Title :
The development of large-scale wind turbine blade redesign system
Author :
Sun Wenlei ; Tao Qing ; Jinsheng Kang ; Xiaoqiu Zhuang
Author_Institution :
Sch. of Mech. Eng., Xinjiang Univ., Urumqi, China
Abstract :
The large-scale wind turbine blade contour design and the choice of wing section are the core technology in wind power generation; both affect the wind turbine performance and the energy efficiency. This paper presents the redesign principles and methods for large-scale wind turbine blade which are based on the analysis of blade CAD model from reverse engineering, looking for geometric features, exploring basic constraint factors on blade shape, and determining parameters of blade cross section calculation formula. Blade design has been completed using this self-developed blade aerofoil automatic generation system. The results showed that the redesign meets the production requirements.
Keywords :
CAD; blades; design engineering; power engineering computing; reverse engineering; wind turbines; blade CAD model analysis; blade aerofoil automatic generation system; blade cross section calculation formula; core technology; energy efficiency; geometric features; redesign principles; reverse engineering; wind power generation; wind turbine blade contour design; wind turbine blade redesign system; wind turbine performance; Atmospheric modeling; Automotive components; Blades; Design automation; Shape; Solid modeling; Wind turbines; Modeling; Redesign; Reverse Engineering; Wind Turbine Blade;
Conference_Titel :
Automation and Computing (ICAC), 2014 20th International Conference on
Conference_Location :
Cranfield
DOI :
10.1109/IConAC.2014.6935489
