- 作者:Achim Woyte ; Ronnie Belmans ; Johan Nijs
- 关键词:Fluctuations ; Spectral analysis ; Wavelets ; Clearness index ; Solar radiation
- 刊名:Solar Energy
- 出版年:2007
- 期刊代码:80_0038092x
- 类别:ce
- 出版时间:February 2007
- 卷:81
- 期:2
- 页码:195-206
- 文件大小:925 K
An analysis of fluctuations in solar radiation must focus on their amplitude, persistence, and frequency of occurrence rather than their location in time. The Fourier analysis cannot satisfactorily provide this information since time series of the instantaneous clearness index exhibit no periodicity. Instead, a localized spectral analysis based on wavelet bases rather than on periodic-ones has been applied. This analysis allows the decomposition of the fluctuating clearness index signal into a set of orthonormal subsignals. Each of them represents one specific scale of persistence of the fluctuation.
The annual mean square values of all subsignals have been analysed, permitting the allocation of the signal’s power content to the different scales of persistence of a fluctuation. These annual mean values agree well for the different datasets, indicating the existence of statistically significant mean square values of the fluctuations as a function of their persistence.
The analysis offers a valuable tool for the estimation of power flow fluctuations introduced by direct solar energy systems. With further elaboration it may be applied by power system operators for network planning in distribution grids with a high density of embedded generation.