The early stages of pyrolysis and oxidation of methane

“…Previous studies in this laboratory (3) established that the initial stages of the decomposition from 995 to 1103 K are well accounted for by reactions [4], [5], and [6], with reaction [4] exhibiting some unimolecular pressure dependence, and no evidence for the occurrence of reaction [2]. The present experiments have extended these measurements to 899 and 802 K at pressures of about 1000 Torr where k, should be close to its high-pressure limit.…”

“…No ethylene was observed in any of these experiments, as would have been expected if secondary decomposition of ethane were occurring, and there is no reason to doubt that initial primary yields of ethane, and hence initial rates of reaction [4], were measured. It can be estimated that if reaction [2] had occurred to an extent 10% that of reaction [4] at our lowest temperature, we should have detected an enhanced rate of ethane formation.…”

“…Conversely, and its reverse, if E2 exceeded 54 kcal/mol the chain reaction could become important at high temperatures. It could also become important [3] H + CzH6 + CH3 + CH, at much higher temperatures when the dissociation of ethane Reaction [2] was suggested almost 50 years ago as a possible (the reverse of reaction [61) becomes fast, prechain propagation step in the thermal decomposition of rnethventing the L61 and ane (2), for reasons that are no longer valid, and recent studies their concentrations to UP high of this system (3) concluded that there was no evidence for its In fact, it has been suggested that this Occurs in the decomoccurrence at temperatures down to ,000 K , ~h~ initial stages position of methane in a shock tube at temperatures from 2000 of the methane decomposition appear to be accounted for by the to 2500 K (4). simple non-chain mechanism,…”

“…In the present study, the following systems were examined in an attempt to detect reaction [2] or to place upper limits on [4] CH,…”

“…its rate: ( I ) the thermal decomposition of methane; (2) the [5] H + CH, + Hz + CH3 mercury-photosensitized decomposition of methane; (3) the thermal decomposition of azomethane in the presence of methane; (4) three systems involve reaction [2] directly, the last two indirectly through reaction [3] to which it can be related thermochemically.…”

A search for a gas-phase free-radical inversion displacement reaction at a saturated carbon atom

“…Previous studies in this laboratory (3) established that the initial stages of the decomposition from 995 to 1103 K are well accounted for by reactions [4], [5], and [6], with reaction [4] exhibiting some unimolecular pressure dependence, and no evidence for the occurrence of reaction [2]. The present experiments have extended these measurements to 899 and 802 K at pressures of about 1000 Torr where k, should be close to its high-pressure limit.…”

“…No ethylene was observed in any of these experiments, as would have been expected if secondary decomposition of ethane were occurring, and there is no reason to doubt that initial primary yields of ethane, and hence initial rates of reaction [4], were measured. It can be estimated that if reaction [2] had occurred to an extent 10% that of reaction [4] at our lowest temperature, we should have detected an enhanced rate of ethane formation.…”

“…Conversely, and its reverse, if E2 exceeded 54 kcal/mol the chain reaction could become important at high temperatures. It could also become important [3] H + CzH6 + CH3 + CH, at much higher temperatures when the dissociation of ethane Reaction [2] was suggested almost 50 years ago as a possible (the reverse of reaction [61) becomes fast, prechain propagation step in the thermal decomposition of rnethventing the L61 and ane (2), for reasons that are no longer valid, and recent studies their concentrations to UP high of this system (3) concluded that there was no evidence for its In fact, it has been suggested that this Occurs in the decomoccurrence at temperatures down to ,000 K , ~h~ initial stages position of methane in a shock tube at temperatures from 2000 of the methane decomposition appear to be accounted for by the to 2500 K (4). simple non-chain mechanism,…”

“…In the present study, the following systems were examined in an attempt to detect reaction [2] or to place upper limits on [4] CH,…”

“…its rate: ( I ) the thermal decomposition of methane; (2) the [5] H + CH, + Hz + CH3 mercury-photosensitized decomposition of methane; (3) the thermal decomposition of azomethane in the presence of methane; (4) three systems involve reaction [2] directly, the last two indirectly through reaction [3] to which it can be related thermochemically.…”

A search for a gas-phase free-radical inversion displacement reaction at a saturated carbon atom

Kinetic Modeling of CO Production from the Reaction of CH₃with O₂in Shock Waves

High Temperature Reactions of CH₃ 1. The Reaction CH₃ + H₂ → CH₄ + H