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Modelling and Stability of a Single-Shaft Combined Cycle Power Plant

Year 2007, Volume: 10 Issue: 2, 71 - 78, 01.06.2007

Abstract

The subject of this paper is the development of a dynamic model for a single-shaft combined cycle plant and the analysis of its response to electrical load and frequency transients. In particular the stability of the frequency control, as well as the implications of overheat control are investigated. The model is developed in the Simulink environment of Matlab as part of an educational and research simulation package for autonomous and interconnected systems.

References

  • CIGRE, 2003, “Modeling Gas Turbines and Steam Turbines in Combined-Cycle Power Plants”, International Conference on Large High Voltage Electric Systems, Technical Brochure.
  • Kakimoto, N., Baba, K., 2003, “Performance of Gas Turbine-Based Plants During Frequency Drops”, IEEE Transactions on Power Systems. Vol. 18, No. 3, pp. 1110 – 1115.
  • Kunitomi, K., Kurita, A., Tada, Y., Ihara, S., Price, W.W., Richardson, L.M, Smith, G., 2003, “Modeling Combined-Cycle Power Plant for Simulation of Frequency Excursions”, IEEE Transactions on Power Systems, Vol. 18, No. 2, pp. 724-729.
  • Lalor, G., O’Malley, M., 2003, “Frequency control on an island power system with increasing proportions of combined cycle gas turbines”, Conference. Power
  • Tech Lalor, G., Ritchie, J., Flynn, D., O'Malley, M.J., 2005, “The Impact of Combined-Cycle Gas Turbine Short-Term Dynamics on Frequency Control”, IEEE Transactions on Power Systems, Vol. 20, No. 3, pp. 1456-1464.
  • Rowen, W. I., 1983, “Simplified Mathematical Representations of Heavy Duty Gas Turbine”, Trans. Amer. Soc. Mech. Eng., Vol. 105, pp. 865-869.
  • Spalding, D. B., Cole, E. H., 1973, Engineering Thermodynamics, Edward Arnold (Publishers), London.
  • Utkin, V., Guldner, J., Shi, J., 1999, Sliding mode control in electromechanical systems, Taylor & Francis, London.
  • Vournas, C. D., Potamianakis, E. G., Moors, C., Van Cutsem, T., 2004, “An educational simulation tool for power system control and stability”, IEEE Transactions on Power Systems, Vol. 19, pp. 48 – 55.
  • Zhang, Q., So, P. L., 2000, “Dynamic Modelling of a Combined Cycle Plant for Power System Stability Studies”, IEEE Power Engineering Society Winter Meeting, Vol. 2, pp. 1538-1543.
Year 2007, Volume: 10 Issue: 2, 71 - 78, 01.06.2007

Abstract

References

  • CIGRE, 2003, “Modeling Gas Turbines and Steam Turbines in Combined-Cycle Power Plants”, International Conference on Large High Voltage Electric Systems, Technical Brochure.
  • Kakimoto, N., Baba, K., 2003, “Performance of Gas Turbine-Based Plants During Frequency Drops”, IEEE Transactions on Power Systems. Vol. 18, No. 3, pp. 1110 – 1115.
  • Kunitomi, K., Kurita, A., Tada, Y., Ihara, S., Price, W.W., Richardson, L.M, Smith, G., 2003, “Modeling Combined-Cycle Power Plant for Simulation of Frequency Excursions”, IEEE Transactions on Power Systems, Vol. 18, No. 2, pp. 724-729.
  • Lalor, G., O’Malley, M., 2003, “Frequency control on an island power system with increasing proportions of combined cycle gas turbines”, Conference. Power
  • Tech Lalor, G., Ritchie, J., Flynn, D., O'Malley, M.J., 2005, “The Impact of Combined-Cycle Gas Turbine Short-Term Dynamics on Frequency Control”, IEEE Transactions on Power Systems, Vol. 20, No. 3, pp. 1456-1464.
  • Rowen, W. I., 1983, “Simplified Mathematical Representations of Heavy Duty Gas Turbine”, Trans. Amer. Soc. Mech. Eng., Vol. 105, pp. 865-869.
  • Spalding, D. B., Cole, E. H., 1973, Engineering Thermodynamics, Edward Arnold (Publishers), London.
  • Utkin, V., Guldner, J., Shi, J., 1999, Sliding mode control in electromechanical systems, Taylor & Francis, London.
  • Vournas, C. D., Potamianakis, E. G., Moors, C., Van Cutsem, T., 2004, “An educational simulation tool for power system control and stability”, IEEE Transactions on Power Systems, Vol. 19, pp. 48 – 55.
  • Zhang, Q., So, P. L., 2000, “Dynamic Modelling of a Combined Cycle Plant for Power System Stability Studies”, IEEE Power Engineering Society Winter Meeting, Vol. 2, pp. 1538-1543.
There are 10 citations in total.

Details

Primary Language English
Journal Section Regular Original Research Article
Authors

John Mantzaris This is me

Costas Vournas This is me

Publication Date June 1, 2007
Published in Issue Year 2007 Volume: 10 Issue: 2

Cite

APA Mantzaris, J., & Vournas, C. (2007). Modelling and Stability of a Single-Shaft Combined Cycle Power Plant. International Journal of Thermodynamics, 10(2), 71-78.
AMA Mantzaris J, Vournas C. Modelling and Stability of a Single-Shaft Combined Cycle Power Plant. International Journal of Thermodynamics. June 2007;10(2):71-78.
Chicago Mantzaris, John, and Costas Vournas. “Modelling and Stability of a Single-Shaft Combined Cycle Power Plant”. International Journal of Thermodynamics 10, no. 2 (June 2007): 71-78.
EndNote Mantzaris J, Vournas C (June 1, 2007) Modelling and Stability of a Single-Shaft Combined Cycle Power Plant. International Journal of Thermodynamics 10 2 71–78.
IEEE J. Mantzaris and C. Vournas, “Modelling and Stability of a Single-Shaft Combined Cycle Power Plant”, International Journal of Thermodynamics, vol. 10, no. 2, pp. 71–78, 2007.
ISNAD Mantzaris, John - Vournas, Costas. “Modelling and Stability of a Single-Shaft Combined Cycle Power Plant”. International Journal of Thermodynamics 10/2 (June 2007), 71-78.
JAMA Mantzaris J, Vournas C. Modelling and Stability of a Single-Shaft Combined Cycle Power Plant. International Journal of Thermodynamics. 2007;10:71–78.
MLA Mantzaris, John and Costas Vournas. “Modelling and Stability of a Single-Shaft Combined Cycle Power Plant”. International Journal of Thermodynamics, vol. 10, no. 2, 2007, pp. 71-78.
Vancouver Mantzaris J, Vournas C. Modelling and Stability of a Single-Shaft Combined Cycle Power Plant. International Journal of Thermodynamics. 2007;10(2):71-8.