Volatile-char interactions during biomass pyrolysis: Contribution of amino group on graphitized carbon nanotube to xylose evolution based on experimental and theoretical studies

Huang Yong; Liu Shasha; Wu Yishuang; Zhu Xun; Xu Zhixiang; Li Bin; Hu Xun; Sun Hongqi; Zhou Jianbin; Zhang Shu

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Volatile-char interactions during biomass pyrolysis: Contribution of amino group on graphitized carbon nanotube to xylose evolution based on experimental and theoretical studies

机译：生物质热解期间的挥发性炭相互作用：基于实验和理论研究的氨基对石墨化碳纳米管的贡献

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Char surface functional group has been shown to play an important role in volatile-char interactions during biomass pyrolysis, which are known to be effective for the modification of the pyrolysis products. Using xylose and amino-modified graphitized carbon nanotube (CNT-NH2) as model compounds, the contribution of the designated surface functional group to the evolution of pyrolysis volatile was investigated in this paper by combined theoretical and experimental approaches. The results showed that the interactions between xylose and CNT-NH2 significantly prevented the ring-opening reaction of xylose to form the most typical anhydrosugar, xylosan, while the ring-contraction reaction of xylose was facilitated to yield furfural. The Density Functional Theory (DFT) calculations demonstrated that two medium hydrogen bonds were formed between the amino group and two hydroxyl groups (1-OH and 3-OH) of xylose with a binding energy of -11.67 kcal/mol, leading to diverse changes in the Mayer bond orders of xylose and thus varying pyrolysis pathways.

机译：已经证明了炭表面官能团在生物质热解期间在挥发性炭相互作用中发挥着重要作用，已知为改变热解产物是有效的。用木糖和氨基改性石墨化碳纳米管（CNT-NH2）作为模型化合物，通过组合理论和实验方法研究了指定表面官能团的贡献，以通过组合的理论和实验方法研究了本文的热解挥发的演化。结果表明，木糖和CNT-NH2之间的相互作用显着防止了木糖的开环反应形成最典型的脂肪糖蛋糖，即木质糖的齿圈收缩反应促进糠醛。密度官能理论（DFT）计算证明，在氨基和两个羟基（1-OH和3-OH）之间形成了两种培养基氢键，其具有-11.67kcal / mol的结合能量，导致不同的变化在木糖的Mayer键命令中，因此改变热解途径。

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来源
《Fuel》 |2020年第15期|118921.1-118921.7|共7页
作者
Huang Yong; Liu Shasha; Wu Yishuang; Zhu Xun; Xu Zhixiang; Li Bin; Hu Xun; Sun Hongqi; Zhou Jianbin; Zhang Shu;
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作者单位

Nanjing Forestry Univ Coll Mat Sci & Engn Joint Int Res Lab Biomass Energy & Mat Nanjing 210037 Peoples R China;

Nanjing Forestry Univ Coll Mat Sci & Engn Joint Int Res Lab Biomass Energy & Mat Nanjing 210037 Peoples R China;

Nanjing Forestry Univ Coll Mat Sci & Engn Joint Int Res Lab Biomass Energy & Mat Nanjing 210037 Peoples R China;

Hanshan Normal Univ Sch Mat Sci & Engn Chaozhou 521041 Peoples R China;

Jiangsu Univ Sch Energy & Power Engn Zhenjiang 212013 Jiangsu Peoples R China;

Jiangsu Univ Sch Energy & Power Engn Zhenjiang 212013 Jiangsu Peoples R China;

Univ Jinan Sch Mat Sci & Engn Jinan 250022 Shandong Peoples R China;

Edith Cowan Univ Sch Engn 270 Joondalup Dr Joondalup WA 6027 Australia;

Nanjing Forestry Univ Coll Mat Sci & Engn Joint Int Res Lab Biomass Energy & Mat Nanjing 210037 Peoples R China;

Nanjing Forestry Univ Coll Mat Sci & Engn Joint Int Res Lab Biomass Energy & Mat Nanjing 210037 Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Biomass pyrolysis; Volatile-char interactions; Hemicellulose; Functional group;

机译：生物质热解;挥发性炭相互作用;半纤维素;功能群;

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1. Volatile-Char Interactions during Biomass Pyrolysis: A Case Study of a Lignin Model Compound and Functionalized Graphitized Carbon Nanotubes [J] . Liu Shasha, Wu Yishuang, Zhang Jie, Energy & fuels . 2019,第Nova期

机译：生物质热解过程中的挥发炭相互作用：木质素模型化合物和功能化石墨化碳纳米管的案例研究
2. Volatile?char interactions during biomass pyrolysis: Cleavage of C?C bond in a B?5 lignin model dimer by amino -modified graphitized carbon nanotube [J] . Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2020,第期

机译：挥发性？生物量热解期间的炭相互作用：通过氨基制浆化石墨化碳纳米管（氨基型石墨化碳纳米管）在B 2中粘合C 2 C键
3. Volatile-char interactions during biomass pyrolysis: Effect of char preparation temperature [J] . Bin Li, Lijun Zhao, Xing Xie, Energy . 2021,第Pta2期

机译：生物质热解期间的挥发性炭相互作用：耐炭的效果
4. Theoretical study of hydrogen isotope velocity differentiation in carbon nanotubes and graphite [C] . A.S.Fedorov, P.V.Avramov, S.G.Ovchinnikov, XVI International Winterschool on Electronic Properties of Novel Materials Mar 2-9, 2002 Kirchberg, Tirol, Austria . 2002

机译：碳纳米管和石墨中氢同位素速度分化的理论研究
5. Nanoscale adhesion interactions in carbon nanotube based systems and experimental study of the mechanical properties of carbon and boron nitride nanotubes. [D] . Zheng, Meng. 2012

机译：基于碳纳米管的系统中的纳米尺度粘附相互作用以及碳和氮化硼纳米管力学性能的实验研究。
6. Reductive diazotation of carbon nanotubes: an experimental and theoretical selectivity study [O] . Milan Schirowski, Christoph Tyborski, Janina Maultzsch, 2019

机译：碳纳米管的还原重氮化：实验和理论选择性研究
7. This article presents a new numerical model describing the behaviour of a thermally thick wood sample exposed to high solar heat flux (above 1 MW/m2). A preliminary study based on dimensionless numbers is used to classify the problem and support model building assumptions. Then, a model based on mass, momentum and energy balance equations is proposed. These equations are coupled with liquid-vapour drying model and pseudo species biomass degradation model. By comparing to a former experimental study, preliminary results have shown that these equations are not enough to accurately predict biomass behaviour under high solar heat flux. Indeed, a char layer acting as radiative shield forms on the sample exposed surface. In addition to this classical set of equations, it is mandatory to take into account radiation penetration into the medium. Furthermore, as biomass contains water, medium deformation consecutively to char steam gasification must also be implemented. Finally, with the addition of these two strategies, the model is able to properly capture the degradation of biomass when exposed to high radiative heat flux over a range of sample initial moisture content. Additional insights of biomass behaviour under high solar heat flux were also derived. Drying, pyrolysis and gasification fronts are present at the same time inside of the sample. The coexistence of these three thermochemical fronts leads to char gasification by the steam produced from drying of the sample, which it is the main phenomenon behind medium ablation. [O] . Pozzobon, Victor, Salvador, Sylvain, Bézian, Jean Jacques 2018

机译：本文提供了一个新的数值模型，该模型描述了暴露于高太阳热通量（高于1 / MW / m2）的热厚木材样品的行为。基于无量纲数的初步研究用于对问题进行分类并支持模型构建假设。然后，提出了一种基于质量，动量和能量平衡方程的模型。这些方程式与液体蒸汽干燥模型和假物种生物质降解模型耦合。通过与以前的实验研究进行比较，初步结果表明，这些方程不足以准确预测高太阳热通量下的生物量行为。的确，在样品暴露的表面上形成了充当辐射屏蔽层的炭层。除了这套经典的方程式之外，还必须考虑到辐射向介质的渗透。此外，由于生物质中含有水，因此还必须在炭蒸气汽化后进行连续的介质变形。最后，通过添加这两种策略，该模型能够在一定范围的样品初始水分含量下暴露于高辐射热通量的情况下，正确捕获生物质的降解。还得出了在高太阳热通量下生物量行为的其他见解。样品内部同时存在干燥，热解和气化前沿。这三个热化学前沿的共存会导致样品干燥产生的蒸汽产生焦炭气化，这是介质烧蚀的主要现象。

Volatile-char interactions during biomass pyrolysis: Contribution of amino group on graphitized carbon nanotube to xylose evolution based on experimental and theoretical studies

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