Abstract
This chapter introduces modal analysis of small-signal angular stability of a power system affected by a grid-connected DFIG. First, a method of decomposed modal analysis is proposed. The method can separately examine the impact of load flow change and dynamic interactions brought about by the grid-connected DFIG. Second, the impact of dynamic interactions introduced by the grid-connected DFIG on power system small-signal angular stability is examined comprehensively. Two indices to estimate the impact are introduced.
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References
Rogers G (2000) Power system oscillations. Kluwer, Norwell, MA
Yu YN (1979) Power system dynamics. Academic Press, New York
Kundur P (1994) Power system stability and control. McGraw-Hill, New York
Abad G, Lopez J, Rodriguez M, Marroyo L, Iwanski G (2011) Doubly fed induction machine: modeling and control for wind energy generation. John Wiley & Sons, Hoboken
Tsourakis G, Nomikos BM, Vournas CD (2009) Effect of wind parks with doubly fed asynchronous generators on small-signal stability. Electr Power Syst Res 79(1):190–200
Fan L, Miao Z, Osborn D (2008) Impact of doubly fed wind turbine generation on inter-area oscillation damping. In: Proc IEEE Power Eng Soc Gen Meeting, Pittsburgh, PA, pp 1–8
Tsourakis G, Nomikos BM, Vournas CD (2009) Contribution of doubly fed wind generators to oscillation damping. IEEE Trans Energy Conver 24(3):783–791
Vittal E, O’Malley M, Keane A (2012) Rotor angle stability with high penetrations of wind generation. IEEE Trans Power Syst 27(1):353–362
Vittal E, Keane A (2013) Identification of critical wind farm locations for improved stability and system planning. IEEE Trans Power Syst 28(3):2950–2958
Ekanayake JB, Holdsworth L, Jenkins N (2003) Comparison of 5th order and 3rd order machine models for doubly fed induction generator (DFIG) wind turbines. Elect Power Syst Res 67(3):207–215
Feijóo A, Cidrás J, Carrillo C (2000) A third order model for the doubly-fed induction machine. Elect Power Syst Res 56(2):121
Ko HS, Yoon GG, Kyung NH, Hong WP (2008) Modeling and control of DFIG-based variable-speed wind-turbine. Elect Power Syst Res 78(11):1841–1849
Padiyar KR (1996) Power system dynamics stability and control. Wiley, New York
Avriel M (1976) Nonlinear programming analysis and method. Prentice Hall, Englewood Cliffs
Nudelland TR, Chakrabortt A (2014) A graph-theoretic algorithm for localization of forced harmonic oscillation inputs in power system networks. In: 2014 American Control Conference (ACC), Portland, OR, pp 1334–1340
MATLAB Simulink wind farm-DFIG detailed model. Wind Farm (DFIG Phasor Model)
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Appendices
Appendix 4.1: Data of Example 4.1
4.1.1 Example 16-Machine 68-Bus New York and New England Power System [3] (Tables 4.10, 4.11, 4.12)
4.1.2 Data of DFIG [4] (Tables 4.13, 4.14, 4.15)
Appendix 4.2: Data of Example 4.2
4.1.1 Data of New England Power System [13] (Tables 4.16, 4.17 and 4.18)
4.1.2 Data of DFIG [16] (Tables 4.19, 4.20 and 4.21)
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Du, W., Wang, H., Bu, S. (2018). Modal Analysis of Small-Signal Angular Stability of a Power System Affected by Grid-Connected DFIG. In: Small-Signal Stability Analysis of Power Systems Integrated with Variable Speed Wind Generators. Springer, Cham. https://doi.org/10.1007/978-3-319-94168-4_4
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DOI: https://doi.org/10.1007/978-3-319-94168-4_4
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