[1] Pinter A., Tungler A., Nagy L., Vida L., Kovacs I., Kerezsi J., A Laboratory Steam-Cracking Reactor
to Characterize Raw Materials, International Journal of Chemical Reactor Engineering, 2, A15 (2004).
[2] Hirato M., Yoshioka S., Matanuska Thermal Cracking of Gas Oil, Naphtha and Kerosene for Production of Light Olefins, Hitachi Rev, 20, 326 (1971).
[3] Belohlav Z., Zamostny P., Herink T., The Kinetic Model of Thermal Cracking for Olefins Production, Chemical Engineering and Processing, 42, p. 461 (2003).
[4] Ghassabzadeh H., Towfighi Darian J., Zaheri P., Experimental Study and Kinetic Modeling of Kerosene Thermal Cracking, J. Anal. Appl. Pyrolysis, 86, p. 221 (2009).
[5] Depeyre D., Flicoteaux C., Arbabzadeh F., Zabaniotou, A., Modeling of Thermal Steam Cracking of an Atmospheric Gas Oil, Ind. Eng. Chem. Res. 28, p. 967 (1989).
[6] Zahedi S., Towfighi J., Karimzadeh R., Omidkhah M., Determination of Yield Distribution in Olefin Production by Thermal Cracking of Atmospheric Gasoline, Korean J. Chem. Eng., 24, p. 681 (2008).
[7] Keyvanloo K., Towfighi J., Sadrameli S.M., Mohamadalizadeh A., Investigating the Effect of Key Factors, Their Interactions and Optimization of Naphtha Steam Cracking by Statistical Design of Experiments, J. Anal. Appl. Pyrolysis, 87, p. 224 (2010).
[8] Poustma M.L., Fundamental Reactions of Free Radicals Relevant to Pyrolysis Reactions, J. Anal. Appl. Pyrol., 54, p. 5 (2000).
[9] Franz J.A., Camaioni D.M., Autrey T., Linehan J.C., Alnajjar M.S., Measurement of Select Radical Processes in Hydrocarbon Pyrolysis, J. Anal. Appl. Pyrol., 54, p. 37 (2000).
[10] SafarikI., Strausz O.P., The Thermal Decomposition of Hydrocarbons. Part 3. Polycyclic n-Alkylaromatic Compounds, Res. Chem. Intermed., 23, p. 179 (1997).
[11] Sadrameli S.M., Green A.E.S., Systematics and Modeling Representations of Naphtha Thermal Cracking for Olefin Production, J. Anal. Appl. Pyrolysis, 73, p. 305 (2005).
[12] Towfighi J., Niaei A., Karimzadeh R., Saedi G., Systematics and Modelling Representations of LPG Thermal Cracking for Olefin Production, Korean J. Chem. Eng., 23, p. 8 (2006).
[13] Ranzi E., Dente M., Goldaniga A., Bozzano G., Faravelli T., Lumping Procedures in Detailed Kinetic Modeling of Gasification, Pyrolysis, Partial Oxidation and Combustion of Hydrocarbon Mixtures, Progress in Energy and Combustion Science, 27, p. 99 (2001).
[14] Sundaram K.M., Froment G., Modeling of Thermal Cracking Kinetics. 3. Radical Mechanisms for the Pyrolysis of Simple Paraffins, Olefins, and Their Mixtures, Ind. Eng. Chem. Fund., 17, p. 174 (1978).
[15] Dente, M., Ranzi, E. and Goossens, A.G., Detail Prediction of Olefin Yields from Hydrocarbon Pyrolysis through a Fundamental Simulation Model (SPYRO), Comput. Chem. Eng., 3, p. 61 (1979).
[16] Froment G., Van de Steene, B.O. and Van Damme, P., Thermal Cracking of Ethane and Ethane-Propane Mixtures, Ind. Eng. Chem. Process Des. Dev., 15, p. 495 (1976).