期刊
FUEL PROCESSING TECHNOLOGY
卷 221, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.fuproc.2021.106903
关键词
Biochar; Tar reforming; Coke deposition; Methane cracking; N(2 )adsorption
资金
- National Natural Science Foundation of China [51906052]
- China Postdoctoral Science Foundation [2020 M670908]
- Heilongjiang Provincial Postdoctoral Science Foundation [LBH-Z19151]
- Foundation of Key Laboratory of LowGrade Energy Utilization Technologies Systems [LLEUTS-202115]
The formation of coke deposition is a major obstacle in the development of tar reforming and biomass thermal conversion. Biochar produced at 800 degrees C was used for catalytic reforming of biomass pyrolysis tar at 650 degrees C, leading to increased coke yield and decreased tar removal efficiency with extended feeding time. Biochar is more efficient in removing aliphatic components from tar than aromatic components, and catalytic reforming of tar leads to increased aromatization. Additionally, the addition of biochar has minimal impact on CO and CO2 yield but affects CH4 and H2 yield.
Formation of coke deposition is the main problem that restricts the development of tar reforming and even biomass thermal conversion. Biochar, prepared from gasification at 800 degrees C, was used for the catalytic reforming of biomass pyrolysis tar at 650 degrees C, monitoring the syngas formation during coke deposition. The principal consequences and conclusions are as follows: the coke yield increases from 10.9% to 18.9%, and the tar removal efficiency decreases from 89.0% to 56.7% when the feeding time of biomass is extended (10-50 min). The number of O-containing groups on the biochar surface decreases, and the proportion of minor aromatic rings increases. Biochar is more efficient in the catalytic removal of aliphatic components from tar than aromatic components. Catalytic reforming leads to the development of tar in the direction of increased aromatization. The addition of biochar has essentially no effect on CO yield and CO2 yield, while the CH4 yield decreases and the H2 yield increases. In addition to tar reforming, CH4 cracking is one of the pathways for coke generation on the biochar surface. The number of physical adsorption sites (nN2) and adsorption equilibrium constant (b) of biochar are obtained based on the N2 adsorption test.
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