Power Transition Enhancement for Variable-Speed, Variable-PitchWind Turbines using Model Predictive Control Techniques
Alt Text: Power Transition Enhancement for Variable-Speed Wind Turbines
Title: Power Transition Enhancement for Wind Turbines using Model Predictive Control
Caption: Optimizing variable-speed, variable-pitch wind turbines with advanced control techniques
Description: This study explores the optimization of variable-speed wind turbines through model predictive control techniques, improving power transition efficiency.
Keywords: ijet journal, IJET, Wind Turbine Optimization, Model Predictive Control, Renewable Energy, Pitch Control
International Journal of Engineering and Techniques – Volume 10 Issue 5, September 2024
Mohammad Sikandar Khan1, Dr. E. Vijay Kumar2
1Research Scholar, RKDF Institute of Science Technology, SRK University, Bhopal
2Research Guide, HOD, Department of Electrical Engineering, RKDF Institute of Science Technology, SRK University, Bhopal
Abstract
Humans have used the power of the wind for many centuries. The first documented windmill was used by the Persians in approximately 900 AD. The windmill appeared in Europe during the Middle Ages and was used for various mechanical tasks such as sawing wood, pumping water, grinding grain, and powering tools. Modern horizontal-axis wind turbines have become an economically competitive form of clean and renewable power generation, leading to significant industry growth. Optimizing wind turbines for specific sites by varying rotor diameter, hub height, and generator capacity can further enhance their competitiveness.
Keywords
Model Predictive Control, Variable Pitch Wind Turbines, Pitch Control, Power Optimization, Renewable Energy
How to Cite
Mohammad Sikandar Khan, Dr. E. Vijay Kumar, “Power Transition Enhancement for Variable-Speed, Variable-Pitch Wind Turbines using Model Predictive Control Techniques,” International Journal of Engineering and Techniques, Volume 10, Issue 5, September 2024. ISSN 2395-1303.
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