New Safety Feedback Control Design to Guarantee Adequate Frequency Performance in Microgrids

Fatima Taousser, Samaneh Morovati, Yichen Zhang, Seddik M. Djouadi, Kevin Tomsovic, Mohammed Olama

Research output: Contribution to journalArticlepeer-review

Abstract

Safety analysis of power systems is concerned with the system's ability to maintain critical variables within specified limits following a disturbance. Frequency control adequacy has become increasingly important as the system inertia decreases due to the increase in renewable energy penetration. Various controllers for inverters have been proposed to improve the system frequency response and few are capable to ensure the safety of the response. In this article, a diesel-wind energy system is considered and modeled as a switching system between normal, faulted, and post-fault modes. A safety feedback controller is designed as a supplementary signal for a wind turbine generator such that the speed of the diesel generator stays within a permissible range in the presence of a finite energy disturbance. Numerical results on the modified 33-bus microgrid system obtained of the proposed novel approach indicate that the suggested control configuration can guarantee adequate frequency response without excessive conservativeness.

Original languageEnglish
JournalInternational Journal of Robust and Nonlinear Control
DOIs
StateAccepted/In press - 2024

Keywords

  • barrier function
  • safety property
  • stability analysis
  • switched systems
  • wind turbine generator

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