The effect of the number of blades on wind turbine wake - A comparison between 2-and 3-bladed rotors

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Abstract

Due to cost benefit and weight reduction, 2-bladed wind turbines have the potential to become more important for offshore wind applications. In order to optimize the arrangement of wind turbines in wind farms and for accurate forecasts of the power production, a detailed knowledge of the wake flow is needed. In this study, three different rotors with varying number of blades and similar performance behaviour have been designed and manufactured using the 3dimensional (3D) printing technology. The performance characteristics of these rotors as well as their wake features are measured experimentally in wind tunnel tests and compared. The velocity deficit is seen to vary only insignificantly for the wakes in distances of 3D (where D is the rotor diameter), 5D and 7D behind the turbine. However, higher turbulence intensity levels are recorded in the wake of the 2-bladed rotors. This could have potential for a faster wake recovery and thus a narrower turbine spacing.

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Mühle, F., Adaramola, M. S., & Sretran, L. (2016). The effect of the number of blades on wind turbine wake - A comparison between 2-and 3-bladed rotors. In Journal of Physics: Conference Series (Vol. 753). Institute of Physics Publishing. https://doi.org/10.1088/1742-6596/753/3/032017

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