EXPERIMENTAL FUZZY MODELLING AND CONTROL OF A STEAM POWER PLANT BOILER

A. Chaibakhsh,∗ S.A.A. Moosavian,∗ and A. Ghaffari∗

References

  1. [1] C.K. Weng, A. Ray, & X. Dai, Modeling of power plantdynamics and uncertainties for Robust Control Synthesis,Application of Mathematical Modeling, 20, 1996, 501–512.
  2. [2] K.J. Astrom & R.D. Bell, Drum-Boiler Dynamics, Automatica,36, 2000, 363–378.
  3. [3] H. Habbi, M. Zelmata, & B.O. Bouamama, A dynamic fuzzymodel for a drum boiler-turbine system, Automatica, 39, 2003,1213-1219.
  4. [4] F.P. De Mello, Boiler models for system dynamic performancestudies IEEE Transaction on Power Systems, 6(1), 1991,66–74.
  5. [5] L. Changliang, L. Jizhen, N. Yuguang, & L. Weiping, Nonlin-ear boiler model of 300 MW power unit for system dynamicperformance studies, International Symposium on IndustrialElectronics, 2, 2001, 1296–1300.
  6. [6] L. Ljung, System identification theory for the user, SecondEdition, (Upper Saddle River, NJ, Prentice Hall, 1999).
  7. [7] X. Chang & W. Li, A C-Mean clustering based fuzzy modelingmethod, Proc. Ninth IEEE International Conf. on FuzzySystems, San Antonio, USA, 2, 2000, 937–940.385
  8. [8] U.Y. Huh & J.H. Kim, MIMO fuzzy model for boiler-turbinesystem, Proc. Fifth IEEE International Conf. on Fuzzy Sys-tems, New Orleans, Louisiana, 1, 1996, 541–547.
  9. [9] H. Ghezelayagh & K.Y Lee, Intelligent predictive control ofa power plant with evolutionary programming optimizer andneuro-fuzzy identifier, Proc. 2002 Congress on EvolutionaryComputation, Honolulu, USA, 2, 2002, 1308–1313.
  10. [10] H. Ghezelayagh & K.Y. Lee, Application of neuro fuzzy iden-tifier in the predictive control of power plant, 15th TriennialWorld Congress, Barcelona, Spain, 2002.
  11. [11] F.C. Chen & H.K. Khalil, Adaptive control of nonlinear systemsusing neural networks, International Journal of Control, 55(6),1992, 1299–1317.
  12. [12] J.A. Rovank & R. Corlis, Dynamic matrix based control offossil power plant, IEEE Transaction on Energy Conversion,6(2), 1991, 320–326.
  13. [13] D. ˇZivkoviæ, Nonlinear model of the condensing steam turbine,FACTA Universities Series, Mechanical Engineering, 1, 2000,871–878.
  14. [14] L. Borsi, Extended linear mathematical model of a powerstation unit with a once-through boiler, Siemens Forschungsund Entwicklingsberichte, 3, 1974, 274–280.
  15. [15] A. Chaibakhsh, A. Ghaffari, & S.A.A. Moosavian, A simulatedmodel for a once-through boiler by parameter adjustmentbased on genetic algorithms, Journal of Simulation ModellingPractice and Theory, 15(9), 2007, 1029–1051.
  16. [16] T. Takagi & M. Sugeno, Fuzzy identification of systems andits application to modeling and control, IEEE Transactions ofSystems, Man, and Cybernetics, 15(1), 1985, 116–132.
  17. [17] R.G. Ramirez, Overall intelligent hybrid control system forfossil fuel power plant, Ph.D. Thesis, Department of ElectricalEngineering, Pennsylvania State University, Graduate School,2000.
  18. [18] J.S. Roger, C.T.S. Jang, & E. Mitutani, Neuro-Fuzzy and softcomputing, (Upper Saddle River, NJ: Prentice Hall, 1997).
  19. [19] S.A.A. Moosavian, A. Ghaffari, & A. Chaibakhsh, Fuzzycontrol of a supercritical once-through boiler, Proc. ISMEInternational Conf. on Mechanical Engineering, Isfahan, Iran,May 16–18, 2005.
  20. [20] A. Ghaffari, S.A.A. Moosavian, & A. Chaibakhsh, Experimen-tal fuzzy modeling and cntrol of a once-through boiler, Proc.IEEE International Conf. on Mechatronics and Automation(ICMA 2005), Ontario, Canada, 2005, 1340–1345.

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