Study on pure oxygen exhaust gas combustion: key technology of CO2 capture for high temperature fuel cell with coal syngas

IGFC based on high temperature SOFC coupled with CO2 capture process provides a new technology route of high efficiency and nearly zero CO2 emission power system. Flame burning is an ideal method for tail gas treatment. In this paper, an oxy-combustor for a 10kW IGFC system anode exhaust gas is experimentally and numerically studied. Simulation method is verified by experiments. Key performances of the combustor are studied under different system process design conditions. 315K might be an ideal condensation temperature before burning for flame stability. CO could be almost fully converted under flame burning condition.CO2 concentration after burning is over 0.958 when excess O2 is less than 5%. Overall, 5% excess O2 could be recommended for environmental consideration. An optimal tangential angle exists around 25°for liner temperature controlling. Systems with anode cycling might release less CO pollutant in theory for no addition of extra H2O. Total fuel utilization percent had better be high enough to make oxygen flame temperature of anode exhaust gas lower than 1800K to make systems environment friendly. The results would be of great value to IGFC and CO2 capture combined system designing.