Article ID Journal Published Year Pages File Type
292900 Journal of Wind Engineering and Industrial Aerodynamics 2016 13 Pages PDF
Abstract

•Application of the blade element momentum theory (BEMT) to a small-scale horizontal axis wind turbine.•CFD simulation of the performance of the rotor-blade.•Quantitative study of the performance gain by use of the BEMT-designed blade.•The first study of the performance gain by the BEMT design.

In the present work, the research is devoted to studying the aerodynamic performance of two different types of horizontal-axis wind turbine (HAWT) blades. One is a typical type designed by the blade element momentum theory (BEMT); the other is a non-twisted type with constant chord length. The purpose of this study is to investigate the performance gain of the former by experiments as well as numerical simulations. Wind tunnel experiments were performed to measure the power coefficients of the both models. For visualization of the flow field, numerical simulations were also conducted under the operation conditions of various wind speeds. The simulations turn out to be consistent with the experimental data. Both simulation and measurement indicated that the maximum power coefficient of the BEMT-blade was increased by more than 50% as compared with the baseline-blade. Also, some other detailed discussions about the optimal design for the BEMT-blade of a small-scale HAWT system are provided in the end.

Graphical abstractThe research is devoted to studying the differences of aerodynamic performance between two different types of horizontal-axis wind turbine (HAWT) blades. As shown below, one is a typical type designed by the blade element momentum theory (BEMT); the other is a non-twisted type with constant chord length. Very good agreements between the simulations and experiments were obtained. Detailed discussions regarding the aerodynamic performance differences are made in the paper.Figure optionsDownload full-size imageDownload as PowerPoint slide

Related Topics
Physical Sciences and Engineering Energy Renewable Energy, Sustainability and the Environment
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