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exergia

Exergia, or exergy in English, is a thermodynamic measure of the maximum useful work that can be extracted from a system as it comes into equilibrium with a specified reference environment. It complements energy, which is conserved, by accounting for the quality or usefulness of energy. In real processes, exergy decreases due to irreversibilities such as friction, mixing, finite temperature differences, and heat transfer to or from the environment.

Exergy exists in two broad components. Physical exergy arises from differences in temperature, pressure, and mechanical

A common way to describe exergy is through an exergy balance. For a control volume, the rate

Applications of exergy analysis include evaluating and comparing energy systems, diagnosing where losses occur, guiding design

state
between
the
system
and
its
environment.
Chemical
exergy
accounts
for
the
composition
of
the
system
relative
to
the
environment
and
represents
the
potential
to
do
work
through
chemical
reactions.
In
open
(flow)
systems,
exergy
is
carried
by
moving
streams,
and
the
exergy
of
a
process
includes
both
physical
and
chemical
contributions.
form
is
Ein
Xdot
minus
Eout
Xdot
minus
Xdest,
where
Xdot
is
the
exergy
flow,
and
Xdest
represents
exergy
destruction
due
to
irreversibilities.
An
exergy
efficiency
or
availability
efficiency
is
often
defined
as
the
useful
exergy
output
divided
by
the
exergy
input,
providing
a
measure
of
how
effectively
a
process
converts
available
environmental
resources
into
work
or
usable
energy.
improvements,
and
informing
sustainability
assessments.
By
focusing
on
the
quality
of
energy
and
the
sources
of
irreversibility,
exergy
analysis
helps
optimize
processes
beyond
what
conventional
energy
balances
can
reveal.