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Transient stability mechanism of grid-connected inverter-interfaced distributed generators using droop control strategy

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  • Yu, Moduo
  • Huang, Wentao
  • Tai, Nengling
  • Zheng, Xiaodong
  • Wu, Pan
  • Chen, Weidong

Abstract

The large-scale application of renewable energy is promising to solve the energy crisis over the world. Renewable energy is generally integrated into distribution networks or microgrids through inverters. Inverter-interfaced distributed generators (IIDGs) have the advantage of utilizing renewable energy effectively and flexibly. However, the wide interconnection of IIDGs causes transient stability to the public grid. This paper presents the transient stability mechanism of the grid-connected IIDGs using droop control. The transient stability mechanism is obtained by combining the transient stability condition and the comprehensive dynamic trace. The transient stability condition is proposed by the transient model and IIDGs’ operation features. The comprehensive dynamic trace is formulated by the active and reactive power curves during transient events. The mechanism is able to reflect the relations between transient stability and droop factors and reveal the transient behaviors of IIDGs. The transient stability judgment is correspondingly developed. A series of simulations demonstrate the correctness and effectiveness of the transient stability mechanism. The transient stability mechanism better expands and develops the utilization of renewable energy.

Suggested Citation

  • Yu, Moduo & Huang, Wentao & Tai, Nengling & Zheng, Xiaodong & Wu, Pan & Chen, Weidong, 2018. "Transient stability mechanism of grid-connected inverter-interfaced distributed generators using droop control strategy," Applied Energy, Elsevier, vol. 210(C), pages 737-747.
    • Handle: RePEc:eee:appene:v:210:y:2018:i:c:p:737-747
    DOI: 10.1016/j.apenergy.2017.08.104
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    2. Vavilapalli, Sridhar & Umashankar, S. & Sanjeevikumar, P. & Ramachandaramurthy, Vigna K. & Mihet-Popa, Lucian & Fedák, Viliam, 2018. "Three-stage control architecture for cascaded H-Bridge inverters in large-scale PV systems – Real time simulation validation," Applied Energy, Elsevier, vol. 229(C), pages 1111-1127.
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    4. Zhan, Xianwen & Han, Song & Rong, Na & Cao, Yun, 2023. "A hybrid transfer learning method for transient stability prediction considering sample imbalance," Applied Energy, Elsevier, vol. 333(C).

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