Offshore wind climatology based on synergetic use of Envisat ASAR, ASCAT and QuikSCAT

The offshore wind climatology in the Northern European seas is analysed from ten years of Envisat synthetic aperture radar (SAR) images using a total of 9256 scenes, ten years of QuikSCAT and two years of ASCAT gridded ocean surface vector wind products and high-quality wind observations from four m...

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Published in:Remote sensing of environment Vol. 156; pp. 247 - 263
Main Authors: Hasager, Charlotte B., Mouche, Alexis, Badger, Merete, Bingöl, Ferhat, Karagali, Ioanna, Driesenaar, Tilly, Stoffelen, Ad, Peña, Alfredo, Longépé, Nicolas
Format: Journal Article
Language:English
Published: Elsevier Inc 01-01-2015
Elsevier
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Summary:The offshore wind climatology in the Northern European seas is analysed from ten years of Envisat synthetic aperture radar (SAR) images using a total of 9256 scenes, ten years of QuikSCAT and two years of ASCAT gridded ocean surface vector wind products and high-quality wind observations from four meteorological masts in the North Sea. The traditional method for assessment of the wind resource for wind energy application is through analysis of wind speed and wind direction observed during one or more years at a meteorological mast equipped with well-calibrated anemometers at several levels. The cost of such measurements is very high and therefore they are only sparsely available. An alternative method is the application of satellite remote sensing. Comparison of wind resource statistics from satellite products is presented and discussed including the uncertainty on the wind resource. The diurnal wind variability is found to be negligible at some location but up to 0.5ms−1 at two sites. Synergetic use of observations from multiple satellites in different orbits provides wind observations at six times in the diurnal cycle and increases the number of observations. At Horns Rev M2, FINO1 and Greater Gabbard satellite and in situ collocated samples show differences in mean wind speed of −2%, −1% and 3%, respectively. At Egmond aan Zee the difference is 10%. It is most likely due to scatterometer data sampled further offshore than at the meteorological mast. Comparing energy density with all samples at Horns Rev M2 shows overestimation 7–19% and at FINO1 underestimation 2–5% but no clear conclusion can be drawn as the comparison data are not collocated. At eight new offshore wind farm areas in Denmark, the variability in mean energy density observed by SAR ranges from 347Wm−2 in Sejerøbugten to 514Wm−2 at Horns Rev 3. The spatial variability in the near-shore areas is much higher than at areas located further offshore. •We combine satellite surface ocean wind vector data from three satellites.•Offshore wind climatology is calculated for wind energy resource.•Satellite winds are compared to offshore observations in the North Sea.•SAR wind climatology near-shore identify coastal gradients.
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ISSN:0034-4257
1879-0704
DOI:10.1016/j.rse.2014.09.030