Process integration of chemical looping combustion with oxygen uncoupling in a biomass-fired combined heat and power plant

Bioenergy with CO2 capture and storage (BECCS) has been introduced as a promising negative emission technology (NET) that opens up the possibility of producing power and heat with negative CO2 emissions. By combining 1.5D reactor modelling with flowsheet simulation of a complete full-scale cogeneration plant, this study assesses the applicability and potential of an advanced CO2 capture technology, namely chemical looping with oxygen uncoupling (CLOU), for CO2 capture from a biomass-fired combined heat and power (CHP) plant generating electricity, district heat (DH) at 75-90 degrees C supply and 45 degrees C return temperatures, and process steam at 10 and 4.5 bar(a) pressures. Nordic wood (50% wet-basis moisture) is used as fuel. The key performance indicators of the CLOU-integrated CHP plant were quantified and compared with those of a non-CCS reference plant. Part-load operation at reduced DH loads was considered. At 100% fuel load, the CLOU plant captured 99.0% of the CO2 from the combustion of biomass and still achieved a net efficiency of 80.1%(LHV), a value very close to that of the reference plant without CO2 capture or flue gas condensation (81.1%(LHV)). Depending on the fuel load, the specific negative CO2 emissions from the CLOU plant ranged from 439 to 504 kg(CO2)/MWh. (C) 2020 The Author(s). Published by Elsevier Ltd.