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Stability Analysis for Operation of DG Units in Smart Grids

Title
Stability Analysis for Operation of DG Units in Smart Grids
Type
Article in International Conference Proceedings Book
Year
2015
Authors
Pouresmaeil, E
(Author)
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Shaker, HR
(Author)
Other
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Mehrasa, M
(Author)
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Shokridehaki, MA
(Author)
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Rodrigues, EMG
(Author)
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Catalao, JPS
(Author)
FEUP
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Conference proceedings International
Pages: 447-452
IEEE 5th International Conference on Power Engineering, Energy and Electrical Drives
riga, LATVIA, MAY 11-13, 2015
Other information
Authenticus ID: P-00G-WGJ
Abstract (EN): This paper presents a multifunction control strategy for the stable operation of Distributed Generation (DG) units during grid integration. The proposed control model is based on Direct Lyapunov Control (DLC) theory and provides a stable region for the appropriate operation of DG units during grid integration. Using DLC technique in DG technology can provide the continuous injection of maximum active power in fundamental frequency from the DG source to the grid, compensating all reactive power and harmonic current components of grid-connected loads through the integration of DG link into the grid. Application of this concept can guarantee to reduce the stress on the grid during the energy demand peak. Simulation results are presented to demonstrate the proficiency and performance of the proposed DLC technique in DG technology.
Language: English
Type (Professor's evaluation): Scientific
No. of pages: 6
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Article in International Conference Proceedings Book
Pouresmaeil, E; Shaker, HR; Mehrasa, M; Shokridehaki, MA; Rodrigues, EMG; Catalao, JPS
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