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pervaporation

Pervaporation is a membrane-based separation process used to separate liquid mixtures by partial vaporization through a dense, selective membrane. A liquid feed contacts the membrane on the feed side, while the permeate side is kept under vacuum or swept with an inert gas to continuously remove the vapor that forms. The separation relies on differences in solubility and diffusivity of the components within the membrane, described by the solution-diffusion mechanism.

In operation, components dissolve into the membrane, diffuse across it, and vaporize on the opposite side. The

Pervaporation is versatile for separating azeotropes and heat-sensitive mixtures. Common applications include dehydration of organic solvents

Membranes used fall into polymeric and inorganic categories. Polymeric membranes, such as polyimides, are tailored for

Advantages include lower energy for certain separations compared with distillation, especially for breaking azeotropes and for

driving
force
is
the
partial
pressure
difference
across
the
membrane,
maintained
by
the
vacuum
or
sweep
on
the
permeate
side.
Permeate
is
typically
a
vapor
that
is
condensed
outside
the
module.
(notably
ethanol
and
isopropanol),
removal
of
water
from
organic
feedstocks,
solvent
recovery,
and
purification
of
aromas
or
essential
oil
components.
It
is
also
used
for
removing
volatile
organic
compounds
from
aqueous
streams
and
for
trace
solvent
cleanup.
high
selectivity
toward
water
over
organics.
Inorganic
and
ceramic
membranes
(e.g.,
silica,
zeolites)
offer
thermal
and
chemical
resistance
for
aggressive
feeds
or
higher-temperature
operation.
Composite
membranes
combine
a
selective
top
layer
with
a
robust
support.
heat-sensitive
feeds.
Limitations
involve
a
trade-off
between
flux
and
selectivity,
susceptibility
to
swelling
and
plasticization,
fouling,
and
the
costs
of
membranes
and
vacuum
or
sweep
systems.
Pervaporation
is
often
used
in
hybrid
configurations
with
distillation
to
achieve
efficient
separations.