1 Furman, K.C., Sahinidis, N., “A critical review and annotated bibliography for heat exchanger network synthesis in the 20th century”, Ind. Eng. Chem. Res., 41, 2335 (2002). 2 Varga, E.I., Hangos, K.M., Szigeti, F., “Controllability and observability of heat exchanger networks in the time-varying parameter case”, Control Eng. Practice, 3 (10), 1409-1419 (1995). 3 Massimiliano, E., Sara, M., Giuseppe, T., Paola, Z., “A deterministic algorithm for the synthesis of maximum energy recovery heat exchanger network”, Computer & Chemical Engineering, 31 (7), 773-781 (2007). 4 Li, S.J., Yao, P.J., “Synthesis of heat exchanger network considering multipass exchangers”, Chin. J. Chem. Eng., 9 (3), 242-246 (2001). 5 Boyaci, C., Uztürk, D., Konukman, A., Akman, U., “Dynamics and optimal control of flexible heat-exchanger networks”, Computers & Chemical Engineering., 20, 775-780 (1996). 6 Nisenfeld, A.E., “Applying control computers to an integrated plant”, Chem. Eng. Prog., 69, 45-48 (1973). 7 Beautyman, A.C., Cornish, A.R.H., “The design of flexible heat exchanger networks”, In: Proc. of First U.K. National Heat Transfer Conference 1, Leeds, 547-565 (1984). 8 Calandranis, J., Stephanopoulos, G., “A structural approach to the design of control systems in heat exchanger networks”, Computers and Chemical Engineering, 12 (7), 651-669 (1988). 9 Huang, Y.L., Fan, L.T., “Distributed of controllability into exchanger network synthesis”, Computers and Chemical Engineering, 16 (5), 497-522 (1992). 10 Mathisen, Skogestad, K.W., Wolf, E.A., “Controllability of heat exchanger networks”, In: AIChE Annual Meeting, LA, USA, 152 (1991). 11 Mathisen, S.K.W., Wolf, E.A, “Bypass selection for control of heat exchanger networks”, In: European Symposium on Computer Aided Process Engineering-1, Computers and Chemical Engineering, 5, 263-272 (1992). 12 Tellez, R., Svrcek, W.Y., Young, B.R., “Controllability of heat exchanger networks”, Heat Transfer Engineering, 27, 38-49 (2006). 13 Luo, X.L., Sun, L., Zhang, J.F., “Optimal design of bypass location on heat exchanger networks”, J. Chem. Ind. Eng. (China), 59 (3), 646-652 (2008). (in Chinese) 14 Luo, X.L., Hou, B.Q., Sun, L., “Temperature measuring point analysis and control system design of heat exchanger networks based on structural observability”, J. Chem. Ind. Eng. (China), 63 (1), 146-157 (2012). (in Chinese) 15 Westphalen, D.L., Young, B.R., Svrcek, Y., “A controllability index for heat exchanger networks”, Ind. Eng. Chem. Res., 42, 4659-4667 (2003). 16 Truong, N.L.V., Moonyong, L., “Independent design of multi-loop PI/PID controllers for interacting multivariable processes”, Journal of Process Control, 20, 922-933 (2010). 17 Milanovic, J.V., Serrano, D.A.C., “The use of relative gain array for optimal placement of PSSs”, In: Power Engineering Society Winter Meeting, USA, 992-996 (2001). 18 Katerina, P.P, Efstratios, N.P., “Synthesis and retrofit design of operable heat exchanger networks. 1. Flexibility and structural controllability aspects”, Ind. Eng. Chem. Res., 33, 1718-1737 (1994). 19 Veerayut, L., Thongchai, S., “Structural controllability evaluation for heat exchanger networks”, In: The 7th Asian Control Conference, Hong Kong, China, 835-840 (2009). |