Fluid-Dynamic and Aeroacoustic Characterization of Side-by-Side Rotor Interaction

Nargi, Ranieri Emanuele; Candeloro, Paolo; De Gregorio, Fabrizio; Ceglia, Giuseppe; Pagliaroli, Tiziano

doi:10.3390/aerospace10100851

Cited by 5 publications

(1 citation statement)

References 41 publications

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“…Witte et al [98] The method of combining POD with Wavelet Transform is employed to investigate how the dominant structures mutually influence each other. Nargi et al [99] The POD method can identify the dominant flow structures, providing a quantitative means to analyze the flow mechanism. Wei et…”

Section: Propellermentioning

confidence: 99%

Data-Driven Modal Decomposition Methods as Feature Detection Techniques for Flow Fields in Hydraulic Machinery: A Mini Review

Xu,

Zhang,

Zhang

et al. 2024

JMSE

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Cavitation is a quasi-periodic process, and its non-stationarity leads to increasingly complex flow field structures. On the other hand, characterizing the flow field with greater precision has become increasingly feasible. However, accurately and effectively extracting the most representative vibration modes and spatial structures from these vast amounts of data has become a significant challenge. Researchers have proposed data-driven modal decomposition techniques to extract flow field information, which have been widely applied in various fields such as signal processing and fluid dynamics. This paper addresses the application of modal decomposition methods, such as dynamic mode decomposition (DMD), Proper Orthogonal Decomposition (POD), and Spectral Proper Orthogonal Decomposition (SPOD), in cavitation feature detection in hydraulic machinery. It reviews the mathematical principles of these three algorithms and a series of improvements made by researchers since their inception. It also provides examples of the applications of these three algorithms in different hydraulic machinery. Based on this, the future development trends and possible directions for the improvement of modal decomposition methods are discussed.

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Section: Propellermentioning

confidence: 99%

Data-Driven Modal Decomposition Methods as Feature Detection Techniques for Flow Fields in Hydraulic Machinery: A Mini Review

Xu,

Zhang,

Zhang

et al. 2024

JMSE

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Acoustic and aerodynamic evaluation of DLR small-scale rotor configurations within GARTEUR AG26

Yin,

De Gregorio,

Rossignol

et al. 2024

CEAS Aeronaut J

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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.

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Aerodynamic and aeroacoustics investigation of tandem propellers in hover for eVTOL configurations

Granata,

Savino,

Grassi

et al. 2024

Aerospace Science and Technology

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Fluid-Dynamic and Aeroacoustic Characterization of Side-by-Side Rotor Interaction

Cited by 5 publications

References 41 publications

Data-Driven Modal Decomposition Methods as Feature Detection Techniques for Flow Fields in Hydraulic Machinery: A Mini Review

Data-Driven Modal Decomposition Methods as Feature Detection Techniques for Flow Fields in Hydraulic Machinery: A Mini Review

Acoustic and aerodynamic evaluation of DLR small-scale rotor configurations within GARTEUR AG26

Aerodynamic and aeroacoustics investigation of tandem propellers in hover for eVTOL configurations

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