2010
DOI: 10.1007/s00348-010-0932-y
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Two techniques for PIV-based aeroacoustic prediction and their application to a rod-airfoil experiment

Abstract: In this paper, we discuss techniques by which the aeroacoustic properties of the turbulent flow in a rod-airfoil benchmark experiment can be inferred from time-resolved PIV measurement. While acoustic measurements can be made directly using microphones, the proposed techniques provide a means to directly link acoustic waves with specific flow events, which is invaluable in devising noise mitigation strategies. The approaches are possible thanks to recent improvements in digital and camera technology that can p… Show more

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Cited by 30 publications
(22 citation statements)
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“…The time history of the Lagrangian velocity derivative computed by single-step scheme (LO) and by the multistep scheme (MS) proposed Moore et al (2010) is illustrated in Fig. 10 (center).…”
Section: Lagrangian Approach: A-posteriori Analysismentioning
confidence: 99%
“…The time history of the Lagrangian velocity derivative computed by single-step scheme (LO) and by the multistep scheme (MS) proposed Moore et al (2010) is illustrated in Fig. 10 (center).…”
Section: Lagrangian Approach: A-posteriori Analysismentioning
confidence: 99%
“…The other approach is the evaluation of the cross-correlation between the fluctuating static pressure fluctuation and the sound pressure fluctuation emitted from a bluff body [11]. On the other hand, the method using time-resolved PIV provides the time-series data of instantaneous velocity field, which allows the evaluation of time-derivative of the vector product of vorticity and velocity in the flow field [12] and the evaluation of the pressure fluctuation on the cylinder surface [13]. This method using the time-resolved PIV is effective for evaluating the aerodynamic sound spectrum, although it is very expensive and requires too many PIV image data to analyze the time-series velocity data.…”
Section: Introductionmentioning
confidence: 99%
“…A variety of experimental methods for localizing the sound sources have been proposed in literature, such as the acoustic impedance method [7], microphone array method [8], cross-correlation method [9]- [11], and the method using time-resolved particle image velocimetry (PIV) [12] [13]. Among these experimental methods, the last two methods allow for localization of the aerodynamic sound sources because they can evaluate simultaneously the velocity field, which supports the understanding of the generation mechanism for aerodynamic sound.…”
Section: Introductionmentioning
confidence: 99%
“…The velocity material derivatives are computed directly, using the method proposed by Liu and Katz 34 and further developed by Moore et al 11 The method consists of the evaluation of the total derivative of the velocity by tracking a fluid parcel by means of a Lagrangian approach, under the assumption of Taylor's hypothesis of frozen turbulence. This is permitted, since the characteristic fluctuations of the flow are small with respect to the characteristic velocity of the mean recirculating flow in the cavity, and therefore the larger structures, which are primarily responsible for the total sound emission, convect without much deformation within the duration of our acquisition.…”
mentioning
confidence: 99%