Distributed Reactive Power Feedback Control for Voltage Regulation and Loss Minimization

We consider the problem of exploiting the microgenerators dispersed in the power distribution network in order to provide distributed reactive power compensation for power losses minimization and voltage regulation. In the proposed strategy, microgenerators are smart agents that can measure their ph...

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Veröffentlicht in:	IEEE transactions on automatic control 2015-04, Vol.60 (4), p.966-981
Hauptverfasser:	Bolognani, Saverio, Carli, Ruggero, Cavraro, Guido, Zampieri, Sandro
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithm design and analysis Generators Load modeling Power distribution Power measurement Reactive power Voltage measurement
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creator	Bolognani, Saverio Carli, Ruggero Cavraro, Guido Zampieri, Sandro
description	We consider the problem of exploiting the microgenerators dispersed in the power distribution network in order to provide distributed reactive power compensation for power losses minimization and voltage regulation. In the proposed strategy, microgenerators are smart agents that can measure their phasorial voltage, share these data with the other agents on a cyber layer, and adjust the amount of reactive power injected into the grid, according to a feedback control law that descends from duality-based methods applied to the optimal reactive power flow problem. Convergence to the configuration of minimum losses and feasible voltages is proved analytically for both a synchronous and an asynchronous version of the algorithm, where agents update their state independently one from the other. Simulations are provided in order to illustrate the performance and the robustness of the algorithm, and the innovative feedback nature of such strategy is discussed.
doi_str_mv	10.1109/TAC.2014.2363931
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In the proposed strategy, microgenerators are smart agents that can measure their phasorial voltage, share these data with the other agents on a cyber layer, and adjust the amount of reactive power injected into the grid, according to a feedback control law that descends from duality-based methods applied to the optimal reactive power flow problem. Convergence to the configuration of minimum losses and feasible voltages is proved analytically for both a synchronous and an asynchronous version of the algorithm, where agents update their state independently one from the other. 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subjects	Algorithm design and analysis Generators Load modeling Power distribution Power measurement Reactive power Voltage measurement
title	Distributed Reactive Power Feedback Control for Voltage Regulation and Loss Minimization
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