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A Methodology for Provision of Frequency Stability in Operation Planning of Low Inertia Power Systems

Author

Listed:
  • Michał Kosmecki

    (Department of Automation and System Analysis, Institute of Power Engineering (IEn) Gdańsk Division, PL80-870 Gdańsk, Poland)

  • Robert Rink

    (Department of Automation and System Analysis, Institute of Power Engineering (IEn) Gdańsk Division, PL80-870 Gdańsk, Poland)

  • Anna Wakszyńska

    (Department of Automation and System Analysis, Institute of Power Engineering (IEn) Gdańsk Division, PL80-870 Gdańsk, Poland)

  • Roberto Ciavarella

    (ENEA–Department of Energy Technologies and Renewable Sources, 00196 Rome, Italy)

  • Marialaura Di Somma

    (ENEA–Department of Energy Technologies and Renewable Sources, 00196 Rome, Italy)

  • Christina N. Papadimitriou

    (FOSS Research Centre for Sustainable Energy, University of Cyprus, 1678 Nicosia, Cyprus)

  • Venizelos Efthymiou

    (FOSS Research Centre for Sustainable Energy, University of Cyprus, 1678 Nicosia, Cyprus)

  • Giorgio Graditi

    (ENEA–Department of Energy Technologies and Renewable Sources, 00196 Rome, Italy)

Abstract

Along with the increasing share of non-synchronous power sources, the inertia of power systems is being reduced, which can give rise to frequency containment problems should an outage of a generator or a power infeed happen. Low system inertia is eventually unavoidable, thus power system operators need to be prepared for this condition. This paper addresses the problem of low inertia in the power system from two different perspectives. At a system level, it proposes an operation planning methodology, which utilises a combination of power flow and dynamic simulation for calculation of existing inertia and, if need be, synthetic inertia (SI) to fulfil the security criterion of adequate rate of change of frequency (RoCoF). On a device level, it introduces a new concept for active power controller, which can be applied virtually to any power source with sufficient response time to create synthetic inertia. The methodology is demonstrated for a 24 h planning period, for which it proves to be effective. The performance of SI controller activated in a battery energy storage system (BESS) is positively validated using a real-time digital simulator (RTDS). Both proposals can effectively contribute to facilitating the operation of low inertia power systems.

Suggested Citation

  • Michał Kosmecki & Robert Rink & Anna Wakszyńska & Roberto Ciavarella & Marialaura Di Somma & Christina N. Papadimitriou & Venizelos Efthymiou & Giorgio Graditi, 2021. "A Methodology for Provision of Frequency Stability in Operation Planning of Low Inertia Power Systems," Energies, MDPI, vol. 14(3), pages 1-17, January.
  • Handle: RePEc:gam:jeners:v:14:y:2021:i:3:p:737-:d:490392
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    Cited by:

    1. SungHoon Lim & Taewan Kim & Kipo Yoon & DongHee Choi & Jung-Wook Park, 2022. "A Study on Frequency Stability and Primary Frequency Response of the Korean Electric Power System Considering the High Penetration of Wind Power," Energies, MDPI, vol. 15(5), pages 1-16, February.

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