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Sino-Russian Interdisciplinary Mathematical Conference-2
November 29, 2024 14:00–14:50, Moscow, MIAN, conference hall, floor 9
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Application of the Wiener Hopf technique
in the modelling of turbulent boundary layer trailing
edge noise and supersonic jet screech
Benshuai Lyu |
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Abstract:
The Wiener Hopf Technique is used to solve two mixed boundary
problems in aeroacoustics. In the first problem, an analytical Green’s function
for the serrated edge wave scattering problem is solved using the Wiener Hopf
technique. A closed form analytical Green’s function is obtained for piecewise
linear serrations and compared with the canonical Green’s function for straight
edges. The analytical Green’s function is verified using the finite element
method. Both noise reduction spectra and directivity patterns are studied as a
function of source position . Physical mechanism of sound reduction is
discussed. In the second problem, the generation of instability waves in a
supersonic jet induced by acoustic wave impingement is examined. To obtain
the newly excited instability wave, t he scattered sound field d ue to the acoustic
impingement is first solved using the Weiner Hopf technique, with the kernel
function factored using asymptotic expansions and overlapping
approximations. Subsequently, the unsteady Kutta condition is imposed at the
nozzle lip, enabling the derivation of the dispersion relation for the newly
excited instability wave. A linear transfer function between the upstream forcing
and the newly excited instability wave is obtained. T he amplitude and phase
delay and their dependence on the frequency are examined. The new model
shows improved agreement between the predicted screech frequencies and
the experimental data compared to classical models.
Language: English
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