N. Kavithamani, P. Priya, N. R. Nagaraj, RVS College of Engineering and Technology, Coimbatore, Tamilnadu, India.
DOI : 01.0401/ijaict.2015.09.05
International Journal of Advanced Information and Communication Technology
Received On : August 19, 2017
Revised On : September 15, 2017
Accepted On : October 12, 2017
Published On : November 05, 2017
Volume 04, Issue 11
Pages : 751-756
Abstract
The last decade the use of renewable energy source has greatly increased because of the integration of wind energy into power generation system and found to be in field of research at present. The wind farms are located at the areas of low wind speed so, their frequency regulation energy will be limited at that time of operation. A control strategy for a wind farm will play an important role at this situation to provide its capabilities in frequency regulation. The proposed paper presents control method for regulating the frequency of power generated from the wind farm using fuzzy controller algorithm in order to achieve optimal power deliverance to the grid without any disturbances. The key feature of this approach is that each wind turbine can react to grid disturbances in a different way, which depends on wind speed as seen by the wind turbine itself and by its dynamical conditions. The maximum power point tracking (MPPT) method for the wind farm using Fuzzy will deliver maximum electric power with high efficiency.
Keywords
Maximum Power Point Tracking (MPPT), Fuzzy Logic controller(FLC), Fuzzy Logic Algorithm Rules, Primary Frequency Regulation.
Cite this article
N. Kavithamani, P. Priya, N. R. Nagaraj, “Fuzzy Logic Algorithm Based to Regulate the Frequency in Renewable Wind Energy Resources” INTERNATIONAL JOURNAL OF ADVANCED INFORMATION AND COMMUNICATION TECHNOLOGY, pp.751-756, November 05, 2017.
Copyright
© 2017 N. Kavithamani, P. Priya, N. R. Nagaraj. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.