Reaction mechanism of methane activation using non-equilibrium pulsed discharge at room temperature

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• 作者：Kado ; Shigeru ; Urasaki ; Kohei ; Sekine ; Yasushi ; Fujimoto ; Kaoru ; Nozaki ; Tomohiro ; Okazaki ; Ken
• 关键词：Spark discharge ; Methane dehydrogenation ; Acetylene
• 刊名：Fuel
• 出版年：2003
• 出版时间：December 1, 2003
• 年：2003
• 卷：82
• 期：1
• 页码：2291-2297
• 全文大小：488 K

文摘

The reaction mechanism of methane activation using non-equilibrium pulsed discharge was largely clarified from the emission spectroscopic study and experiments with higher hydrocarbons and some kinds of isotopes. The strong emission of atomic carbon and C₂ swan band system was observed as well as H Balmer series emission. This indicates that methane was highly dissociated into C and H by electron impact, which is consistent with the result of high C₂D₂ composition in produced acetylene when the mixture of CH₄ and D₂ was fed into discharge region. High electron energy contributed to produce atomic carbon directly from methane, and high electron density promoted the dehydrogenation from CH₃, CH₂ and CH to produce atomic carbon consecutively. The reason for the high selectivity to C₂H₂ was the high concentration of CH or C₂ formed from atomic carbon, and the repetition mechanism of decomposition and recombination among C, CH, C₂ and C₂H₂.