A COMBINED LQG/LTR AND FUZZY LOGIC STRATEGY FOR THE IMPROVED CONTROL OF A DRUM-TYPE BOILER–TURBINE PLANT

H. Habbi,∗ M. Kidouche,∗ and M. Zelmat∗

References

  1. [1] R.D. Bell & K.J. ˚Astr¨om, Dynamic models for boiler-turbine-alternator units, Report TFRT-3192, Lund Institute of Tech-nology, Sweden, 1987.
  2. [2] C.M. Cheng & N.W. Rees, Hierarchical and heuristical fuzzymodel based control of a drum-boiler power plant,Proc. 6thIEEE Conf. on Fuzzy Systems, Barcelona, 1997, 629–634.
  3. [3] M.E. Flynn & M.J. O’Malley, A drum boiler model for longterm power system dynamic simulation, IEEE Transactionson Power Systems, 14 (1), 1999, 209–217.
  4. [4] K.J. ˚Astr¨om & R.D. Bell, Drum-boiler dynamics, Automatica,36 (3), 2000, 363–378.
  5. [5] D.Q. Mayne, J.B. Rawlings, C.V. Rao, & P.O.M. Scokaert,Constrained model predictive control: stability and optimality,Automatica, 36 (6), 2000, 789–814.
  6. [6] H. Habbi, M. Zelmat, & B. Ould Bouamama, A dynamic fuzzymodel for a drum boiler–turbine system, Automatica, 39 (7),2003, 1213–1219.
  7. [7] P.C. Chen & J.S. Shamma, Gain-scheduled 1 -optimal controlfor boiler–turbine dynamics with actuator saturation, Journalof Process Control, 14 (3), 2004, 263–277.
  8. [8] A. Abdennour, Multi-objective optimal tuning of power plantcontrols using genetic algorithms, Journal of Control andIntelligent Systems, 32 (2), 2004, 80–88.
  9. [9] W.H. Kwon, S.W. Kim, & P.G. Park, On the multivariablerobust control of a boiler–turbine system, Proc. IFAC Conf.on Power Systems and Power Plant Control, Seoul, 1989,219–223.121
  10. [10] W. Tan, H.J. Marquez, & T. Chen, Multivariable robustcontroller design for a boiler system, IEEE Transactions onControl Systems Technology, 10 (5), 2002, 735–742.
  11. [11] A. Swarnakar, H.J. Marquez, & T. Chen, Robust stabilizationof nonlinear interconnected systems with application to utilityboiler, Control Engineering Practice, 15 (6), 2007, 639–654.
  12. [12] Y. Nanhua, M. Wentong, & S. Ming, Application of adaptivegrey predictor based algorithm to boiler drum level control,Energy Conversion and Management, 47 (18), 2006, 2999–3007.
  13. [13] M. Xu, S. Li, & W. Cai, Cascade generalized predictive controlstrategy for boiler drum level, ISA Transactions, 44 (3), 2005,399–411.
  14. [14] H. Habbi & M. Zelmat, Intelligent coordinated control schemefor improving steam power plant operations during load re-jections, Proc. 2005 Conf. on Computational Intelligence forModelling, Control and Automation, Austria, 2005, 576–580.
  15. [15] U. Moon & K.W. Lee, A boiler–turbine system control using afuzzy auto-regressive moving average (FARMA) model, IEEETransactions on Energy Conversion, 18 (1), 2003, 142–148.
  16. [16] A. Abdennour, An intelligent supervisory system for drumtype boilers during severe disturbances, International Journalof Electrical Power Energy Systems, 22 (5), 2000, 381–387.
  17. [17] F.A. Alturki & A. Abdennour, Design and simplification ofadaptive neuro-fuzzy inference controllers for power pants,International Journal of Electrical Power and Energy Systems,21 (7), 1999, 465–474.
  18. [18] W. Tan, F. Fang, L. Tian, C. Fu, & J. Liu, Linear controlof a boiler–turbine unit: analysis and design, ISA Transac-tions, 47 (2), 2008, 189–197.
  19. [19] W. Tan, H.J. Marquez, T. Chen, & J. Liu, Analysis and controlof a nonlinear boiler–turbine unit, Journal of Process Control,15 (8), 2005, 883–891.
  20. [20] H.H. Rosenbrock, Computer-aided control system design (Lon-don: Academic Press, 1974).
  21. [21] S.J. Wu & C.T. Lin, Optimal fuzzy controller design: localconcept approach, IEEE Transactions on Fuzzy Systems, 8 (2),2000, 171–185.
  22. [22] X.J. Ma, Z.Q. Sun, & Y.Y. He, Analysis and design of fuzzycontroller and fuzzy observer, IEEE Transactions on FuzzySystems, 6 (1), 1998, 41–50.

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