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Controlling Deoxygenation Pathways in Catalytic Fast Pyrolysis of Biomass and Its Components by Using Metal-Oxide Nanocomposites

机译：金属氧化物纳米复合材料控制生物质及其组分催化快速热解中的脱氧途径

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Selectively breaking the C-O bonds within biomass during catalytic fast pyrolysis (CFP) is desired, but extremely challenging. Herein, we develop a series of metal-oxide nanocomposites composed of W, Mo, Zr, Ti, or Al. It is demonstrated that the nanocomposites of WO -TiO -Al O exhibit the highest deoxygenation ability during CFP of lignin, which can compete with the commercial HZSM-5 catalyst. The nanocomposites can selectively cleave the C-O bonds within lignin-derived phenols to form aromatics by direct demethoxylation and subsequent dehydration. Moreover, the nanocomposites can also achieve the selective breaking of the C-O bonds within xylan and cellulose to form furans by dehydration. The Brønsted and Lewis acid sites on the nanocomposites can be responsible for the deoxygenation of lignin and polysaccharides, respectively. This study provides new insights for the rational design of multifunctional catalysts that are capable of simultaneously breaking the C-O bonds within lignin and polysaccharides.

机译：期望在催化快速热解（CFP）期间选择性地破坏生物质内的C-O键，但是极具挑战性。本文中，我们开发了一系列由W，Mo，Zr，Ti或Al组成的金属氧化物纳米复合材料。结果表明，WO-TiO-Al O纳米复合材料在木质素的CFP过程中表现出最高的脱氧能力，可以与商业化的HZSM-5催化剂竞争。纳米复合材料可通过直接脱甲氧基化和随后的脱水选择性地裂解木质素衍生的酚内的C-O键以形成芳族化合物。此外，纳米复合材料还可以通过脱水使木聚糖和纤维素内的C-O键选择性断裂以形成呋喃。纳米复合材料上的布朗斯台德和路易斯酸位点分别负责木质素和多糖的脱氧。这项研究为合理设计多功能催化剂提供了新见解，这些催化剂能够同时破坏木质素和多糖中的C-O键。

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期刊名称 iScience
作者
Anqing Zheng; Zhen Huang; Guoqiang Wei; Kun Zhao; Liqun Jiang; Zengli Zhao; Yuanyu Tian; Haibin Li;
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年(卷),期 2020(23),1
年度 2020
页码 -1
总页数 28
原文格式 PDF
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中图分类
关键词
Catalysis; Biomass; Chemical Engineering;

机译：催化;生物质;化学工程;
入库时间 2022-08-21 11:40:45

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专利

1. Catalyst deactivation, ash accumulation and bio-oil deoxygenation during ex situ catalytic fast pyrolysis of biomass in a cascade thermal-catalytic reactor system [J] . Kalogiannis Konstantinos G., Stefanidis Stylianos D., Lappas Angelos A. Fuel Processing Technology . 2019,第期

机译：级联热催化反应器系统中EX原位催化快速热解期间催化剂去激活，灰分积聚和生物油脱氧
2. Catalytic fast pyrolysis of biomass: Selective deoxygenation to balance the quality and yield of bio-oil [J] . Xu Chen, Yingquan Chen, Haiping Yang, Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2019,第期

机译：生物质的催化快速热解：选择性脱氧，平衡生物油的质量和产量
3. Screening acidic zeolites for catalytic fast pyrolysis of biomass and its components [J] . David J. Mihalcik, Charles A. Mullen, Akwasi A. Boateng Journal of Analytical & Applied Pyrolysis . 2011,第1期

机译：筛选酸性沸石进行生物质及其组分的催化快速热解
4. The Role of Zeolite Structure and Acidity in Catalytic Deoxygenation of Biomass Pyrolysis Vapors [C] . Salman Raza Naqvi, Yoshimitu Uemura, Suzana Yusup International Conerence on Applied Energy . 2015

机译：沸石结构和酸度在生物质热解蒸汽催化脱氧中的作用
5. Deactivation of ZSM-5 during Catalytic Fast Pyrolysis of Biomass [D] . Stanton, Alexander R. 2018

机译：生物质催化快速热解过程中ZSM-5的失活
6. Catalytic Fast Pyrolysis of Biomass Impregnated with Potassium Phosphate in a Hydrogen Atmosphere for the Production of Phenol and Activated Carbon [O] . Qiang Lu, Zhen-xi Zhang, Xin Wang, 2018

机译：氢气氛中浸渍有磷酸钾的生物质的催化快速热解用于生产苯酚和活性炭
7. Controlling Deoxygenation Pathways in Catalytic Fast Pyrolysis of Biomass and Its Components by Using Metal-Oxide Nanocomposites [O] . Anqing Zheng, Zhen Huang, Guoqiang Wei, 2020

机译：用金属氧化物纳米复合材料控制生物质及其组分催化快速热解中的脱氧途径

Controlling Deoxygenation Pathways in Catalytic Fast Pyrolysis of Biomass and Its Components by Using Metal-Oxide Nanocomposites

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