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Gasliquid

Gas-liquid refers to systems and processes in which gaseous and liquid phases of a substance or mixture co-exist or convert into one another. This concept is central to thermodynamics, phase behavior, and many chemical-engineering applications. In a gas-liquid system, at a given temperature and pressure the liquid and vapor phases are in equilibrium, so their chemical potentials are equal. The two-phase region is often depicted on a vapor-liquid equilibrium diagram, bounded by bubble-point and dew-point curves.

When heat is added to a liquid at a fixed pressure, vapor pressure increases and the liquid

Applications of gas-liquid concepts are widespread. They include distillation and flash separation in petrochemicals, gas absorption

boils
at
the
bubble
point.
Conversely,
cooling
a
vapor
at
a
fixed
pressure
leads
to
condensation
at
the
dew
point.
For
pure
substances,
the
gas
and
liquid
phases
become
indistinguishable
at
the
critical
point,
where
the
liquid-gas
density
difference
vanishes.
For
mixtures,
ideal
behavior
is
rarely
sufficient;
activity
coefficients
and
equations
of
state
are
used
to
model
deviation
from
ideality,
informing
vapor-liquid
equilibrium
data
and
flash
calculations.
and
stripping,
natural
gas
processing,
and
carbon
capture.
In
multiphase
flow,
gas-liquid
mixtures
exhibit
regimes
such
as
bubbly,
slug,
and
churn
flow,
which
affect
transport
and
equipment
design.
Measurement
of
VLE
data,
detection
of
dew
and
bubble
points,
and
computational
modeling
with
equations
of
state
are
essential
for
designing
efficient
and
safe
processes
involving
gas-liquid
interfaces.