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oxyfuel

Oxyfuel refers to processes that burn fuel gas in oxygen rather than in air, yielding a hotter, more controllable flame and an atmosphere that can be tailored for specific metalworking or combustion outcomes. The term covers both metalworking applications, such as welding and cutting, and industrial combustion schemes designed to facilitate carbon capture by producing CO2-rich exhaust.

In oxy-fuel welding and cutting, a burner blends a fuel gas (acetylene, propane, or natural gas) with

Beyond welding and cutting, oxy-fuel combustion is used in some power generation and industrial furnace contexts

Equipment and safety considerations are central to oxyfuel systems, including oxygen supply, fuel gas handling, burners,

a
high-purity
oxygen
stream.
In
welding,
the
flame
type
is
chosen
to
achieve
neutral,
oxidizing,
or
reducing
conditions
for
proper
metal
fusion.
In
cutting,
the
preheated
metal
is
oxidized
by
a
jet
of
oxygen
that
blows
away
the
molten
oxide,
enabling
clean
cuts
in
ferrous
metals.
Benefits
include
higher
flame
temperature,
precise
control,
portability,
and
compatibility
with
a
range
of
metals.
Drawbacks
include
higher
oxygen
consumption,
safety
hazards
associated
with
flammable
gases
and
oxygen,
and
limited
suitability
for
non-ferrous
metals,
which
may
oxidize
or
behave
differently
under
the
flame.
to
burn
fuel
in
nearly
pure
oxygen
instead
of
air.
The
resulting
flue
gas
is
predominantly
CO2
and
water,
which
can
simplify
carbon
capture
and
storage.
Implementing
this
approach
requires
an
air
separation
unit
to
supply
oxygen,
introduces
energy
penalties,
and
influences
furnace
design,
heat
transfer,
and
material
requirements.
and
proper
insulation.
Safe
operation
hinges
on
managing
the
high
flame
temperatures
and
the
oxidizer-rich
environment
to
prevent
unintended
ignition
and
chemical
hazards.