Sewage
sludge incineration in a fluidized bed is considered to
be one of the most suitable ways of sewage sludge disposal. This process
reduces the volume of the waste and causes the destruction of organic
contaminants such as POPs, pharmaceuticals, and other compounds with
endocrine-disrupting potential. Oxygen-enriched air combustion and
oxy–fuel combustion can increase the combustion efficiency,
reduce the amount of flue gas, and make possible CO2 capture
more effective. However, the influence of incineration medium composition
has not yet been thoroughly investigated in the case of sewage sludge
incineration. In this paper, the incineration of sewage sludge in
a bubbling fluidized bed reactor was studied at oxygen-enriched air
conditions, oxy–fuel conditions, and oxy–fuel conditions
with zero and nonzero concentrations of steam, CO, NO, N2O, and SO2 in the inlet combustion medium. Consequently,
the effects of various operating parameters on pollutants formation
were comprehensively described with emphasis on aforementioned sewage
sludge incineration processes. An increase in combustion temperature
resulted in an increase in NO
x
and SO2 emissions and in a decrease in N2O emissions.
Increase in inlet oxygen concentration led to a decrease in NO
x
and N2O emissions. N2O and SO2 emissions were higher in CO2-rich
atmosphere (oxy–fuel combustion conditions). The presence of
water vapor in the inlet combustion medium resulted mainly in the
reduction of NO
x
emissions. The presence
of CO, NO, N2O, and SO2 in the dry inlet combustion
medium reduced mainly overall nitrogen-to-NO
x
conversion, while the effect on SO2 removal efficiency
was only marginal.
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