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combustie

Combustie, commonly referred to as combustion, is the chemical process in which a fuel reacts rapidly with an oxidizer, releasing heat and often light. It is an exothermic oxidation reaction that typically requires an ignition source and a sufficient supply of oxidizer. In hydrocarbon fuels, complete combustion with enough oxygen yields carbon dioxide and water; energy is released as heat. Incomplete combustion, caused by limited oxygen or poor mixing, produces carbon monoxide, soot, and other pollutants, with lower energy efficiency.

Key factors include the stoichiometric air–fuel ratio, mixture richness, temperature, and pressure. The equivalence ratio describes

Applications are widespread: internal combustion engines, gas turbines, boilers, furnaces, and various industrial processes, as well

Environmental and safety considerations include emissions of CO2, carbon monoxide, nitrogen oxides, and particulates; flame hazards,

The word combustie derives from Latin combustio, via French and English terminology. The concept has central

how
lean
(excess
oxidizer)
or
rich
(excess
fuel)
a
mixture
is.
Different
flame
regimes
exist,
such
as
premixed
flames,
diffusion
flames,
and
flameless
oxidation.
Combustion
can
proceed
as
deflagration
(subsonic
flame
front)
or
detonation
(supersonic
shock-driven).
as
residential
fires
and
welding
torches.
The
efficiency
and
emissions
of
combustion
depend
on
design,
fuel
type,
and
operating
conditions.
ignition
risks,
and
explosion
potential.
Pollution
controls,
proper
ventilation,
and
process
optimization
are
used
to
reduce
impacts,
while
advances
in
catalysis
and
alternative
fuels
aim
to
decrease
environmental
footprint.
importance
in
energy
production,
transport,
and
safety
engineering.