Estimation of monthly wind power outputs of WECS with limited record period using artificial neural networks
- 作者:Yi-Long Tua ; b ; c ; Tsang-Jung Changa ; b ; tjchang@ntu.edu.tw ; Cheng-Lung Chena ; b ; Yu-Jung Changd
- 关键词:Artificial neural networks ; Wind speed ; Yaw angle ; Wind power ; Short data record ; Numbers and parameters of input neurons
- 刊名:Energy Conversion and Management
- 出版年:2012
- 期刊代码:13_01968904
- 类别:pw
- 出版时间:July, 2012
- 卷:59
- 期:Complete
- 页码:114-121
- 文件大小:1190 K
摘要
For the brand new wind power industry, online recordings of wind power data are always in a relatively limited period. The aim of the study is to investigate the suitable numbers/parameters of input neurons for artificial neural networks under a short record of measured data. Measured wind speeds, wind directions (yaw angles) and power outputs with 10-min resolution at an existing wind power station, located at Jhongtun, Taiwan, are integrated to form three types of input neuron numbers and sixteen cases of input neurons. The first-10 days of each month in 2006 are used for data training to simulate the following 20-day power generation of the same month. The performance of various input neuron cases is evaluated. The simulated results show that using the first 10-day training data with adequate input neurons can estimate energy outputs well except the weak wind regime (May, June, and July). Among the input neuron parameters used, current wind speeds V(t) and previous power outputs P(t 鈭?#xA0;1) are the most important. Individually using one of them into input neurons can only provide satisfactory estimation. However, simultaneously using these two parameters into input neurons can give the best estimation. Thus, choosing suitable input parameters is more important than choosing multiple parameters.