Abstract
With the continuous increase of solar penetration rate, it has brought challenges to the smooth operation of the power grid. Therefore, to make photovoltaic power generation not affect the smooth operation of the grid, accurate photovoltaic power prediction is required. And short-term forecasting is essential for the deployment of daily power generation plans. In this paper, A short-term photovoltaic power generation forecast method based on K-means++, grey relational analysis (GRA) and support vector regression (SVR) (Hybrid Kmeans-GRA-SVR, HKGSVR) was proposed. The historical power data was clustered through the multi-index K-means++ algorithm. And the similar days and the nearest neighbor similar day of the prediction day were selected by the GRA algorithm. Then, similar days and nearest neighbor similar days were used to train SVR to obtain an accurate photovoltaic power prediction model. Under ideal weather, the average values of MAE, RMSE, and R2 were 0.8101 kW, 0.9608 kW, and 99.66%, respectively. The average computation time was 1.7487 s, which was significantly better than the SVR model. Thus, the demonstrated numerical results verify the effectiveness of the proposed model for short-term PV power prediction.
Highlights
In recent years, breakthroughs have been made in the exploitation of shale gas and deep-sea combustible ice has progressed, the fact that fossil energy reserves have limits has not changed
A short-term photovoltaic power generation forecast method based on K-means++, grey relational analysis (GRA) and support vector regression (SVR) (Hybrid Kmeans-GRA-SVR, HKGSVR) was proposed
The average computation time was 1.7487 s, which was significantly better than the SVR model
Summary
Breakthroughs have been made in the exploitation of shale gas and deep-sea combustible ice has progressed, the fact that fossil energy reserves have limits has not changed. M. Li renewable energy technologies is still of great significance [1], and photovoltaic power generation is currently one of the most promising renewable power generation technologies [2]. Because photovoltaic energy is available, pollution-free and inexhaustible, it has become the best substitute for industrial and residential power generation [3]. According to the 2020 report of the International Renewable Energy Agency, in the past 8 years, the global PV power generation cost has fallen by more than 70%, and the global installed capacity has reached 578.553 GW [4]
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