Experimental Study on Influence of Pitch Motion on the Wake of a Floating Wind Turbine Model

Rockel, Stanislav; Camp, Elizabeth; Schmidt, Jonas; Peinke, Joachim; Cal, Raúl Bayoán; Hölling, Michael

doi:10.3390/en7041954

Cited by 82 publications

(60 citation statements)

References 30 publications

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“…a pitch motion will deflect the wake upwards, see Rockel et al (2014). This vertical deflection will interact with the vertical transport shown in Figure 11.…”

mentioning

confidence: 95%

Wind tunnel experiments on wind turbine wakes in yaw: Redefining the wake width

Schottler¹,

Bartl²,

Mühle³

et al. 2018

Preprint

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Abstract. This paper presents an investigation of wakes behind model wind turbines, including cases of yaw misalignment. Two different turbines were used and their wakes are compared, isolating effects of boundary conditions and turbine specifications. The results show that areas of strongly heavy-tailed distributed velocity increments are surrounding the velocity deficit in all cases examined. Thus, a wake is significantly wider when two-point statistics are included as opposed to a description limited to one-point quantities. As non-Gaussian distributions of velocity increments affect loads of downstream rotors, our findings impact the application of active wake steering through yaw misalignment as well as wind farm layout optimizations and should 10 therefore be considered in future wake studies, wind farm layout and farm control approaches. Further, the velocity deficits behind both turbines are deformed to a kidney-like curled shape during yaw misalignment, for which parameterization methods are introduced. Moreover, the lateral wake deflection during yaw misalignment is investigated.

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“…a pitch motion will deflect the wake upwards, see Rockel et al (2014). This vertical deflection will interact with the vertical transport shown in Figure 11.…”

mentioning

confidence: 95%

Wind tunnel experiments on wind turbine wakes in yaw: Redefining the wake width

Schottler¹,

Bartl²,

Mühle³

et al. 2018

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

“…Further details on the inflow characteristics can be found in Ref. [20], where measurements were performed to observe the differences in the wake of a fixed versus a pitching single wind turbine; these results were then compared to various wake models. Here, a second wind turbine was positioned in the wake of the upwind turbine at a distance of 7.5D.…”

Section: Wind Tunnel and Model Wind Turbinesmentioning

confidence: 99%

“…The air density is given by r, the mean pressure by P and F xi is the thrust force by the turbine, which mainly acts in the streamwise direction [3,9,19,20]. The vertical transport of kinetic energy in the wake region is connected to the Reynolds shear stress by the mean kinetic energy equation, which is given by,…”

Section: Introductionmentioning

confidence: 99%

Wake to wake interaction of floating wind turbine models in free pitch motion: An eddy viscosity and mixing length approach

et al. 2016

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a b s t r a c tExperiments were performed using two model wind turbines operated in tandem with a bottom-fixed configuration and a floating configuration with both turbines allowed to freely oscillate in the streamwise direction. Wakes of both turbines were measured using stereoscopic Particle Image Velocimetry. Turbulent characteristics of the far wake of the first turbine acting as the inflow for the downwind turbine were characterized calculating the eddy viscosity and mixing length profiles from the obtained data. The influence of the far wake on the statistical properties of the near wake of the second turbine are compared between the fixed and oscillating configurations. The incoming mixing length clearly influences the Reynolds stresses and turbulence production of the near wake in the shear layer. Below, the connection between incoming mixing length and the near wake is less evident, due to the impact of the nacelle and rotation of the rotor. For the oscillating turbine, the Reynolds stresses and turbulence production in the near wake of the downwind turbine are damped. Vertical fluctuations were found to decrease though an increase in the mean vertical component. New challenges arise in the design of a floating offshore wind farms, in terms of farm layout and load estimations.

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“…Over the past few years, several research groups have focused attention on wind tunnel experiments with the innovative idea of supporting research not only related to the validation of purely aerodynamic models, but also to support numerical activities on control and aero-servo-elasticity (Bottasso et al, 2014) as well as to understand the interaction of wind turbines with turbulent flow (Rockel et al, 2014). In fact, the full-scale testing of wind turbines in the atmospheric boundary layer imposes several constraints, such as the difficulty in obtaining accurate knowledge and repeatability of the environmental conditions and higher costs.…”

Section: Introductionmentioning

confidence: 99%

Demonstration and uncertainty analysis of synchronised scanning lidar measurements of 2-D velocity fields in a boundary-layer wind tunnel

et al. 2017

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Abstract. This paper combines the research methodologies of scaled wind turbine model experiments in wind tunnels with short-range WindScanner lidar measurement technology. The wind tunnel at the Politecnico di Milano was equipped with three wind turbine models and two short-range WindScanner lidars to demonstrate the benefits of synchronised scanning lidars in such experimental surroundings for the first time. The duallidar system can provide fully synchronised trajectory scans with sampling timescales ranging from seconds to minutes. First, staring mode measurements were compared to hot-wire probe measurements commonly used in wind tunnels. This yielded goodness of fit coefficients of 0.969 and 0.902 for the 1 Hz averaged u and v components of the wind speed, respectively, validating the 2-D measurement capability of the lidar scanners. Subsequently, the measurement of wake profiles on a line as well as wake area scans were executed to illustrate the applicability of lidar scanning to the measurement of small-scale wind flow effects. An extensive uncertainty analysis was executed to assess the accuracy of the method. The downsides of lidar with respect to the hotwire probes are the larger measurement probe volume, which compromises the ability to measure turbulence, and the possible loss of a small part of the measurements due to hard target beam reflection. In contrast, the benefits are the high flexibility in conducting both point measurements and area scanning and the fact that remote sensing techniques do not disturb the flow during measuring. The research campaign revealed a high potential for using short-range synchronised scanning lidars to measure the flow around wind turbines in a wind tunnel and increased the knowledge about the corresponding uncertainties.

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Experimental Study on Influence of Pitch Motion on the Wake of a Floating Wind Turbine Model

Cited by 82 publications

References 30 publications

Wind tunnel experiments on wind turbine wakes in yaw: Redefining the wake width

Wind tunnel experiments on wind turbine wakes in yaw: Redefining the wake width

Wake to wake interaction of floating wind turbine models in free pitch motion: An eddy viscosity and mixing length approach

Demonstration and uncertainty analysis of synchronised scanning lidar measurements of 2-D velocity fields in a boundary-layer wind tunnel

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