Abstract

In order to ensure that the large-scale application of photovoltaic power generation does not affect the stability of the grid, accurate photovoltaic (PV) power generation forecast is essential. A short-term PV power generation forecast method using the combination of K-means++, grey relational analysis (GRA) and support vector regression (SVR) based on feature selection (Hybrid Kmeans-GRA-SVR, HKGSVR) was proposed. The historical power data were clustered through the multi-index K-means++ algorithm and divided into ideal and non-ideal weather. The GRA algorithm was used to match the similar day and the nearest neighbor similar day of the prediction day. And selected appropriate input features for different weather types to train the SVR model. Under ideal weather, the average values of MAE, RMSE and R2 were 0.8101, 0.9608 kW and 99.66%, respectively. And this method reduced the average training time by 77.27% compared with the standard SVR model. Under non-ideal weather conditions, the average values of MAE, RMSE and R2 were 1.8337, 2.1379 kW and 98.47%, respectively. And this method reduced the average training time of the standard SVR model by 98.07%. The experimental results show that the prediction accuracy of the proposed model is significantly improved compared to the other five models, which verify the effectiveness of the method.

Highlights

  • The average values of MAE, root mean square error (RMSE) and R2 were 0.8101, 0.9608 kW and 99.66%, respectively. This method reduced the average training time by 77.27% compared with the standard support vector regression (SVR) model

  • A hybrid day-ahead photovoltaic power generation prediction model based on K-means++, grey relational analysis (GRA) and SVR is proposed

  • The historical power data are clustered by multi-index K-means++, and divided into ideal weather clusters and non-ideal weather clusters according to the average power of each cluster

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Summary

Introduction

A study shows that the earth receives about 1.8 × 1011 MW of power per second from solar radiation [2]. Photovoltaic power generation is one of the most promising solar power technologies [3]. Photovoltaic energy has the advantages of cleanliness, wide distribution and abundant reserves, and has become the best substitute for industrial and residential power generation [4]. According to the 2020 report of the International Renewable Energy Agency, in the past 8 years, the global photovoltaic power generation cost has dropped by more than 70%, and the global installed capacity has reached 578.553 GW [5]

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