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W2151655595 endingPage "260" @default.
W2151655595 startingPage "223" @default.
W2151655595 abstract "ABSTRACT A detailed thermochemical kinetic model consisting of 165 reversible reactions has been developed to describe catalyzed polymerization of methane under adiabatic conditions. The model, an extension of that previously proposed (Weissman and Benson, 1984, 1989), was tested against available experimental data for CH3C1 pyrolysis in the absence and presence of CH4 in the temperature range 1260-1310 K (Weissman and Benson, 1984). Predictions of major product yields are reasonable although predictive inadequacies are discussed. Product distributions in the CH4/CI2 reaction were studied as a function of inlet/mixing temperature (To = 750-900 K), reactor pressure (PR = 1.0 —5.0 atmospheres) and CH4:C1, mole ratio (1.0-2.0). Product distribution is shown to be a strong function of inlet temperature and reactanl mole ratio. Choice of these parameters define the “window” of accessible reaction conditions experimentally available for useful product formation. Commercially attractive C2 yields (C2 H 2, C2H4), with minimal soot formation (as identified by the yields of precursor molecules, styrene and naphthalene), are predicted under ideal conditions. On the basis of the proposed model, the simulations indicate in situ mixing of preheated CH4and CI2 feeds is required. The latter must be achieved on millisecond time-scales in order to provide a homogeneous mixture at the onset of reaction. Only limited homogeneous formation of high molecular weight products is predicted at the residence times and temperatures considered, suggesting that the significant yields of soot observed experimentally may be a consequence of heterogeneous and/or mixing effect contributions. The effects of the latter experimental “perturbations” on homogeneous product formation, neglected in the simulations which were conducted under “ideal” conditions, are considered in detail." @default.
W2151655595 created "2016-06-24" @default.
W2151655595 creator A5004977906 @default.
W2151655595 creator A5007946691 @default.
W2151655595 creator A5024990620 @default.
W2151655595 creator A5077105502 @default.
W2151655595 creator A5081122465 @default.
W2151655595 date "1995-01-01" @default.
W2151655595 modified "2023-10-02" @default.
W2151655595 title "Kinetic Model for Formation of Aromatics in the High Temperature Chlorination of Methane1" @default.
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W2151655595 doi "https://doi.org/10.1080/00102209508907807" @default.
W2151655595 hasPublicationYear "1995" @default.
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