Mechanism and Kinetics of Propane Pyrolysis

Layokun, S. K.; Slater, David

doi:10.1021/i260070a008

Cited by 47 publications

(12 citation statements)

References 4 publications

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“…Numerous studies have been published on the pyrolysis of n-paraffins such as ethane, propane, n-butane, n-heptane, n-decane, n-hexadecane etc. at atmospheric pressure [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16]. The main thrust in these studies has been to enhance the yield of low molecular weight olefins.…”

Section: Introductionmentioning

confidence: 99%

High pressure pyrolysis of n-heptane

Chakraborty

Kunzru

2009

Journal of Analytical and Applied Pyrolysis

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Section: Introductionmentioning

confidence: 99%

High pressure pyrolysis of n-heptane

Chakraborty

Kunzru

2009

Journal of Analytical and Applied Pyrolysis

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“…In an earlier study [17], this problem was used as the basis of comparison between the AIM (analytically integrated Magnus), GFM (Green's function method), DM (direct method), and FD (finite difference) methods. The second example is provided by an ethane pyrolysis mechanism [18], comprised of 7 species and 5 reactions. Earlier studies [9, 161 have applied the AIM, GFM, DM, FD, and DDM (decoupled direct method) methods to calculate sensitivity coefficients for this problem.…”

Section: Numerical Testing and Discussionmentioning

confidence: 99%

The simultaneous solution and sensitivity analysis of systems described by ordinary differential equations

Leis

Kramer

1988

ACM Trans. Math. Softw.

121

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The methodology for the simultaneous solution of ordinary differential equations and the associated first-order parametric sensitivity equations is presented, and a detailed description of its implementation as a modification of a widely disseminated implicit ODE solver is given. The error control strategy ensures that local error criteria are independently satisfied by both the model and sensitivity solutions. The internal logic effectuated by this implementation is detailed. Numerical testing of the algorithm is reported, results indicate that greater reliability and improved efficiency is offered over other sensitivity analysis methods.

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“…Unfortunately the data used to verify the above mechanisms were obtained from very low conversion pyrolysis experiments and covered a very narrow range of temperatures and pressures. Three additional mechanisms have appeared in the literature [13,21,22], but the specific rate constants used in these investigations are not representative of those reported elsewhere.…”

Section: Detailed Kinetic Mechanismmentioning

confidence: 98%

An overall and detailed kinetic study of the pyrolysis of propane

Hautman

Santoro

Dryer

et al. 1981

Int J of Chemical Kinetics

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Overall and detailed kinetic descriptions of the pyrolysis of C3Hs have been proposed as a result of a turbulent flow reactor investigation in the temperature range of 1110-1235 K and at atmospheric pressure. The overall reaction was described by a first-order rate expression with an activation energy of 58.65 kcal/mol and a preexponential factor of 3.2 X sec-'. This expression agrees with previously reported rate data. In addition, a kinetic mechanism involving 13 chemical species and 32 elementary reactions has been postulated to describe the kinetics. Experimental data from the present flow reactor experiments and from static vessel and shock tube experiments reported in the literature were used to verify the mechanism. Agreement over the temperature range of 800-1400 K and over the pressure range of 0.1-8.5 atm was obtained by adjusting three rate constants. Previously reported values for these rate constants appear to require reexamination. The reactions in question are the following:The sum of the rate constants for reactions (2a) and (2b) and the rate constant for reaction (23) are best represented by k b + kzb = 10-0.1 T 4 exp (-8300/RT) cm3/mol sec and k23 = 10'4.55 exp (-14,340/RT) cm3/mol sec which differ with the expressions in the literature.

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Mechanism and Kinetics of Propane Pyrolysis

Cited by 47 publications

References 4 publications

High pressure pyrolysis of n-heptane

High pressure pyrolysis of n-heptane

The simultaneous solution and sensitivity analysis of systems described by ordinary differential equations

An overall and detailed kinetic study of the pyrolysis of propane

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