A. Oksanen et R. Karvinen, COMBUSTION-GENERATED NOX AND COKE IN HEAVY RESIDUAL FUEL-OIL COMBUSTION, Combustion science and technology, 108(4-6), 1995, pp. 345-361
This paper deals with the numerical modelling of heavy residual fuel o
il combustion. Some results of combustion-generated nitric oxide and c
oke are presented. The emissions of both species are greatly affected
by a gas temperature and thus the modelling of soot concentration, whi
ch affects radiation heat transfer is of vital importance. The calcula
ted results of three combustion cases, the thermal inputs of which are
1.8, 3.5 and 36 MW, respectively, are compared with the measured ones
. A simplified model of the formation and reduction of nitric oxide, i
n which hydrogen cyanide is an intermediate phase between the phases o
f fuel nitrogen and nitric oxide, is used. The amount of coke generate
d is described with the so-called residual carbon rate coefficient xi,
which has in actual practice a non-linear relationship to the heavy r
esidues and chemical structure of the fuel. In this study it is assume
d that a fixed portion of vaporized fuel oil remains as coke, i.e. xi
has a constant value. The prediction of the absorptivity of soot is ba
sed on the idea that soot is formed in the zones where fuel vapor is b
urning.