SIMULATION ANALYSES OF TRANSIENT STABILITY OF WIND GENERATORS

J. Tamura, T. Yamazaki, R. Takahashi, S. Yonaga, Y. Matsumura, and H. Kubo

References

  1. [1] S. Heier, Grid integration of wind energy conversion system (John Wiley & Sons, 1998).
  2. [2] G.S. Stavrakakis et al., A general simulation algorithm for the accurate assessment of isolated diesel-wind turbines systems integration—Part I: A general multimachine power system model), IEEE Trans. on Energy Conversion, EC-10 (3), 1995, 577. doi:10.1109/60.464885
  3. [3] G.S. Stavrakakis et al., A general simulation algorithm for the accurate assessment of isolated diesel-wind turbines systems integration—Part II: Implementation of the algorithm and case studies with induction generators, IEEE Trans. on Energy Conversion, EC-10 (3), 1995, 584.
  4. [4] J. Tamura et al., Transient stability simulation of power system including wind generators, Trans. on IEE of Japan, 120-B(12), 2000, 1636 (in Japanese).
  5. [5] E.N. Hinrichsen et al., Dynamics and stability of wind turbine generators, IEEE Trans. on Power Apparatus and Systems, PAS-101 (8), 1982, 2640. doi:10.1109/TPAS.1982.317633
  6. [6] E.S. Abdin et al., Control design and dynamic performance analysis of a wind turbine induction generator unit, IEEE Trans. on Energy Conversion, EC-15 (1), 2000, 91. doi:10.1109/60.849122
  7. [7] I. Zubia et al., Electrical fault simulation and dynamic response of a wind farm, Proc. IASTED Int. Conf. Power and Energy Systems, Rhodes, Greece, No. 337–095, 2001, 595.
  8. [8] K.H. Chan et al., Transient stability behavior of a distribution network with embedded wind-driven induction generator, Proc. IASTED Int. Conf. Power and Energy Systems, Rhodes, Greece, No. 337–139, 2001, 663.
  9. [9] S.K. Salman et al., Improvement of fault clearing time of wind farm using reactive power compensation, 2001 IEEE Porto Power Tech Proc., Porto, Portugal, SSR2-097, 2001.
  10. [10] J. Tamura, T. Yamazaki, M. Ueno, Y. Matsumura et al.,Transient stability simulation of power system including wind generator by PSCAD/EMTDC, 2001 IEEE Porto Power TechProc., Porto, Portugal, Vol. 4, EMT-108 , 2001.
  11. [11] Z. Chen et al., Grid power quality with variable speed wind turbines, IEEE Trans. on Energy Conversion, EC-16 (2), 2201, 148.
  12. [12] J.L. Rodriguez-Amenedo et al., Automatic generation control of a wind farm with variable speed wind turbines, IEEE Trans. on Energy Conversion, EC-17 (2), 2002, 279. doi:10.1109/TEC.2002.1009481
  13. [13] http://www.pscad.com/index.html.
  14. [14] K. Sasaki & T. Matuzaka, Voltage fluctuation simulation of power system due to a wind driven induction generator, Trans. on IEE of Japan B, 110-B(1), 1990, 33–39 (in Japanese).
  15. [15] Y. Long, S. Hanba, H. Miyagi, & K. Yamashita, A method of designing nonlinear observers for squirrel-cage induction generators in windmill power systems, Trans. on IEE of Japan B, 120-B(3), 2000, 346–353.

Important Links:

Go Back