About Microgrid reactive voltage regulation
This research work presents an improved control strategy to lessen the tradeoff between load feeder voltage regulation and reactive power sharing in multi-feeder islanded AC microgrids. Firstly, localized load estimators are formulated to estimate the impedance at each load feeder.
This research work presents an improved control strategy to lessen the tradeoff between load feeder voltage regulation and reactive power sharing in multi-feeder islanded AC microgrids. Firstly, localized load estimators are formulated to estimate the impedance at each load feeder.
In this paper, we propose an optimal distributed voltage control for grid-forming (GFM) inverters in islanded AC microgrids. An optimization problem is formulated where the distributed generator (DG) output voltage is considered as the control variable with technical constraints on voltage and reactive power output capacity and an objective .
Dubbed Generator Emulation Controls (GEC) were incorporated to allow DG inverters to provide voltage regulation support, reactive power compensation, and fault ride-through effectively in microgrids [32].
Voltage regulation is improved by designing a controller using three main loops, namely, inner, intermediate, and outer loops [36], [37]. The inner loop is developed using a proportional-integral-derivative controller that can well-regulate voltage.
The paper presents the results of the analysis of the conditions and possibilities of voltage and reactive power regulation, modeling Microgrid modes exclusively of alternating current, both in terms of generation and the electrical network, including synchronous connections with the external power system.
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