Abstract
When multiple scattered wind farms are connected to the power grid, the meteorological and geographic information data used for power prediction of a single wind farm are not suitable for the regional wind power prediction of the dispatching department. Therefore, based on the regional wind power historical data, this study proposes a combined prediction method according to data decomposition. Firstly, the original sequence processed by the extension methods is decomposed into several regular components by Complete Ensemble Empirical Mode Decomposition with Adaptive Noise (CEEMDAN). All the components are classified into two categories: fluctuant components and smooth components. Then, according to the characteristics of different data, the long short-term memory (LSTM) network and autoregressive integrated moving average (ARIMA) model are used to model the fluctuant components and the smooth components, respectively, and obtain the predicted values of each component. Finally, the predicted data of all components are accumulated, which is the final predicted result of the regional ultra-short-term wind power. The feasibility and accuracy of this method are verified by the comparative analysis.
Highlights
With the vigorous development of wind resources in China, multiple wind farms are connected to the provincial and regional power grid at the same time
Aiming at the problem of regional wind power prediction with weak regularity, this study proposes a combined prediction method based on modal decomposition and artificial intelligence technology
According to the variation characteristics of historical data of the regional wind power, this study proposes a combined prediction method based on CEEMDAN and the division of fluctuant/ smooth components
Summary
With the vigorous development of wind resources in China, multiple wind farms are connected to the provincial and regional power grid at the same time. Different wind farms are far away and have dispersion characteristics (Gan et al, 2016). In order to face the impact of cluster grid connection on the power system and the power market, it is necessary to predict the regional wind power when making decisions such as operating plans and market transactions (Zalzar et al, 2020). Error may occur in the wind power prediction for each wind farm, and it is difficult to consider the dispersion characteristics of prediction error in accumulation (Wang C et al, 2017). The weather forecasts and geographical features used in the power prediction of each wind farm are different from each other. They are no longer applicable to regional wind power prediction.
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