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Journal of Applied Dynamic Systems and Control
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Volume Volume 1 (2018)
Ghasemi, N., Hosseini, S. (2018). Industrial Networks Performance Enhancement Using Fuzzy ‎Controlled Distributed Generation. Journal of Applied Dynamic Systems and Control, 1(1), 55-61.
Naser Ghasemi; Seyyed Mehdi Hosseini. "Industrial Networks Performance Enhancement Using Fuzzy ‎Controlled Distributed Generation". Journal of Applied Dynamic Systems and Control, 1, 1, 2018, 55-61.
Ghasemi, N., Hosseini, S. (2018). 'Industrial Networks Performance Enhancement Using Fuzzy ‎Controlled Distributed Generation', Journal of Applied Dynamic Systems and Control, 1(1), pp. 55-61.
Ghasemi, N., Hosseini, S. Industrial Networks Performance Enhancement Using Fuzzy ‎Controlled Distributed Generation. Journal of Applied Dynamic Systems and Control, 2018; 1(1): 55-61.

Industrial Networks Performance Enhancement Using Fuzzy ‎Controlled Distributed Generation

Article 8, Volume 1, Issue 1, Summer and Autumn 2018, Page 55-61  XML PDF (387.11 K)
Document Type: Original Article
Authors
Naser Ghasemi email 1; Seyyed Mehdi Hosseini2
1Department of Electrical Engineering, Gorgan Branch, Izlamic Azad university, Gorgan, Iran
2Department of Electrical Engineering, Zahedan University, ‎Zahedan, Iran‎
Abstract
Induction Motors (IM) are one of the main and voltage sensitive loads within industrial centers whose start-up and loading characteristics affect the nearby loads adversely. The performance of induction motors is influenced by their supply voltage; thus, such faults as short circuits can lead to their instability. Distributed Generation Units (DGUs), recently applied by electric utilities and consumers with a remarkable growth, can provide the desired  ctive power based on a proper control algorithm and configuration of such voltage source converters as parallel, series and hybrid in one hand, and compensate for various power quality and voltage regulation problems, on the other; hence so called Flexible Distributed Generation (FDG). In this paper, a new interface is introduced for onnecting DGUs to the distribution network. The proposed interface is not only able to provide some portion of active power to loads, but also maintains the nominal voltage for a wide range of operational conditions. Hence, it can replace such compensation devices as Distribution Static Compensators (D-STATCOM) or On-Load Tap Changer transformers (OLTC), which have already being used for voltage regulation of distribution networks. Within the interface, a fuzzy controller is used for the voltage control loop. Computer simulation in MATLAB Simulink proves the performance enhancement of the interface.
Keywords
Induction Motors; Voltage control; Distributed Generation; fuzzy control; Active and Reactive ‎Power Control
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