A theoretical study of the CH3H-C2H2 reaction

Wei-Guang Diau; Ming-Chang Lin; C. F. Melius

doi:10.1063/1.467510

A theoretical study of the CH₃H-C₂H₂ reaction

Wei-Guang Diau, Ming-Chang Lin^*, C. F. Melius

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摘要

The rate constants for the formation of various products in the CH ₃+C₂H₂ reaction have been computed by multichannel RRKM calculations using the molecular and transition-state parameters predicted by the BAC-MP4 method. The results of the calculations agree quantitatively with experimental data obtained under varying conditions: T=300-2200 K, P=30-2500 Torr. At low temperatures (T<1300 K), the CH ₃+C₂H₂ reaction is dominated by the addition-stabilization process producing CH₃C₂H ₂. Under high-temperature (7>1400 K) and atmospheric-pressure conditions, the reaction occurs primarily by the CH₃-for-H displacement process producing CH₃C₂H, a likely source of the C₃H₃ radical (which has recently been shown to be a key precursor of C₆H₆ in hydrocarbon combustion reactions).

原文	English
頁（從 - 到）	3923-3927
頁數	5
期刊	The Journal of chemical physics
卷	101
發行號	5
DOIs	https://doi.org/10.1063/1.467510
出版狀態	Published - 1 1月 1994

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abstract = "The rate constants for the formation of various products in the CH 3+C2H2 reaction have been computed by multichannel RRKM calculations using the molecular and transition-state parameters predicted by the BAC-MP4 method. The results of the calculations agree quantitatively with experimental data obtained under varying conditions: T=300-2200 K, P=30-2500 Torr. At low temperatures (T<1300 K), the CH 3+C2H2 reaction is dominated by the addition-stabilization process producing CH3C2H 2. Under high-temperature (7>1400 K) and atmospheric-pressure conditions, the reaction occurs primarily by the CH3-for-H displacement process producing CH3C2H, a likely source of the C3H3 radical (which has recently been shown to be a key precursor of C6H6 in hydrocarbon combustion reactions).",

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N2 - The rate constants for the formation of various products in the CH 3+C2H2 reaction have been computed by multichannel RRKM calculations using the molecular and transition-state parameters predicted by the BAC-MP4 method. The results of the calculations agree quantitatively with experimental data obtained under varying conditions: T=300-2200 K, P=30-2500 Torr. At low temperatures (T<1300 K), the CH 3+C2H2 reaction is dominated by the addition-stabilization process producing CH3C2H 2. Under high-temperature (7>1400 K) and atmospheric-pressure conditions, the reaction occurs primarily by the CH3-for-H displacement process producing CH3C2H, a likely source of the C3H3 radical (which has recently been shown to be a key precursor of C6H6 in hydrocarbon combustion reactions).

AB - The rate constants for the formation of various products in the CH 3+C2H2 reaction have been computed by multichannel RRKM calculations using the molecular and transition-state parameters predicted by the BAC-MP4 method. The results of the calculations agree quantitatively with experimental data obtained under varying conditions: T=300-2200 K, P=30-2500 Torr. At low temperatures (T<1300 K), the CH 3+C2H2 reaction is dominated by the addition-stabilization process producing CH3C2H 2. Under high-temperature (7>1400 K) and atmospheric-pressure conditions, the reaction occurs primarily by the CH3-for-H displacement process producing CH3C2H, a likely source of the C3H3 radical (which has recently been shown to be a key precursor of C6H6 in hydrocarbon combustion reactions).

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A theoretical study of the CH3H-C2H2 reaction

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A theoretical study of the CH₃H-C₂H₂ reaction