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Measurements of surface-layer turbulence in awide norwegian fjord using synchronized long-range doppler wind lidars

Measurements of surface-layer turbulence in awide norwegian fjord using synchronized long-range doppler wind lidars


Titill: Measurements of surface-layer turbulence in awide norwegian fjord using synchronized long-range doppler wind lidars
Höfundur: Cheynet, E.
Jakobsen, J.B.
Snæbjörnsson, J.
Mann, J.
Courtney, M.
Lea, G.
Svardal, B.
Útgáfa: 2017-09-21
Tungumál:
Umfang: 977
Deild: Verkfræðideild
Birtist í: Remote Sensing; 9(10)
ISSN: 2072-4292
DOI: 10.3390/rs9100977
Efnisorð: Wind coherence; Turbulence spectrum; Pulsed lidar; Full-scale measurements; WindScanner system; Bridges; Vindmælingar; Vindálag; Vatnsborð; Brýr; Byggingarverkfræði; Norway; Noregur; Wind coherence; Turbulence spectrum; Pulsed lidar; Full-scale measurements; WindScanner system; Bridges; Vindmælingar; Vindálag; Vatnsborð; Brýr; Byggingarverkfræði; Norway; Noregur
URI: https://hdl.handle.net/20.500.11815/4340

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Tilvitnun:

Cheynet , E , Jakobsen , J B , Snæbjörnsson , J , Mann , J , Courtney , M , Lea , G & Svardal , B 2017 , ' Measurements of surface-layer turbulence in awide norwegian fjord using synchronized long-range doppler wind lidars ' , Remote Sensing , vol. 9 , no. 10 . https://doi.org/10.3390/rs9100977

Útdráttur:

Three synchronized pulsed Doppler wind lidars were deployed from May 2016 to June 2016 on the shores of a wide Norwegian fjord called Bjornafjord to study the wind characteristics at the proposed location of a planned bridge. The purpose was to investigate the potential of using lidars to gather information on turbulence characteristics in the middle of a wide fjord. The study includes the analysis of the single-point and two-point statistics of wind turbulence, which are of major interest to estimate dynamic wind loads on structures. The horizontal wind components were measured by the intersecting scanning beams, along a line located 25m above the sea surface, at scanning distances up to 4.6km. For a mean wind velocity above 8m.s(-1), the recorded turbulence intensity was below 0.06 on average. Even though the along-beam spatial averaging leads to an underestimated turbulence intensity, such a value indicates a roughness length much lower than provided in the European standard EN 1991-1-4:2005. The normalized spectrum of the along-wind component was compared to the one provided by the Norwegian Petroleum Industry Standard and the Norwegian Handbook for bridge design N400. A good overall agreement was observed for wave-numbers below 0.02m(-1). The along-beam spatial averaging in the adopted set-up prevented a more detailed comparison at larger wave-numbers, which challenges the study of wind turbulence at scanning distances of several kilometres. The results presented illustrate the need to complement lidar data with point-measurement to reduce the uncertainties linked to the atmospheric stability and the spatial averaging of the lidar probe volume. The measured lateral coherence was associated with a decay coefficient larger than expected for the along-wind component, with a value around 21 for a mean wind velocity bounded between 10m.s(-1) and 14m.s(-1), which may be related to a stable atmospheric stratification.

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