Model Predictive Control of Distributed Generations With Feed-Forward Output Currents

In this paper, a voltage and frequency control scheme based on model predictive control is proposed for inverter-based distributed generations (DGs). Currents injected into an off-grid system (e.g., a passive network with loads or an islanded microgrid) at the point of common coupling of the DG are...

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Veröffentlicht in:	IEEE transactions on smart grid 2019-03, Vol.10 (2), p.1488-1500
Hauptverfasser:	Saleh, Abdolhossein, Deihimi, Ali, Iravani, Reza
Format:	Artikel
Sprache:	eng
Schlagworte:	Computer simulation Control stability Control theory Current distribution Distributed generation Distributed generations Dynamic loads Feedforward control Frequency control Load modeling Loading Mathematical model Mathematical models Microgrids model predictive control Predictive control Robust control Stability analysis Switching Transient analysis Transient performance Voltage control voltage/frequency regulation
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creator	Saleh, Abdolhossein Deihimi, Ali Iravani, Reza
description	In this paper, a voltage and frequency control scheme based on model predictive control is proposed for inverter-based distributed generations (DGs). Currents injected into an off-grid system (e.g., a passive network with loads or an islanded microgrid) at the point of common coupling of the DG are considered as disturbances and used as feed-forward signals. These signals enhance the transient performance of the DG control system for a wide range of switched loads as well as for switching and operating the DG in an islanded microgrid. The stability and robustness of the proposed control scheme are analyzed and discussed. The effectiveness of the scheme is demonstrated by extensive time-domain simulations using PSCAD/EMTDC for various loads (such as balanced/imbalanced, and nonlinear and dynamic loads), fault conditions, and DG operation after switching in an islanded microgrid. Comparison of the obtained results with those of three previously developed schemes shows superiority of the proposed scheme.
doi_str_mv	10.1109/TSG.2017.2768432
format	Article
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Currents injected into an off-grid system (e.g., a passive network with loads or an islanded microgrid) at the point of common coupling of the DG are considered as disturbances and used as feed-forward signals. These signals enhance the transient performance of the DG control system for a wide range of switched loads as well as for switching and operating the DG in an islanded microgrid. The stability and robustness of the proposed control scheme are analyzed and discussed. The effectiveness of the scheme is demonstrated by extensive time-domain simulations using PSCAD/EMTDC for various loads (such as balanced/imbalanced, and nonlinear and dynamic loads), fault conditions, and DG operation after switching in an islanded microgrid. 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Currents injected into an off-grid system (e.g., a passive network with loads or an islanded microgrid) at the point of common coupling of the DG are considered as disturbances and used as feed-forward signals. These signals enhance the transient performance of the DG control system for a wide range of switched loads as well as for switching and operating the DG in an islanded microgrid. The stability and robustness of the proposed control scheme are analyzed and discussed. The effectiveness of the scheme is demonstrated by extensive time-domain simulations using PSCAD/EMTDC for various loads (such as balanced/imbalanced, and nonlinear and dynamic loads), fault conditions, and DG operation after switching in an islanded microgrid. Comparison of the obtained results with those of three previously developed schemes shows superiority of the proposed scheme.</description><subject>Computer simulation</subject><subject>Control stability</subject><subject>Control theory</subject><subject>Current distribution</subject><subject>Distributed generation</subject><subject>Distributed generations</subject><subject>Dynamic loads</subject><subject>Feedforward control</subject><subject>Frequency control</subject><subject>Load modeling</subject><subject>Loading</subject><subject>Mathematical model</subject><subject>Mathematical models</subject><subject>Microgrids</subject><subject>model predictive control</subject><subject>Predictive control</subject><subject>Robust control</subject><subject>Stability analysis</subject><subject>Switching</subject><subject>Transient analysis</subject><subject>Transient performance</subject><subject>Voltage control</subject><subject>voltage/frequency regulation</subject><issn>1949-3053</issn><issn>1949-3061</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNo9kM1LAzEQxYMoWGrvgpeA56352k1ylNVWoVLBFo9hu5nFlLqpSVbxvzel0rnMO7w3w_shdE3JlFKi71Zv8ykjVE6ZrJTg7AyNqBa64KSi5ydd8ks0iXFL8nDOK6ZHaP3iLezwawDr2uS-Ade-T8HvsO_wg4spuM2QwOI59BCa5Hwf8btLH3gGYIuZDz9NsHg5pP2QcD2EAH2KV-iia3YRJv97jNazx1X9VCyW8-f6flG0TNNUCCVboTaNbJnVmjNFiBQArGykzUqokklguQ_rWqgEk4RJ2VRsAxUpW5B8jG6Pd_fBfw0Qk9n6IfT5pWFUiVKpUovsIkdXG3yMATqzD-6zCb-GEnPgZzI_c-Bn_vnlyM0x4gDgZFckg9SK_wEo9mqG</recordid><startdate>20190301</startdate><enddate>20190301</enddate><creator>Saleh, Abdolhossein</creator><creator>Deihimi, Ali</creator><creator>Iravani, Reza</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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Currents injected into an off-grid system (e.g., a passive network with loads or an islanded microgrid) at the point of common coupling of the DG are considered as disturbances and used as feed-forward signals. These signals enhance the transient performance of the DG control system for a wide range of switched loads as well as for switching and operating the DG in an islanded microgrid. The stability and robustness of the proposed control scheme are analyzed and discussed. The effectiveness of the scheme is demonstrated by extensive time-domain simulations using PSCAD/EMTDC for various loads (such as balanced/imbalanced, and nonlinear and dynamic loads), fault conditions, and DG operation after switching in an islanded microgrid. 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subjects	Computer simulation Control stability Control theory Current distribution Distributed generation Distributed generations Dynamic loads Feedforward control Frequency control Load modeling Loading Mathematical model Mathematical models Microgrids model predictive control Predictive control Robust control Stability analysis Switching Transient analysis Transient performance Voltage control voltage/frequency regulation
title	Model Predictive Control of Distributed Generations With Feed-Forward Output Currents
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