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This thesis investigates the sound generated by solid bodies in
steady subsonic flows with unsteady perturbations, as is typically
used when determining the noise generated by turbulent
interactions. The focus is predominantly on modelling the sound
generated by blades within an aircraft engine, and the solutions
are presented as asymptotic approximations. Key analytical
techniques, such as the Wiener-Hopf method, and the matched
asymptotic expansion method are clearly detailed. The results allow
for the effect of variations in the steady flow or blade shape on
the noise generated to be analysed much faster than when solving
the problem numerically or considering it experimentally.
This thesis investigates the sound generated by solid bodies in
steady subsonic flows with unsteady perturbations, as is typically
used when determining the noise generated by turbulent
interactions. The focus is predominantly on modelling the sound
generated by blades within an aircraft engine, and the solutions
are presented as asymptotic approximations. Key analytical
techniques, such as the Wiener-Hopf method, and the matched
asymptotic expansion method are clearly detailed. The results allow
for the effect of variations in the steady flow or blade shape on
the noise generated to be analysed much faster than when solving
the problem numerically or considering it experimentally.
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