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Paper Title : A REVIEW ON ROTOR BLADE OF THE WIND TURBINE AEROFOIL SECTION NACA 5510

ISSN : 2395-1303
Year of Publication : 2021
10.29126/23951303/IJET-V7I4P13

Authors: MOHD SALMAN AHMED, Dr. M.K. Chopra,Vivek Singh

         


Abstract
- Owing to the fast development in the energy filed, the demand is increasing to improve energy efficiency and lifetime of wind turbine. Therefore, it's important to understand deeply the behavior of wind turbine under different load conditions.Meanwhile, this paper mainly aims to survey the most recent condition and performance monitoring approaches of wind turbines with the primary focus on blade, gearbox, generator, braking system, and rotor. Different methodologies of wind turbine condition monitoring, performance monitoring, and fault diagnosis reported in the literature are discussed. The main objective of this paper is to supply invaluable information for future researchers in escalating the ability as well as accuracy of wind turbine condition monitoring techniques. The evolution of wind technology is expected to continue over the next two decades resulting in a continued improvement in reliability and energy capture with a modest decrease in cost. The development of new and innovative rotors, drive systems, towers, and controls is expected to enable this continued improvement in the cost effectiveness of wind technology

Reference
Bin, S., & Kashem, A. (2020). Wind Power Integration with Smart Grid and Storage System : Prospects and Limitations. 11(5), 552–569. Deisadze, L. (2013). Vertical Axis Wind Turbine Evaluation and Design. Rehman, S. (2018). Horizontal Axis Wind Turbine Blade Design Methodologies for Efficiency Enhancement—A Review. https://doi.org/10.3390/en11030506 Schubel, P. J., & Crossley, R. J. (2012). Wind turbine blade design. Wind Turbine Technology: Principles and Design, 36(4), 1–34. https://doi.org/10.1201/b16587 Thresher, R., & Robinson, M. (2008). Wind Energy Technology : Current Status and R & D Future. Tong, W. (2009). CHAPTER 1. 44. https://doi.org/10.2495/978-1-84564- Zhang, N., Lu, C., & Wang, A. (2019). Study on wind turbine blade defect detection system based on imaging array. 02041, 3–6. Zuheir, S., Abdullah, O. I., & Al-maliki, M. (2019). Journal of Mechanical Engineering Research and Developments ( JMERD ) STRESS AND VIBRATION ANALYSES OF THE WIND TURBINE BLADE ( A NREL 5MW ). 42(4), 14–19
Keywords
—— blade, airflow, Aerofoil, pressure distribution, velocity distribution.