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O-乙酰基-吡喃木糖热解反应机理的理论研究 被引量:8

Theoretical studies on pyrolysis mechanism of O-acetyl-xylopyranose
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摘要 为了从微观上理解半纤维素热解过程及其主要产物的形成演变机理,采用密度泛函理论方法 B3LYP/6-31G++(d,p),对O-乙酰基-吡喃木糖的热解反应机理进行了量子化学理论研究。在热解过程中,O-乙酰基-吡喃木糖中的O-乙酰基首先脱出,形成乙酸和中间体IM1,该步反应能垒为269.4 kJ/mol。IM1进一步发生开环反应形成IM2,开环反应能垒较低,为181.8 kJ/mol。对中间体IM2设计了四种可能的热解反应途径,对各种反应的反应物、产物、中间体和过渡态的结构进行了能量梯度全优化,计算了各热解反应途径的热力学和动力学参数。计算结果表明,反应路径(4)和反应路径(2)是O-乙酰基-吡喃木糖热解的主要反应通道,乙酸、乙醛、乙醇醛、丙酮、CO、CO2、CH4等小分子产物是热解的主要产物。这与相关实验结果分析是一致的。 In order to understand the pyrolysis mechanism of hemicellulose and to identify the formation pathways of key products during pyrolysis, the pyrolysis processes of O-acetyl-xylopyranose are investigated by using density functional theory methods at B3LYP/6-31G + + (d, p) level. In the pyrolysis, O-acetyl- xylopyranose firstly decomposes to form acetic acid and IM1 with an energy barrier of 269.4 kJ/mol, and then IM1 is converted to acyclic carbonyl isomer IM2 with a low energy barrier of 181. 8 kJ/mol. IM2 further decomposes to form all sorts of small molecules through four possible pyrolytic reaction pathways. The equilibrium geometries of the reactants, transition states, intermediate and products were fully optimized, and the standard thermodynamic and kinetic parameters of every reaction pathway were calculated. The calculation results show that reaction pathways (2) and (4) are the major reaction channels in pyrolysis of O-acetyl-xylopyranose and the major products are low molecular products such as acetic acid, acetaldehyde, glycolaldehyde, acetone, CO, CO2 and CH4, which is according with related analysis of experimental results.
作者 黄金保 刘朝 童红 李伟民 伍丹
机构地区 贵州民族大学理学院 重庆大学动力工程学院低品位能源利用技术及系统教育部重点实验室 贵州民族大学化学与环境科学学院
出处 《燃料化学学报》 EI CAS CSCD 北大核心 2013年第3期285-293,共9页 Journal of Fuel Chemistry and Technology
基金 国家自然科学基金(51266002) 贵州省科学技术基金(黔科合J字[2012]2188号) 贵州省"模式识别与智能系统"重点实验室建设项目(黔科合计[2009]4002)
关键词 O-乙酰基-吡喃木糖 热解机理 密度泛函理论 O-acetyl-xylopyranose pyrolysis mechanism density functional theory
分类号 TK6 [动力工程及工程热物理—生物能] O642 [理学—物理化学]
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参考文献17

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共引文献80

同被引文献54

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引证文献8

二级引证文献29

燃料化学学报
2013年 第3期

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