摘要
热解是利用生物质能的一种高效且经济的方式,但生物质热解气中的含氮化合物使热解气品质低且燃烧导致空气二次污染。本工作总结了生物质热解气中的含氮化合物研究现状,主要综述了典型生物质热失重行为,探讨了生物质热解气中含氮化合物的生成机理,分析了含氮化合物的分布状况和控制的研究进展。同时,指出了含氮化合物控制在实际应用中面临的困难挑战,进一步展望了含氮化合物控制工艺优化及经济性分析的重点研究方向,为生物质热解气净化提供理论依据和技术支持。
Biomass energy plays an important role in combating global warming and the depletion of fossil energy sources.Although different recovery technologies of biomass energy were utilized industrially,the development level of different recovery technologies varies.The application of biomass energy includes technologies such as combustion,pyrolysis,gasification,and fermentation.The pyrolysis technology is an efficient and economical method to utilize biomass energy,which combines the advantage of energy recovery and product diversification.However,the N-containing compounds in the biomass pyrolysis gas make the pyrolysis gas of low quality,which combustion leads to secondary pollution of air.This review summaries the research status of N-containing compounds in the biomass pyrolysis gas,mainly reviewing the differences in the thermos-gravimetric behavior of typical biomass and the four compositions in biomass(cellulose,hemicellulose,lignin,and proteins).There were significant differences in the thermos-gravimetric behavior of biomass with different material compositions,but the whole TG curve can be divided into three stages:in the first stage,the pyrolysis of easily decomposable components in biomass releases small molecule gases and steam;in the second stage,the pyrolysis of cellulose,hemicellulose,and lignin in biomass released a large amount of O-containing bio-oil;in the third stage,the volatile components attached to the surface of the bio-char were cracked again and condensation reaction occurs.The nitrogen content in biomass was high,and during the pyrolysis process,nitrogen migrated into the solid-liquid-gas three-phase,and the migration transformation process was extremely complex.This review also discussed the generation mechanism of N-containing compounds in biomass pyrolysis gas and analyzed the distribution and control research of Ncontaining compounds.The NH3 in the low-temperature pyrolysis gas was mainly derived from the direct pyrolysis of protein in biomass.With the increase of pyrolysis temperature,
作者
王凤超
朱虹宇
阴秀丽
徐彬
李伟振
刘华财
WANG Fengchao;ZHU Hongyu;YIN Xiuli;XU Bin;LI Weizhen;LIU Huacai(Guangzhou Institute of Energy Conversion,Chinese Academy of Sciences,CAS Key Laboratory of Renewable Energy,Guangdong Provincial Key Laboratory of New and Renewable Energy Research and Development,Guangzhou 510640,China)
出处
《燃料化学学报(中英文)》
EI
CAS
CSCD
北大核心
2024年第6期905-920,共16页
Journal of Fuel Chemistry and Technology
基金
中国科学院战略性先导科技专项课题(XDA29010400)
国家自然科学基金(52106282)
吉林省与中国科学院科技合作项目(2021-SYHZ0014)
长春市科技发展计划项目(22SH20)
工业源生物质原料燃料化应用调配成型关键技术及示范(执行)(E339010101)资助。
关键词
生物质
热解
含氮化合物
生成机理
脱除
biomass
pyrolysis
N-containing compound
generation mechanism
removal
