DFT study of Oxidation Initiation for Different Compound in Gasoline

Na Li, J. Long, Yi Zhao, Zhiping Tao, Zhenyu Dai
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引用次数: 3

Abstract

A DFT study of oxidation initiation reaction for same carbon number but different type hydrocarbon compound in gasoline was performed. Firstly, the homolytic dissociation energies of the C-H bond in various hydrocarbon molecules were calculated and the C-H active site which was most likely to be attacked by oxygen molecules was obtained. Then, the reaction barrier of oxidation initiation reaction for different gasoline hydrocarbon molecules was compared. Furthermore, frontier orbital theory was used to analyze the chain initiation mechanism. It was found that the symmetry and energy gap of the HOMO orbitals of gasoline hydrocarbon molecules and the LUMO orbitals of oxygen molecule are the decisive factors in the oxidation initiation reaction. The results indicate that the reaction barrier of the olefin is much lower than other hydrocarbons. On the other hand, the energy gap between the HOMO orbital of 2, 4-hexadiene and the LUMO orbital of the oxygen is much lower than other molecules just followed by 1-hexene.
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汽油中不同化合物氧化起始的DFT研究
对汽油中相同碳数不同类型烃类化合物的氧化引发反应进行了离散傅里叶变换研究。首先,计算各种碳氢化合物分子中C-H键的均解能,得到最容易被氧分子攻击的C-H活性位点;然后比较了不同汽油烃分子氧化引发反应的反应势垒。利用前沿轨道理论分析了链的起链机理。发现汽油烃分子HOMO轨道和氧分子LUMO轨道的对称性和能隙是氧化引发反应的决定性因素。结果表明,烯烃的反应势垒远低于其他烃类。另一方面,2,4 -己二烯的HOMO轨道和氧的LUMO轨道之间的能隙比紧随1-己二烯的其他分子要小得多。
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