1999
DOI: 10.1017/s002211209800367x
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Boundary-layer instability noise on aerofoils

Abstract: An experimental and theoretical investigation has been carried out to understand the tonal noise generation mechanism on aerofoils at moderate Reynolds number. Experiments were conducted on a NACA0012 aerofoil section in a low-turbulence closed working section wind tunnel. Narrow band acoustic tones were observed up to 40 dB above background noise. The ladder structure of these tones was eliminated by modifying the tunnel to approximate to anechoic conditions. High-resolution flow velocity measurements have be… Show more

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Cited by 231 publications
(202 citation statements)
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“…This incongruity suggests that the present inflectional instability near the trailing edge may not be associated directly with the frequency selection mechanism of the trailing-edge noise. This observation also contrasts with the result that T-S instabilities play an important role in the frequency selection mechanism observed by Nash et al 8) and others. To unravel the frequency-selection mechanism, we need further investigation of the interaction between the inflectional boundary layer near the trailing edge and the wake of the airfoil, where a street of Karman vortices is formed.…”
Section: )contrasting
confidence: 96%
See 1 more Smart Citation
“…This incongruity suggests that the present inflectional instability near the trailing edge may not be associated directly with the frequency selection mechanism of the trailing-edge noise. This observation also contrasts with the result that T-S instabilities play an important role in the frequency selection mechanism observed by Nash et al 8) and others. To unravel the frequency-selection mechanism, we need further investigation of the interaction between the inflectional boundary layer near the trailing edge and the wake of the airfoil, where a street of Karman vortices is formed.…”
Section: )contrasting
confidence: 96%
“…Figure 3 also shows that there is a ladder-like structure with a constant slope on the general trend curve, which has been found by numerous researchers [1][2][3] in conventional closed test sections to be prone to sound reflections from hard walls, resulting in acoustic resonance. Contrarily, Nash et al 8) demonstrated that each step does fit the U 0:8 dependence in anechoic environments. Since the overall trend coincides with previous observations with and without acoustic resonance, we do not discuss this point further, and attempt to suppress generation of tonal noise.…”
Section: Resultsmentioning
confidence: 99%
“…This receptivity mechanism prevails over the direct growth of instabilities on the suction surface as the total spatial growth along the pressure-surface is larger than the analogous growth on the suction-surface. This observation is supported by previous experiments (Nash et al, 1999) and numerical calculations (Desquesnes et al, 2007): the frequency of the dominant tone in the spectrum coincides with the most amplified frequency along the pressure surface based on local stability theory.…”
Section: Leading Modes: the Coupled Dynamics Of The Separation Bubblessupporting
confidence: 85%
“…This flow configuration was chosen to match typical mean flow characteristics described in the experimental work of Paterson et al (1973); Nash et al (1999) and the numerical simulations of Desquesnes et al (2007). The modal structures span a rather wide frequency range, but only a few modes (in the leading M-category) contain a significant acoustic component to account for the observed sound pressure levels as well as the observed frequencies.…”
Section: Discussionmentioning
confidence: 99%
“…Considerable work on a NACA-0012 airfoil has shown that the pre-requisite condition for a broadband hump and/or tones to occur is the existence of a separation region near the trailing edge on the pressure surface [4,9,10]. It was concluded that the incoming T-S waves must be amplified by the separating shear layer before tonal noise can be radiated effectively.…”
Section: Introductionmentioning
confidence: 99%