Professor of Mechanical Engineering and Smart Structures, School of Computing Engineering and Mathematics, Western Sydney University, Australia. His research interests cover Industry 4.0, Additive Manufacturing, Advanced Engineering Materials and Structures (Metals and Composites), Multi-scale Modelling of Materials and Structures, Metal Forming and Metal Surface Treatment.
Abstract—This paper summarizes the design and analysis of Jet Wind Turbine blades, CATIA is used for design and analysis for model generated by applying boundary condition; this paper also includes specific post processing and life assessment of blade. We take an opportunity to present this report on “Design and Analysis of Jet Wind Turbine Blades” and put before readers some useful information regarding this project. Drawn by list of priorities progress in the design and structural analysis of jet wind turbine blades is reviewed and presented for generating 100 watt power. This article is motivated by the key role of blades in the performance of jet wind turbine. The fundamentals of the associated physics are emphasized. Recent developments and advancements have led to an increase and improvement in blade aerodynamics, stability and reliability. This article is intended as a high level review of design of the blade environment and current state of structural design to aid further research in developing new and innovative blade technologies.
Index Terms—Design and analysis, Wind turbine, CATIA
Cite: Vishal N Sulakhe and Satish G Bahaley, "Design and Analysis of Jet Wind Turbine Blades," International Journal of Mechanical Engineering and Robotics Research, Vol.2 No.3, pp. 224-232, July 2013.
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