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aeroacoustics

Aeroacoustics is the branch of acoustics that studies the generation, propagation, and control of sound produced by aerodynamic flows and the interaction of sound with moving fluids and structures. It covers physical mechanisms, measurement techniques, and methods to predict and reduce noise in engineering systems.

The field originated with the aerodynamic noise theory of Sir James Lighthill in 1952, which cast turbulent

Major noise sources include turbulent boundary-layer noise, particularly at trailing edges; jet and plenum noise; rotorcraft

Methods often involve wind-tunnel experiments or in-field measurements using microphone arrays and beamforming, along with flow

Applications span aerospace, automotive, wind energy, and building systems. The goal is to design quieter engines,

flow
as
an
equivalent
distribution
of
acoustic
sources.
Ffowcs
Williams
and
Hawkings
extended
the
theory
in
1969
to
account
for
solid
boundaries,
enabling
practical
predictions
for
aircraft,
turbines,
and
other
machinery.
Today,
computational
aeroacoustics
combines
CFD
with
acoustic
analogies,
classical
theories,
and
hybrid
methods
to
predict
far-field
noise.
and
fan
noise;
ducted
and
open-channel
flows;
wind
turbine
blade
noise;
and
flow-induced
vibration.
In
compressible
flows,
shock-related
noise
can
also
contribute.
diagnostics
such
as
particle
image
velocimetry.
On
the
modeling
side,
direct
numerical
simulation
and
large-eddy
simulation
coupled
with
acoustic
solvers
(CFD-based
or
FW-H
approaches)
constitute
computational
aeroacoustics.
airframes,
HVAC
equipment,
and
blades,
while
meeting
environmental
regulations
and
community
noise
concerns.
Ongoing
research
focuses
on
improving
predictive
accuracy,
developing
active
and
passive
noise
control
techniques,
and
enhancing
computational
efficiency.