Hydrotreating of Lignocellulosic Bio-Oil (A Review)

IF 1.3 4区 工程技术 Q3 CHEMISTRY, ORGANIC
G. O. Zasypalov, V. A. Klimovsky, E. S. Abramov, E. E. Brindukova, V. D. Stytsenko, A. P. Glotov
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引用次数: 0

Abstract

This review discusses recent advances in catalytic hydrodeoxygenation of lignocellulosic biomass. Lignocellulosic biomass is the most promising plant-based raw material for the production of liquid engine fuels or individual petrochemical monomers. Among the several existing techniques for biomass processing, pyrolysis offers superior efficiency. Given that the bio-oil produced by biomass pyrolysis has unsatisfactory performance characteristics caused by the presence of oxygenates, this bio-oil cannot be used directly as a fuel. Hydrodeoxygenation using selective catalysts is able to reduce the oxygen content in bio-oil and to improve its performance characteristics. To this end, bifunctional catalysts that contain active metal sites on an acid support hold promise. Noble metals (e.g., Pt, Pd, and Ru) and/or transition metals (e.g., Ni, Co, and Mo), as well as sulfides and phosphides of transition metals, can be used as an active catalytic phase. Metal oxides (e.g., ZrO2, CeO2, Al2O3, and TiO2), carbon, zeolites (e.g., ZSM-5, Y, Beta, and SAPO-11), and mesoporous silica-based materials (e.g., SBA-15 and MCM-41) have been most often used as supports in hydrodeoxygenation catalysts. However, the implementation and upscaling of the hydrodeoxygenation of biomass pyrolytic bio-oil is limited because of the rapid deactivation of the catalyst in the presence of water, due to sintering and leaching the active phase with acidic components of bio-oil. Therefore, the development of catalysts that would provide high activity and stability under bio-oil hydrodeoxygenation conditions has become one of the most pressing issues for the petrochemical industry.

Abstract Image

木质纤维素生物油的加氢处理(综述)
摘要 本综述讨论了木质纤维素生物质催化加氢脱氧的最新进展。木质纤维素生物质是最有希望用于生产液体发动机燃料或个别石化单体的植物原料。在现有的几种生物质加工技术中,热解技术具有更高的效率。由于生物质热解产生的生物油因含有含氧物而性能不佳,因此不能直接用作燃料。使用选择性催化剂进行加氢脱氧能够降低生物油中的氧含量,并改善其性能特征。为此,在酸性载体上含有活性金属位点的双功能催化剂大有可为。贵金属(如铂、钯和钌)和/或过渡金属(如镍、钴和钼)以及过渡金属的硫化物和磷化物可用作活性催化相。金属氧化物(如 ZrO2、CeO2、Al2O3 和 TiO2)、碳、沸石(如 ZSM-5、Y、Beta 和 SAPO-11)和介孔硅基材料(如 SBA-15 和 MCM-41)最常用作加氢脱氧催化剂的载体。然而,生物质热解生物油加氢脱氧的实施和升级受到了限制,因为在有水的情况下,由于烧结和生物油酸性成分对活性相的沥滤,催化剂会迅速失活。因此,开发在生物油加氢脱氧条件下具有高活性和稳定性的催化剂已成为石化工业最紧迫的问题之一。
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来源期刊
Petroleum Chemistry
Petroleum Chemistry 工程技术-工程:化工
CiteScore
2.50
自引率
21.40%
发文量
102
审稿时长
6-12 weeks
期刊介绍: Petroleum Chemistry (Neftekhimiya), founded in 1961, offers original papers on and reviews of theoretical and experimental studies concerned with current problems of petroleum chemistry and processing such as chemical composition of crude oils and natural gas liquids; petroleum refining (cracking, hydrocracking, and catalytic reforming); catalysts for petrochemical processes (hydrogenation, isomerization, oxidation, hydroformylation, etc.); activation and catalytic transformation of hydrocarbons and other components of petroleum, natural gas, and other complex organic mixtures; new petrochemicals including lubricants and additives; environmental problems; and information on scientific meetings relevant to these areas. Petroleum Chemistry publishes articles on these topics from members of the scientific community of the former Soviet Union.
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