期刊
ENERGY CONVERSION AND MANAGEMENT
卷 215, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.enconman.2020.112913
关键词
Chemical looping; Deoxygenated gasification; Oxygen carrier; Syngas modulation; CO2 reduction
资金
- Open Funds of the Key Laboratory of Eco-restoration of Regional Contaminated Environment (Shenyang University)
- Ministry of Education [2019_ERRCE_K3]
- National Natural Science Foundation of China [51876224]
- Hunan Provincial Natural Science Foundation of China [2017JJ1031]
- Innovation-Driven Project of Central South University [2020CX008]
Chemical looping gasification is a promising technology for biomass utilization. However, the biomass-derived products contain tar and CO2, which seriously affects the syngas quality and hinders its development. A new approach, chemical looping deoxygenated gasification (CLDG), was proposed for high-quality, H-2/CO-tunable syngas generation with CO2 utilization via redox looping of CaO + Fe <-> Ca2Fe2O5. The CLDG process involves a deoxygenation reactor (DR) and a regeneration reactor (RR). Fe-0 continuously reduces the oxygen-containing species to drive high-quality syngas production in the DR, and the oxidized oxygen carrier (Fe3+) can be reduced under CO in the RR. A thermodynamic simulation was conducted to verify the feasibility of CLDG using Aspen Plus. The effects of DR and RR temperatures, of the molar ratios of Fe/O-bio, CO2/C, H2O/C, and (C + CO)/Fe on the syngas quality, H-2/CO molar ratio, and the efficiency of gasification, chemical looping deoxygenation, and CO2 reduction were investigated intensively and optimized to guide the CLDG process. The results indicate that CLDG can significantly improve the quality of syngas with various H-2-to-CO syngas modulations and CO2 reduction, obtaining a lower heating value (LHV) of 9.07 MJ/m(3), a gasification efficiency of 96.31%, a CO2 reduction efficiency of 44.51%, an H utilization efficiency of 79.52%, and a chemical looping deoxygenation efficiency of 17.55%.
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