Effect of CO2-rich atmosphere on nitrogen configuration of char and bio-oil during nitrogen-rich pyrolysis of cellulose

Different volume ratios of carbon dioxide and nitrogen were mixed into the nitrogen-rich pyrolysis of cellulose, resulting in the production of nitrogen-doped biochar and nitrogen-containing bio-oil. When the urea mixture ratio was greater than 50%, the added CO2 promoted the production of nitrogen-...

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Bibliographic Details
Published in:Journal of the Energy Institute 2024-04, Vol.113, p.101501, Article 101501
Main Authors: Liu, Shanjian, Zhao, Wenjing, He, Zhisen, Yin, Mengqian, Yao, Jingang, Yi, Weiming
Format: Article
Language:English
Subjects:
Bio-oil
CO2 atmosphere
Nitrogen doped biochar
Thermal cracking
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Summary:Different volume ratios of carbon dioxide and nitrogen were mixed into the nitrogen-rich pyrolysis of cellulose, resulting in the production of nitrogen-doped biochar and nitrogen-containing bio-oil. When the urea mixture ratio was greater than 50%, the added CO2 promoted the production of nitrogen-containing bio-oil, reaching a maximum of 26.03% (M = 50%) at 10 vol% CO2 + 90 vol% N2. Pyridine, pyrrole, and amines were the main nitrogen-containing compounds produced when using atmospheres of pure nitrogen and carbon dioxide. Upon increasing the volume ratio of CO2, the nitrile content increased significantly, becoming one of the main nitrogen-containing compounds. In addition, due to chemical stability, the thermal conversion of CO2 demands a significant input of energy, so the required activation energy also increased. Adding CO2 to simulate high-temperature anoxic flue gas is a promising method for biomass pyrolysis to obtain nitrogen containing chemicals with high added value and high nitrogen doped Biochar. •Nitrogen-rich pyrolysis characteristics of biomass powered by hot flue gas were studied.•CO2 changed the nitrogen configuration of biochar to pyrrolidinic-N.•CO2 promoted the emergence of nitrile (15.18%) and pyrazine (38.05%).•Nitrogen compounds reached a higher content when the flue gas ratio was 10 vol% CO2.
ISSN:1743-9671
DOI:10.1016/j.joei.2023.101501