Control of a wind conversion chain based on PMSG integrating a vienna rectifier and Shunt Active Power Filters
Abstract views: 58
/ 
PDF downloads: 7
Keywords:
Wind Turbine, Vienna Rectifier, Pmsg, Foc, Sapf, ThdAbstract
This article exposes an electricity production system, composed of a wind turbine with horizontal axis connected to a synchronous generator with permanent magnet (with pole), connected to the network via a power circuit combining a rectifier of Vienna controlled by the command vector with SVPWM modulation and shunt Active Power Filter (sAPF) using the P-Q algorithm. The simulation results show a good performance of the proposed control strategy.
Downloads
References
B. WU, Y. Lang, N. Zargari., s. Kouro, “Power conversion and control of wind energy systemes,” IEEE press series on power engineering, IEEE press, WILEY a john wiley & sons, inc., publication, 2011
N. Derbel, Q. Zhu, “Modeling, Identification and Control Methods in Renewable Energy Systems ” Springer, pp. 107-136-363, 2019
A. Ghani Aissaoui, Q. Tahour, “Wind Turbines, Design, Control Applications ” ExLi4EvA, pp. 191, 2016
B. Ferdi, S. Dib, B. Berbaoui, “ Permanent Magnet Synchronous Generator Driven Wind Energy Conversion System Based on Parallel Active Power Filter” Journal of Electrical and Electronics Engineering, Bechar University, Algeria
A. Morsli, “ Réduction de la Polution des réseaux électriques basses tensions fondée sur les Compensateurs Actifs : Théorie et réalisation ” Ecole Nationale Polytechnique, pp. 18-19-62-, 2018
R. Damodhar, R. Sudha, “ Design of Controller Based Boost Type Vienna Rectifier for Grid-Tide Wind Energy conversion System ” IEEE Access, February 2018
A. Morsli, “ Comparative study between Proportional Integral and Neural Networks Controllers of a Shunt Active Power Filter Powered by a Photovoltaic System” Tobacco Regulatory Science (TRS), 2023
A. MOUALDIA, “Commandes (vectorielle et DTC) d’un générateur Synchrone à Aimant Permanant (GSAP) application énergie éolienne ” 2018
