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Isakov, Ivana; Vekić, Marko; Rapaić, Milan; Todorović, Ivan; Grabić, Stevan
International journal of electrical power & energy systems, January 2024, 2024-01-00, Volume: 155Journal Article
The usage of distributed generation sources and the segmentation of power systems into microgrids brings several advantageous features, such as energy independence, lower transmission losses, and improved energy management flexibility. Still, the expected steady abolition of traditional centralized networks and their centralized control schemes introduces several operational difficulties, that can compromise (micro)grid’s stability and reliability. Consequently, several approaches to how microgrids should be operated have been proposed, albeit with several salient deficiencies. Precise power exchange, control of frequency and voltage excursions, applicability on different grid topologies, and the possibility to integrate grid codes, which are very important control aspects, are not jointly enabled in a general case. This paper proposes a novel approach, based on a specific goal function and corresponding decentralized control that addresses the mentioned problems and guarantees the microgrid’s stability by constraining the frequency and node voltage deviations, simultaneously supporting the desired active power exchange between prosumers. Unlike droop-based and droop-derived control schemes, the proposed approach aims to inherently preserve the frequency and voltage levels within the limits defined by the grid operator or future microgrid codes, thus preventing the generation unit’s unwanted disconnection during transients and disturbances. In addition, the control algorithm is independent of network topology, can be applied in both islanded and non-islanded microgrids, and secures system scalability. To confirm the effectiveness of the proposed control strategy, a number of simulation results are presented and thoroughly discussed. •A novel seamlessly scalable self-stabilizing microgrid control framework is proposed.•Guaranteed upper bounds on deviations of node frequencies and voltages are provided.•Precise active power exchange between nodes is enabled.•Priorities of the proposed scheme can be adjusted according to user preferences.•Comprehensive tests in relevant operational scenarios are performed.
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