[1] Smith, R.B., Kinetic Analysis of Naphtha Reforming with Platinum Catalyst, Chemical Engineering Progress, 55, p. 76 (1959).
[2] Marine, G. B. and Froment, G. F., Reforming of C6 Hydrocarbons on a Pt-Al2O3 Catalyst, Chemical Engineering Science, 37, p. 759 (1982).
[3] Padmavathi, G. and Chaudhuri, K. K., Modeling and Simulation of Commercial Catalytic Naphtha Reformers, The Canadian Journal of Chemical Engineering, 75, p. 930 (1997).
[4] Tasker, U. and Riggs, J. B., Modeling and Optimization of a Semi Regenerative Catalytic Naphtha Reformer, AIChE, 43, p. 740 (1997).
[5] Ancheyta Juarez, J. and Villafuerte Macias, E., Kinetic Modeling of Naphtha Catalytic Reforming Reactions, Energy & Fuels, 14, p. 1032 (2000).
[6] Hu, S. and Zhu, F. X. X., Molecular Modeling and Optimization for Catalytic Reforming, Chemical Engineering Communications, p. 191, 500 (2004).
[7] Ancheyta Juarez, J., Villafuerte Macias, E., Diaz Garcia, L. and Gonzalez Arredondo, E., Modeling and Simulation of Four Catalytic Reactors in Series for Naphtha Reforming, Energy & Fuels, 15, p. 887 (2001).
[8] Sinnott, R. K., (Editor), “Chemical Engineering Design”, Coulson and Richardson's Chemical Engineering, Vol. 6, 4th Edition, Elsevier, (2005).