2016
DOI: 10.5194/wes-2015-5
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Full field assessment of wind turbine near wake deviation in relation to yaw misalignment

Abstract: Abstract. Presently there is a lack of data revealing the behaviour of the path followed by the near wake of full scale wind turbines and its dependence on yaw misalignment. Here we present an experimental analysis of the horizontal wake deviation of a 5 MW offshore wind turbine between 0.6 and 1.4 diameters downstream. The wake field has been scanned with a short range lidar and the wake path has been reconstructed by means of two-dimensional Gaussian tracking. We analysed the measurements for rotor yaw misal… Show more

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Cited by 3 publications
(3 citation statements)
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“…This is expected due to a lateral thrust component of the rotor as a result of yaw misalignment, which has been observed and 10 described in numerous studies including (Medici and Alfredsson, 2006;Jiménez et al, 2010;Vollmer et al, 2016;Trujillo et al, 2016). The deflection of the velocity deficit is quantified using the approach described in Section 2.2, the results are listed in Table 2 including the resulting wake skew angles.…”
Section: Wakes During Yaw-misalignmentmentioning
confidence: 86%
“…This is expected due to a lateral thrust component of the rotor as a result of yaw misalignment, which has been observed and 10 described in numerous studies including (Medici and Alfredsson, 2006;Jiménez et al, 2010;Vollmer et al, 2016;Trujillo et al, 2016). The deflection of the velocity deficit is quantified using the approach described in Section 2.2, the results are listed in Table 2 including the resulting wake skew angles.…”
Section: Wakes During Yaw-misalignmentmentioning
confidence: 86%
“…Since then, a wide range of scanning techniques has been developed for both ground‐ and nacelle‐based LiDAR measurements of isolated wind turbines, multiple wakes, and wake interactions . LiDAR wake measurements were performed in the presence of yaw misalignment of the turbine rotor or wind veer, which induce a departure of the wake cross‐section from roughly axisymmetric shape, even removing the skewing effect due to the vertical shear. Doppler radars have also been used to measure wakes produced by utility‐scale wind turbines .…”
Section: Introductionmentioning
confidence: 99%
“…Lidar technology has found many successful applications within many different aspects of the field of wind energy. This includes power performance measurements, wind field characterization in simple and complex sites, atmospheric boundary layer characterization, wake measurements, correction and optimization of turbine operation, among others. Based on the amount of previous experiences with lidars, it is clear that this technology has great potential for validation of wind turbine load models where accurate wind field and turbulence inputs are required.…”
Section: Introductionmentioning
confidence: 99%