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Distributed Control Scheme for Clusters of Power Quality Compensators in Grid-Tied AC Microgrids

Author

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  • Manuel Martínez-Gómez

    (Electrical Engineering Department, Universidad de Chile, Santiago 8370451, Chile
    Power Electronics, Machines and Control Group (PEMC), University of Nottingham, Nottingham NG7 2R, UK
    Electric Power Conversion Systems Laboratory (SCoPE Lab), Institute of Engineering Sciences, Universidad de O’Higgins, Rancagua 2841959, Chile)

  • Claudio Burgos-Mellado

    (Electric Power Conversion Systems Laboratory (SCoPE Lab), Institute of Engineering Sciences, Universidad de O’Higgins, Rancagua 2841959, Chile)

  • Helmo Kelis Morales-Paredes

    (Institute of Science and Technology of Sorocaba, São Paulo State University (UNESP), Av. Três de Março 511, Sorocaba 18087-180, Brazil)

  • Juan Sebastián Gómez

    (Energy Transformation Center, Engineering Faculty, Universidad Andres Bello, Santiago 7500971, Chile)

  • Anant Kumar Verma

    (Electric Power Conversion Systems Laboratory (SCoPE Lab), Institute of Engineering Sciences, Universidad de O’Higgins, Rancagua 2841959, Chile)

  • Jakson Paulo Bonaldo

    (Department of Electrical Engineering, Federal University of Mato Grosso (UFMT), Cuiabá 78060-900, Brazil)

Abstract

Modern electrical systems are required to provide increasing standards of power quality, so converters in microgrids need to cooperate to accomplish the requirements efficiently in terms of costs and energy. Currently, power quality compensators (PQCs) are deployed individually, with no capacity to support distant nodes. Motivated by this, this paper proposes a consensus-based scheme, augmented by the conservative power theory (CPT), for controlling clusters of PQCs aiming to improve the imbalance, harmonics and the power factor at multiple nodes of a grid-tied AC microgrid. The CPT calculates the current components that need to be compensated at the point of common coupling (PCC) and local nodes; then, compensations are implemented by using each grid-following converter’s remaining volt-ampere capacity, converting them in PQCs and improving the system’s efficiency. The proposal yields the non-active power balancing among PQCs compounding a cluster. Constraints of cumulative non-active contribution and maximum disposable power are included in each controller. Also, grid-support components are calculated locally based on shared information from the PCC. Extensive simulations show a seamless compensation (even with time delays) of unbalanced and harmonics current (below 20% each) at selected buses, with control convergences of 0.5–1.5 [s] within clusters and 1.0–3.0 [s] for multi-cluster cooperation.

Suggested Citation

  • Manuel Martínez-Gómez & Claudio Burgos-Mellado & Helmo Kelis Morales-Paredes & Juan Sebastián Gómez & Anant Kumar Verma & Jakson Paulo Bonaldo, 2023. "Distributed Control Scheme for Clusters of Power Quality Compensators in Grid-Tied AC Microgrids," Sustainability, MDPI, vol. 15(22), pages 1-23, November.
  • Handle: RePEc:gam:jsusta:v:15:y:2023:i:22:p:15698-:d:1275690
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    References listed on IDEAS

    as
    1. Ning Wang & Shuai Zheng & Weiqiang Gao, 2022. "Microgrid Harmonic Mitigation Strategy Based on the Optimal Allocation of Active Power and Harmonic Mitigation Capacities of Multi-Functional Grid-Connected Inverters," Energies, MDPI, vol. 15(17), pages 1-20, August.
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