Dynamic stability of wind power flow and network frequency for a high penetration wind‐based energy storage system using fuzzy logic controller

Rahman, M. J., Tafticht, T., Doumbia, M. L. et Mutombo, N. M. A. (2021). Dynamic stability of wind power flow and network frequency for a high penetration wind‐based energy storage system using fuzzy logic controller. Energies, 14 (14). ISSN 1996-1073 DOI 10.3390/en14144111

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Résumé

Major changes in the technologies of power generation and distribution systems have been introduced in recent years due to concern over rapid climate change. Therefore, disturbances in the large‐scale generation, transmission, and distribution of energy are expected to occur in the near future. This is due to the difficulty in controlling the transmission and distribution of energy produced from renewable energy sources (RESs), caused by the instability of these sources and the intermittent nature of their energy. As a result, maintaining the dynamic stability of wind power flow and control of the network frequency is becoming more challenging due to the high penetration impacts of RESs. In this paper, a control algorithm using the power‐sharing method is proposed for a wind‐based energy storage system to maintain the dynamic stability of wind power flow and control of frequency in the power network. To maintain the network stability, a storage system (battery) was installed to store the excess wind power without throwing it into the Secondary/Dump Load (SL) and minimize losses in power generated by the wind turbine. The results show, the transient time of wind power flow and the fluctuation rate of frequency are reduced significantly using a Fuzzy Logic (FL) controller compared to the Proportional Integral Derivative (PID) controller. © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

Type de document:	Article
Mots-clés libres:	Frequency control Fuzzy logic controller PID controller Power stability Secondary/dump load Storage system Wind energy Climate change Computer circuits Controllers Data storage equipment Electric load flow Electric power system stability Electric power transmission Electromagnetic wave emission Energy storage Fuzzy logic Proportional control systems Stability Two term control systems Wind power Distribution systems Energy storage systems Fuzzy logic controllers Network stability Proportional integral derivative controllers Rapid climate change Renewable energy source Transmission and distribution Power control
Date de dépôt:	22 déc. 2022 16:16
Dernière modification:	22 déc. 2022 16:16
Version du document déposé:	Version officielle de l'éditeur
URI:	https://depot-e.uqtr.ca/id/eprint/10337

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