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Impact of Large-Scale Wind Power Integration on Small Signal Stability Based on Stability Region Boundary

Author

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  • Wenying Liu

    (State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources, Mailbox 435, North China Electric Power University, No. 2 Beinong Road, Changping district, Beijing 102206, China)

  • Rundong Ge

    (State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources, Mailbox 435, North China Electric Power University, No. 2 Beinong Road, Changping district, Beijing 102206, China)

  • Huiyong Li

    (State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources, Mailbox 435, North China Electric Power University, No. 2 Beinong Road, Changping district, Beijing 102206, China)

  • Jiangbei Ge

    (State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources, Mailbox 435, North China Electric Power University, No. 2 Beinong Road, Changping district, Beijing 102206, China)

Abstract

Up until now, study results on the impact of large-scale wind power integration on small signal stability have often been in conflict. Sometimes, the conclusions are even completely opposite, making people unable to agree on which is right. The reason behind this phenomenon is that most of these studies are based on a certain grid and typical working conditions, so conclusions are reached by comparing changes in oscillation mode, one by one. This study method lacks a broader perspective, and often reflects only a part of the grid conditions. However, the small signal stability region boundary describes the critical operating range of power system small signal stability as a whole, making possible an overall evaluation of the system from a more macro perspective. Thus it is more suitable for analysis of the impact of large-scale wind power integration on small signal stability. Based on the above, using the model of wind farm integration to the single-machine infinite bus power system, this paper studies the impact of wind power integration scale and the coupling strength with synchronous generator on small signal stability through the comparison of the stability region boundaries, thus providing a new method and support for analyzing the impact of wind power integration on small signal stability.

Suggested Citation

  • Wenying Liu & Rundong Ge & Huiyong Li & Jiangbei Ge, 2014. "Impact of Large-Scale Wind Power Integration on Small Signal Stability Based on Stability Region Boundary," Sustainability, MDPI, vol. 6(11), pages 1-24, November.
    • Handle: RePEc:gam:jsusta:v:6:y:2014:i:11:p:7921-7944:d:42142
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    References listed on IDEAS

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    1. Fernández, Luis M. & Jurado, Francisco & Saenz, José Ramón, 2008. "Aggregated dynamic model for wind farms with doubly fed induction generator wind turbines," Renewable Energy, Elsevier, vol. 33(1), pages 129-140.
    2. Hernández-Escobedo, Q. & Saldaña-Flores, R. & Rodríguez-García, E.R. & Manzano-Agugliaro, F., 2014. "Wind energy resource in Northern Mexico," Renewable and Sustainable Energy Reviews, Elsevier, vol. 32(C), pages 890-914.
    3. Baños, R. & Manzano-Agugliaro, F. & Montoya, F.G. & Gil, C. & Alcayde, A. & Gómez, J., 2011. "Optimization methods applied to renewable and sustainable energy: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 15(4), pages 1753-1766, May.
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    Cited by:

    1. Rundong Ge & Wenying Liu & Huiyong Li & Jianzong Zhuo & Weizhou Wang, 2015. "Research on the Multi-Period Small-Signal Stability Probability of a Power System with Wind Farms Based on the Markov Chain," Sustainability, MDPI, vol. 7(4), pages 1-18, April.

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