1T. Harun, C. Kubat, U. Ozer, A. Seher, Fuzzy logic control of a fluid catalytic cracking unit to improve dynamic performance, Computer Chem. Eng. 30 (2006) 850-863.
2R.S. Gupta, Modeling and simulation of fluid catalytic cracking unit, Ph.D. thesis, Deemed University, 2006.
3Y.Y. Zehang, Dynamic modeling and simulation of a catalytic cracking unit, Computer Chem. Eng. 18(1994) 39-44.
4L.F. Moro, D. Odloak, Constrained multivariable control of fluid catalytic cracking converters, J. Process Control 5 (1995) 29-39.
5R.M. Ansari, M.O. Tade, Constrained nonlinear multivariable control of a fluid catalytic cracking process, J. Process Control 10 (2000) 539-555.
6R.C. McFarlane, R.C. Reineman, J.F. Bartee, C. Georgkis, Dynamic simulator for a model IV fluid catalytic cracking unit, Computer Chem. Eng. 17 (1993) 275-285.
7A.A. Alaradi, S. Rohani, Identification and control of a riser-type FCC unit using neural networks, Computer Chem. Eng. 26 (2002) 401-421.
8S.H. Yang, X.Z. Wang, C. McGreavy, A multivariable coordinated control system based on predictive control strategy for FCC reactor-regenerator, Chem. Eng. Sci. 51 (1996) 2977-2982.
9P. Sarma, R. Rengaswamy, Multivariable gain-scheduled fuzzy logic control of fluidized catalytic cracker unit, Computer Chem. Eng. 24 (2000)1083-1089.
10B.K. Rahul, S.K. Gupta, Multi-objective optimization of an industrial fluidized-bed catalytic cracking unit using genetic algorithm with the jumping genes operator, Computer Chem. Eng. 27 (2003) 1785-1800.
