regard, cyclo-stationary spectral analysis [34] or wavelet-based methods [35] can be considered, but these are beyond the scope of the current paper. It is important to realize that BPFM does not affect an ensemble-averaged spectrum (or any other second-order statistics).…”

Section: Introduction and Contextmentioning

confidence: 99%

“…An in-depth route to separate tonal and broadband components is also useful to explore (particularly when harmonics appear at very high frequencies). In this regard, cyclo-stationary spectral analysis [34] or wavelet-based methods [35] can be considered, but these are beyond the scope of the current paper.…”

Section: Introduction and Contextmentioning

confidence: 99%

Low-Frequency Intensity Modulation of High-Frequency Rotor Noise

Baars

Ragni

2023

AIAA AVIATION 2023 Forum

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Acoustic spectra of rotor noise yield frequency-distributions of energy within pressure time series. However, they are unable to reveal phase-relations between different frequency components, while the latter play a role in low-frequency intensity modulation of higherfrequency rotor noise. Baars et al. (AIAA Paper 2021-0713) outlined a methodology to quantify inter-frequency modulation, which in the current work is applied to a comprehensive acoustic dataset of a rotor operating at low Reynolds number at advance ratios ranging from 𝐽 = 0 to 0.61. The findings strengthen earlier observations for the case of a hovering rotor, in which the modulation of the high-frequency noise is strongest at angles of 𝜃 ≈ −20 • (below the rotor plane). For the non-zero advance ratios, modulation becomes dominant in the sector −45 • ≲ 𝜃 ≲ 0 • , and is maximum in strength for the highest advance ratio tested (𝐽 = 0.61). Intensity-modulation of high-frequency noise is primarily the consequence of a far-field observer experiencing a cyclic sweep through the noise directivity patterns of the relatively directive trailing-edge/shedding noise component. This noise becomes more intense with increasing J and is associated with the broadband features of the (partially) separated flow over the rotor blades.

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A wavelet-based separation method for tonal and broadband components of low Reynolds-number propeller noise

Cited by 14 publications

References 27 publications

A multivariate statistical analysis of the noise emitted by an installed propeller

A multivariate statistical analysis of the noise emitted by an installed propeller

Interactions of Propellers in Edgewise Flight with Turbulence

Low-Frequency Intensity Modulation of High-Frequency Rotor Noise

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