Abstract
The estimation of acid dew point temperature (Tadp) of flue gas, which is mainly determined by SO3 concentration and steam concentration (CH2O) in flue gas, is crucial for coal-fired boiler system design. In this work, the heterogeneous and homogeneous effects for the conversion of SO2 to SO3 in the oxy-fuel flue gas have been examined. An updated formula for Tadp estimation of flue gas was proposed, which is:Tadp=186+20lgCH2O+26lg(CSO2*(127.65CSO2*−0.585+lgAar×αflyCSO2*12×(15.191+0.071Fe+0.044Al−0.058Ca−0.117Mg)×10−2))The updated formula shows that the main effects of the Tadp were the steam concentration, initial SO2 concentration (CSO2, ppm), ash content of raw coal (Aar, %), fly ash proportion of the inherent coal ash (αfly, %), main mineral contents of coal ash (Fe, Al, Ca, Mg, g/kg). The formula was then fully validated by a large amount of data obtained from laboratory-scale experiments, pilot-scale experiments and industrial scale coal-fired power plants. The results showed that, the heterogeneous effect for the conversion of SO2 to SO3 contributed to 1.33 to 20.86% of the total SO3 formed, smaller than the homogenous effect. Furthermore, the influence of the heterogeneous effect for oxy-fuel process was 1.2–1.6 times larger than that for the conventional air-fired process. The accuracy of the updated formula was proven much higher than the conventional empirical formula for air-firing combustion. The relative deviation of the calculation for oxy-fuel combustion by the updated formula was <7.8%.
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