Hub Height Ocean Winds over the North Sea Observed by the NORSEWInD Lidar Array: Measuring Techniques, Quality Control and Data Management
Charlotte Bay Hasager,Detlef Stein,Michael Courtney,Alfredo Peña,Torben Mikkelsen,Matthew Stickland,Andrew Oldroyd +6 more
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TLDR
The flow distortion around platforms was examined using wind tunnel experiments and computational fluid dynamics and it was found that at 100 m height wind observations by the lidars were not significantly influenced by flow distortion.Abstract:
In the North Sea, an array of wind profiling wind lidars were deployed mainly on offshore platforms. The purpose was to observe free stream winds at hub height. Eight lidars were validated prior to offshore deployment with observations from cup anemometers at 60, 80, 100 and 116 m on an onshore met mast situated in flat terrain. The so-called “NORSEWInD standard” for comparing lidar and mast wind data includes the criteria that the slope of the linear regression should lie within 0.98 and 1.01 and the linear correlation coefficient higher than 0.98 for the wind speed range 4–16 m∙s−1. Five lidars performed excellently, two slightly failed the first criterion and one failed both. The lidars were operated offshore from six months to more than two years and observed in total 107 months of 10-min mean wind profile observations. Four lidars were re-evaluated post deployment with excellent results. The flow distortion around platforms was examined using wind tunnel experiments and computational fluid dynamics and it was found that at 100 m height wind observations by the lidars were not significantly influenced by flow distortion. Observations of the vertical wind profile shear exponent at hub height are presented.read more
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Ten Years of Boundary-Layer and Wind-Power Meteorology at Høvsøre, Denmark
Alfredo Peña,Rogier Floors,Ameya Sathe,Sven-Erik Gryning,Rozenn Wagner,Michael Courtney,Xiaoli Guo Larsén,Andrea N. Hahmann,Charlotte Bay Hasager +8 more
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Lidar-based Research and Innovation at DTU Wind Energy - a Review:
TL;DR: As wind turbines during the past decade have increased in size so have the challenges met by the atmospheric boundary-layer meteorologists and the wind energy society to measure and characterize the huge-volume wind fields surpassing and driving them.
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Alfredo Peña,Charlotte Bay Hasager,Sven-Erik Gryning,Michael Courtney,I. Antoniou,Torben Mikkelsen +5 more
TL;DR: In this article, the advantages and limitations of the ZephIR®, a continuous-wave, focused light detection and ranging (LiDAR) wind profiler, to observe offshore winds and turbulence characteristics were tested during a 6 month campaign at the transformer/platform of Horns Rev, the world's largest wind farm.