ROLE OF DUAL INPUT FUZZY CONTROLLER FOR THE BETTER PRODUCTION OF REAL POWER IN WIND SYSTEM
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Aug 3, 2018
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Abstract
As non-renewable resources such as coal and tar are not only on the verge of depletion but also environmentally damaging, the world is looking towards alternative sources of energy that are environmentally and economically sustainable. Wind energy production has been growing at a rapid rate and has a promising outlook. It has come to play a vital part in supplying future energy needs. The work reported in this paper is about implementing the power maximization control technique towards the rectifier side. In order to attain this, grid-connected PMSG based WECS is scrutinized with one input fuzzy logic controller and modified fuzzy logic controller. The main focus of the research is to boost the power produced by the fuzzy one input controller applied towards the side of rectifier in tracking the uttermost power, where the uttermost power produced at several speeds of the wind is relatively low. A novel modified fuzzy logic controller towards the side of rectifier is implemented to bring out the uttermost power produced at several speeds of wind turbine. The analysis carried out in this work will help in the surge of power production routine of the PMSG using modified fuzzy logic controller compared to fuzzy one input MPPT controller. The simulation results are obtained by MATLAB software.
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[2] Rajvikram M, Renuga P and Swathisriranjan, ,Fuzzy based MPPT controller’s role in extraction of maximum power in wind energy conversion system, IEEE International conference
[3] Rajvikram.M and Renuga , Voltage stability analysis of grid connected PMSG based Wind Energy Conversion system using Matlab/Simulink, IJERT
[4] Zhenbin Zhang, José RodrÃguez and Ralph Kenne, Advanced control strategies for direct-drive PMSG wind turbine systems: Direct predictive torque control approaches, CPSS Transactions on Power Electronics and Applications
[5] Rajvikram M, Renuga P, Aravind Kumar G and Bavithra , Fault ride-through capability of permanent magnet synchronous generator based wind energy conversion system, The Journal of CPRI
[6] Athanasios Mesemanolis, Christos Mademlis and Iordanis Kioskeridi, High-Efï¬ciency Control for a Wind Energy Conversion System With Induction Generator, IEEE Transactions on Energy Conversion
[7] Cheol-HeeYoo, Il-Yop Chung, Hyun-Jae Yoo and SungSoo Hong, A Grid Voltage Measurement Method for Wind Power Systems during Grid Fault Conditions, Energies
[8] Adel Merabet, Khandker Tawï¬que and Rachid Beguenan, Sliding mode speed control for wind energy conversion system, IEEE 28TH Canadian Conference on Electrical and Computer Engineering (CCECE)
[9] Yerrami, Ouassaid and M Maaroufi, Optimal Power Control Strategy of Maximizing Wind Energy Tracking and Different Operating Conditions for Permanent Magnet Synchronous Generator Wind Farm, Elsevier Energy Proceedia
[10] Abedini A and Nasiri, PMSG Wind Turbine Performance Analysis During Short Circuit Fault, IEEE Canada Electrical Power Conference
[11] M Aten, G Towers and C Whitley, Reliability comparison of matrix and other converter topologies, IEEE Transactions on Power Semiconductor Devices
[12] Akie Uehara, Alok Pratap and Naomitsu Urasaki, A Coordinated Control Method to Smooth Wind Power Fluctuations of a PMSG-Based WECS, IEEE Transactions On Energy Conversion
[13] Yajvender Pal Verma, Ashwani Kumar, Economicemission load dispatch in renewable integrated system under availability based tariff (ABT) environment, Sustainable Energy Technologies and Assessments
[14] Pierluigi Siano and Geev Mokryani, Assessing Wind Turbines Placement in a Distribution Market Environment by using Particle Swarm Optimization, IEEE Transactions on Power Systems
[15] Partha Kayal and C.K. Chanda, Optimal mix of solar and wind distributed generations considering performance improvement of electrical distribution network, Renewable Energy
[16] Neelakanteshwar Rao Battu, A.R. Abhyankar, Nilanjan Senro, Nilanjan Senroy, DG Planning with Amalgamation of Economic and Reliability Considerations, International Journal of Electrical Power & Energy Systems
[17] C.Nayanatara, J. Baskaran, D.P. Kothari, Hybrid optimization implemented for distributed generation parameters in a power system network, International Journal of Electrical Power & Energy Systems