Wind fluctuations over the North Sea

Vincent, Claire Louise; Pinson, Pierre; Giebel, Gregor

doi:10.1002/joc.2175

Cited by 49 publications

(52 citation statements)

References 30 publications

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“…Statistical analysis of wind data from Horns Rev showed that this variability was actually the result of frequent and sudden changes of wind regimes (i.e., wind fluctuations with specific frequency and amplitude) over waters [5], [6]. Subsequent analysis showed that large wind fluctuations tended to be coupled with specific climatological patterns and, particularly, the occurrence of precipitation [7]. This suggests that precipitation could be used as an early indicator for high wind variability.…”

Section: Introductionmentioning

confidence: 97%

Automatic Classification of Offshore Wind Regimes With Weather Radar Observations

Trombe

Madsen

2014

IEEE J. Sel. Top. Appl. Earth Observations Remote Sensing

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Abstract-Weather radar observations are called to play an important role in offshore wind energy. In particular, they can enable the monitoring of weather conditions in the vicinity of large-scale offshore wind farms and thereby notify the arrival of precipitation systems associated with severe wind fluctuations. The information they provide could then be integrated into an advanced prediction system for improving offshore wind power predictability and controllability.In this paper, we address the automatic classification of offshore wind regimes (i.e., wind fluctuations with specific frequency and amplitude) using reflectivity observations from a single weather radar system. A categorical sequence of most likely wind regimes is estimated from a wind speed time series by combining a Markov-Switching model and a global decoding technique, the Viterbi algorithm. In parallel, attributes of precipitation systems are extracted from weather radar images. These attributes describe the global intensity, spatial continuity and motion of precipitation echoes on the images. Finally, a CART classification tree is used to find the broad relationships between precipitation attributes and wind regimes.

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Section: Introductionmentioning

confidence: 97%

Automatic Classification of Offshore Wind Regimes With Weather Radar Observations

Trombe

Madsen

2014

IEEE J. Sel. Top. Appl. Earth Observations Remote Sensing

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“…Consequently the wind fluctuations are transformed to very large power fluctuations. Vincent and Hahmann (2011), Heggem et al (1998) and others showed that a typical weather situation, which enhances mesoscale wind variability, are cold air outbreaks on the rear of low pressure systems. When the cold air is advected over warm water, cellular clouds develop.…”

Section: Introductionmentioning

confidence: 99%

On the correlation of spatial wind speed and solar irradiance variability above the North Sea

Mehrens

Bremen

2016

Adv. Sci. Res.

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Abstract. Mesoscale wind fluctuations on a time scale of tens of minutes to several hours lead to high wind power fluctuations. Enhanced mesoscale wind variability emerges during cold air outbreaks and resulting cellular convection. The study investigates spatial wind and solar variability and their correlation during cellular convection. Cellular convection leads to simultaneous high solar and wind variability, but the highest solar or wind variability occurs due to other meteorological phenomena.

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“…The spectral properties of surface winds are fundamental for oceanic modeling and are used as a measure of accuracy for short-term forecasting in the meso-scale range [6] and for estimating extreme winds [7]. The spectral properties are also essential in order to understand the nature of spatially coherent surface winds in terms of the effective spatial resolution of different products.…”

Section: Introductionmentioning

confidence: 99%

Spectral Properties of ENVISAT ASAR and QuikSCAT Surface Winds in the North Sea

et al. 2013

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Spectra derived from ENVISAT Advanced Synthetic Aperture Radar (ASAR) and QuikSCAT near-surface ocean winds are investigated over the North Sea. The two sensors offer a wide range of spatial resolutions, from 600 m to 25 km, with different spatial coverage over the area of interest. This provides a unique opportunity to study the impact of the spatial resolution on the spectral properties of the wind over a wide range of length scales. Initially, a sub-domain in the North Sea is chosen, due to the overlap of 87 wind scenes from both sensors. The impact of the spatial resolution is manifested as an increase in spectral density over similar wavenumber ranges as the spatial resolution increases. The 600-m SAR wind product reveals a range of wavenumbers in which the exchange processes between micro-and meso-scales occur; this range is not captured by the wind products with a resolution of 1.5 km or lower. The lower power levels of coarser resolution wind products, particularly when comparing QuikSCAT to ENVISAT ASAR, strongly suggest that the effective resolution of the wind products should be high enough to resolve the spectral properties. Spectra computed from 87 wind maps are consistent with those obtained from several thousands of samples. Long-term spectra from QuikSCAT show that during the winter, slightly higher energy content is identified compared to the other seasons.

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Wind fluctuations over the North Sea

Cited by 49 publications

References 30 publications

Automatic Classification of Offshore Wind Regimes With Weather Radar Observations

Automatic Classification of Offshore Wind Regimes With Weather Radar Observations

On the correlation of spatial wind speed and solar irradiance variability above the North Sea

Spectral Properties of ENVISAT ASAR and QuikSCAT Surface Winds in the North Sea

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