1 Fujiwara, M., Nagy, Z. K., Chew, J. W., Braatz, R. D., “First-principles and direct design approaches for the control of pharmaceutical crystallization”, J. Process Contr., 15, 493-504 (2005). 2 Larsen, P.A., Patience, D.B., Rawlings, J.B., “Industrial crystallization process control”, Control System Magazine, IEEE, 26 (4), 70-80 (2006). 3 Hu, Q., Rohani, S., Wang, D.X., Jutan, A., “Optimal control of a batch cooling seeded crystallizer”, Powder Technology, 156, 170-176 (2005). 4 Miller, S. M., Rawings, J. B., “Model identification and control strategies for batch cooling crystallizers”, AIChE J., 40, 1312-1327 (1994). 5 Matthews, H. B., “Model identification and control of batch crystallization for an industrial chemical system”, Ph.D. thesis, University of Wisconsin at Madison, U.S.A. (1997). 6 Shi, D., El-Farra, N. H., Li, M., Mhaskar, P., Christofides, P. D., “Predictive control of particle size distribution in particulate processes”, Chem. Eng. Sci., 61, 268-281 (2006). 7 Arpornwichanop, A., Kittisupakorn, P., Mujtaba, I. M., “On-line dynamic optimization and control strategy for improving the performance of batch reactors”, Chem. Eng. Process., 44 (1), 101-114 (2005). 8 Arpornwichanop, A., Kittisupakorn, P., “Dual mode NMPC for regulating the concentration of exothermic reactor under parametric uncertainties”, J. Chem. Eng. Jap., 37, 698-710 (2004). |