Mechanistic modeling of the thermal cracking of methylcyclohexane near atmospheric pressure, from 523 to 1273 K: Identification of aromatization pathways - Archive ouverte HAL
Article Dans Une Revue Journal of Analytical and Applied Pyrolysis Année : 2013

Mechanistic modeling of the thermal cracking of methylcyclohexane near atmospheric pressure, from 523 to 1273 K: Identification of aromatization pathways

Résumé

A kinetic model consisting of 1216 free-radical and 87 molecular reactions and implying 239 species was developed to describe the thermal cracking of methylcyclohexane. The primary mechanism was built in a systematic manner in order to be very detailed and a partial secondary mechanism was also included. The model was tested against experimental published data on large range of temperature (723-1192 K) and conversion (up to more than 90%), near atmospheric pressure. The model appeared robust enough to be simulated in a larger range of temperature (523-1273 K) in order to identify the main consumption and production pathways, in particular the aromatization pathways vs. temperature. In our conditions, the aromatic compounds are mainly formed by dehydrogenation and dealkylation reactions of cyclohexene and alkylcyclohexenes, whatever the temperature. So, the key-point is the formation of cyclohexene and alkylcyclohexenes. It was shown that, at high temperature, they are exclusively formed by free-radical reactions which decompositions by beta-scission of C-C and C-H bonds. At low temperature, the molecular Diels-Alder reactions become the predominant pathway and the reasons were identified.

Dates et versions

hal-00861582 , version 1 (13-09-2013)

Identifiants

Citer

Roda Bounaceur, Valerie Burkle-Vitzthum, Paul-Marie Marquaire, Luc Fusetti. Mechanistic modeling of the thermal cracking of methylcyclohexane near atmospheric pressure, from 523 to 1273 K: Identification of aromatization pathways. Journal of Analytical and Applied Pyrolysis, 2013, 103, pp.240-254. ⟨10.1016/j.jaap.2013.02.012⟩. ⟨hal-00861582⟩
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