posted on 2018-08-08, 00:00authored byJingzhang Liu, Baihang Li, Jianguo Zhu
In
oxyfuel combustion with temperature higher than ash flowing
temperature (FT), both chemical interactions between the char gasification
reaction with carbon dioxide, that is, C+CO2 → 2CO,
and the char oxidation reaction with oxygen, that is, C + (2-f)/2O2 → fCO + (1-f)CO2, are needed for further
investigation. Both experiments and a novel developed kinetics model
compared with three previous kinetics models are implemented to investigate
oxy- and air-char combustion behaviors. Results show that in high
temperature the maximum burning rate ratio as 34.8% from gasification
is smaller than that as 47.1% in moderate temperature for inner pore
reduction induced by ash mineral melting. The char mean consumption
rate of sole gasification with carbon dioxide in 1773 K is 1.25 times
to that in 1273 K, but this burning rate under 27%O2/CO2 is 0.69 times to that in 1273 K. The mean burning rate ratio
of char gasification increases from 28.0% to 40.0% in 1273 K and 1773
K, respectively.