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Aeroservoelastic Design Definition of a 20 MW Common Research Wind Turbine Model

TitleAeroservoelastic Design Definition of a 20 MW Common Research Wind Turbine Model
Publication TypeJournal Articles
Year of Publication2016
AuthorsAshuri, T, Martins, JRRA, Zaaijer, MB, van Kuik, GAM, van Bussel, GJW
JournalWind Energy
Volume19
Abstract

Wind turbine upscaling is motivated by the fact that larger machines can achieve lower levelized cost of energy. However, there are several fundamental issues with the design of such turbines, and there is little public data available for large wind turbine studies. To address this need, we develop a 20 MW common research wind turbine design that is available to the public*. Multidisciplinary design optimization is used to define the aeroservoelastic design of the rotor and tower subject to the following constraints: blade-tower clearance, structural stresses, modal frequencies, tip-speed, and fatigue damage at several sections of the tower and blade. For the blade, the design variables include blade length, twist and chord distribution, structural thicknesses distribution, and rotor speed at the rated. The tower design variables are the height, and the diameter distribution in the vertical direction. For the other components, mass models are employed to capture their dynamic interactions. The associated cost of these components is obtained by using cost models. The design objective is to minimize the levelized cost of energy. The results of this research show the feasibility of a 20 MW wind turbine and provide a model with the corresponding data for wind energy researchers to use in the investigation of different aspects of wind turbine design and upscaling.

DOI10.1002/we.1970
Citation KeyAshuri2016