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Physical–statistical learning in resilience assessment for power generation systems

Author

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  • Che, Yiming
  • Zhang, Ziang (John)
  • Cheng, Changqing

Abstract

Upswing in extreme weather conditions and natural disasters in conjunction with the relentless penetration of the intermittent renewable energy have brought resilience of the power generation systems into sharp relief. In this study, we adopt a high-order physical model to characterize the full-detail sub-transient behaviors in synchronous generator dynamics, and consequently utilize basin stability (BS) to quantify system resilience against potentially large perturbations. This high-fidelity model has not been extensive probed in estimate of BS, largely owing to the tremendous computational overhead involved. We conduct sensitivity analysis to pick out the most critical system states, whose perturbation exerts huge impact and hence are sensitive on BS or system resilience. Following this, we develop a diversity-enhanced active learning framework to sequentially identify the informative perturbed states, which will be further evaluated by the high-fidelity sub-transient model. This approach only incurs a paltry of simulation effort compared to the crude Monte Carlo simulation but with comparable accuracy on BS estimation.

Suggested Citation

  • Che, Yiming & Zhang, Ziang (John) & Cheng, Changqing, 2023. "Physical–statistical learning in resilience assessment for power generation systems," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 615(C).
    • Handle: RePEc:eee:phsmap:v:615:y:2023:i:c:s0378437123001395
    DOI: 10.1016/j.physa.2023.128584
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    References listed on IDEAS

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    1. Jianxi Gao & Baruch Barzel & Albert-László Barabási, 2016. "Erratum: Universal resilience patterns in complex networks," Nature, Nature, vol. 536(7615), pages 238-238, August.
    2. Jianxi Gao & Baruch Barzel & Albert-László Barabási, 2016. "Universal resilience patterns in complex networks," Nature, Nature, vol. 530(7590), pages 307-312, February.
    3. T. W. Stegink & C. De Persis & A. J. Van Der Schaft, 2019. "An energy-based analysis of reduced-order models of (networked) synchronous machines," Mathematical and Computer Modelling of Dynamical Systems, Taylor & Francis Journals, vol. 25(1), pages 1-39, January.
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