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Vortexinduced

Vortexinduced refers to effects that arise from vortices formed in a fluid flow interacting with a body or structure. The most studied manifestation is vortex-induced vibrations (VIV), where alternating shedding of vortices from a bluff body generates fluctuating transverse forces that can excite structural modes.

In the typical mechanism, fluid flows past a bluff object such as a circular cylinder, producing pairs

Vortexinduced effects are observed in air and water and are important in engineering and design. Examples include

Mitigation strategies aim to disrupt vortex formation, shift frequencies away from structural modes, or increase damping.

of
counter-rotating
vortices
that
are
shed
alternately
from
the
sides.
The
shedding
occurs
at
a
characteristic
frequency
f
that
scales
with
flow
speed
U
and
a
representative
length
D
of
the
body,
commonly
expressed
with
the
Strouhal
number
(St):
f
≈
St
·
U
/
D.
When
the
shedding
frequency
approaches
a
natural
frequency
of
the
structure,
a
lock-in
or
resonance-like
condition
can
occur,
amplifying
responses
and
potentially
causing
fatigue.
tall
chimneys,
bridge
piers,
pipelines
and
risers,
offshore
platforms,
subsea
cables,
and
architectural
elements
exposed
to
wind
or
currents.
In
marine
and
offshore
contexts,
vortex-induced
vibrations
can
govern
fatigue
life
and
need
to
be
accounted
for
in
installation
and
operation.
Approaches
include
fairings,
helical
strakes,
fins
or
spoilers
to
reduce
lift,
dampers
or
tuned
mass
dampers,
and
design
adjustments
to
alter
natural
frequencies
or
stiffness.
Measurements
rely
on
sensors,
model
testing
(wind
or
water
tunnels),
and
computational
fluid
dynamics
to
predict
and
analyze
vortex-induced
responses.
The
term
encapsulates
phenomena
where
fluid
vortices
drive
mechanical
or
structural
behavior.