| 甲烷等离子体转化合成碳二烃反应过程和过渡态理论 |
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| 引用本文: | 王保伟,杨恩翠,许根慧,郝金库. 甲烷等离子体转化合成碳二烃反应过程和过渡态理论[J]. 中国化学工程学报, 2007, 15(1): 44-50. DOI: 10.1016/S1004-9541(07)60032-9 |
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| 作者姓名: | 王保伟 杨恩翠 许根慧 郝金库 |
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| 作者单位: | [1]Key Laboratory for Green Chemical Technology of State Education Ministry, School of Chemical Engineering & Technology, Tianjin University, Tianjin 300072, China [2]b College of Chemistry and Life Sciences, Tianjin Normal University, Tianjin 300074, China |
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| 摘 要: | The direct synthesis of C2 hydrocarbons (ethylene, acetylene and ethane) from methane is one of the most important task in C1 chemistry. Higher conversion of methane and selectivity to C2 hydrocarbons can be realized through plasma reaction. In order to explore the reaction process and mechanism, the possible reaction paths (1)--(4) were proposed on coupling reaction of methane through plasma and studied theoretically using semi-PM3 method [PM3 is parameterization method of modified neglect of diatomic overlap (MNDO)] including determining the transition state, calculating the activation energy and thermodynamic state functions and analyzing the bond order and intrinsic reaction coordinate. The reaction heat results indicate that the reactions (2) and (4) are exothermic, while reactions of (1) and (3) are endothermic. The activation energy results show that activation energy for reactions (1) and (2) was much lower than that of reaction paths (3) and (4). Therefore, paths (1) and (2) is the favorable reaction path energetically. More interestingly by comparing the intrinsic reaction coordinated (IRC) of the reaction paths (1) and (2), it is found that the variations of bond lengths in reaction path (1) has a crucial effect on the potential energy, while in reaction path (2), the adjustment of the system geometry also contributes to the whole potential energy of the system.
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| 关 键 词: | 甲烷 转化 C2烃类 等离子体 反应路径 过渡态 乙烯 乙炔 乙烷 |
| 收稿时间: | 2005-12-26 |
| 修稿时间: | 2005-12-262006-07-24 |
Theoretical Study of Reaction Paths and Transition States on Conversion Methane into C2 Hydrocarbons Through Plasma |
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| WANG Baowei, YANG Encui, XU Genhui,HAO Jinku. Theoretical Study of Reaction Paths and Transition States on Conversion Methane into C2 Hydrocarbons Through Plasma[J]. Chinese Journal of Chemical Engineering, 2007, 15(1): 44-50. DOI: 10.1016/S1004-9541(07)60032-9 |
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| Authors: | WANG Baowei YANG Encui XU Genhui HAO Jinku |
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| Affiliation: | Key Laboratory for Green Chemical Technology of State Education Ministry, School of Chemical Engineering & Technology, Tianjin University, Tianjin 300072, China College of Chemistry and Life Sciences, Tianjin Normal University, Tianjin 300074, China |
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| Abstract: | The direct synthesis of C2 hydrocarbons (ethylene, acetylene and ethane) from methane is one of the most important task in C1 chemistry. Higher conversion of methane and selectivity to C2 hydrocarbons can be realized through plasma reaction. In order to explore the reaction process and mechanism, the possible reaction paths (1)-(4) were proposed on coupling reaction of methane through plasma and studied theoretically using semi-PM3 method [PM3 is parametcrization method of modified neglect of diatomic overlap (MNDO)] including determining the transition state, calculating the activation energy and thermodynamic state functions and analyzing the bond order and intrinsic reaction coordinate. The reaction heat results indicate that the reactions (2) and (4) are exothermic,while reactions of (1) and (3) are endothermic. The activation energy results show that activation energy for reactions (1) and (2) was much lower than that of reaction paths (3) and (4). Therefore, paths (1) and (2) is the favorable reaction path energetically. More interestingly by comparing the intrinsic reaction coordinated (IRC) of the reaction paths (1) and (2), it is found that the variations of bond lengths in reaction path (1) has a crucial effect on the potential energy, while in reaction path (2), the adjustment of the system geometry also contributes to the whole potential energy of the system. |
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| Keywords: | reaction path transition state methane plasma PM3 |
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