A new zero CO2 emission atmospheric

A new zero CO2 emission atmospheric pressure SOFC hybrid power system integrated with the OTM is proposed. The oxygen for the afterburner is produced by the OTM. The OTM can still offer power after O2 separation, which is ever greater than the energy consumption for compressing air 2. Moreover, the combustion product gas of the afterburner is almost CO2 and H2O without other
gas, so, it’s easy to separate the CO2 from the system in this condition and the system can still remain high efficiency. The research results show that the efficiency of the zero CO2 emission atmospheric pressure SOFC hybrid power system integrated with OTM is around 58.36%,
which is only 2.48% lower than that of the system without CO2 capture (60.84%) but 0.96% higher than that of the zero CO2 emission atmospheric pressure SOFC hybrid system with the cryogenic air separation unit under the same condition. In addition, the fuel utilization factor of
SOFC and the pressure ratio (ε) between two sides of OTM membrane as the key factor are analyzed and discussed. The system performance enhances with the decrease of ε and the increase of the fuel utilization factor of SOFC. But the proper ε should be selected to meet the minimum value of the oxygen partial pressure ratio. In addition, in order to comprehensively evaluate and compare the system performances, the cost should be considered in the future research. The research results from this paper will provide a valuable reference for further study
on zero CO2 emissions SOFC hybrid power systems with higher efficiency.