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electrocinética

Electrocinética is a field that studies how electric fields influence the movement of fluids and charged particles in liquid media, and how fluid motion conversely generates electric responses in charged systems. It covers transport phenomena that arise from the coupling of electrostatics and hydrodynamics at solid–liquid interfaces, typically in electrolytes.

The main phenomena include electrophoresis, the motion of dispersed charged particles under an applied electric field;

Theoretical description typically couples fluid dynamics with electrostatics. In many contexts, viscous, incompressible flow is described

Applications include microfluidic lab-on-a-chip devices, capillary electrophoresis, electrokinetic deposition, electroosmotic pumps, and in environmental engineering for

electroosmosis,
the
bulk
movement
of
liquid
through
a
capillary
or
porous
wall
due
to
a
stationary
surface
charge
when
an
electric
field
is
applied;
and
streaming
potential,
an
electric
voltage
produced
by
pressure-driven
flow
through
a
channel
or
porous
medium.
Dielectrophoresis,
the
movement
of
neutral
but
polarizable
particles
in
nonuniform
electric
fields,
is
often
treated
within
related
electrokinetic
frameworks.
Electrokinetic
effects
are
central
in
microfluidics
and
nanofluidics,
enabling
pumping,
mixing,
separation,
or
deposition
without
moving
parts.
by
the
Navier–Stokes
equations
augmented
with
an
electric
body
force
term
derived
from
the
local
charge
density
and
electric
field;
the
electric
potential
and
charge
distribution
are
described
by
Poisson–Boltzmann
or
related
models
for
the
electric
double
layer.
Key
quantities
include
the
Debye
length
and
the
zeta
potential,
which
characterize
the
interfacial
region
where
electrostatic
forces
act.
soil
and
groundwater
remediation.
Measurements
often
rely
on
electrophoretic
mobility,
streaming
current
and
potential,
and
zeta-potential
analysis.