Abstract:Based on multi-time scale power data from grid-connected photovoltaic power station and meteorological data over the same period,the impact of typical meteorological factors on the photovoltaic power generation under different seasons and their multi-variable coupling relationship are analyzed. Adopting daily-scale,daily photovoltaic power generation during the whole year has the most significant correlation with daily global solar irradiation,followed by sunshine duration,diurnal temperature range,relative humidity (with negative correlation),daily maximum temperature,daily average temperature. In different seasons,the influence of high temperature and high humidity in summer,and diurnal temperature range (indicating weather types) in other seasons are considered. Adopting hour-scale,diurnal change of photovoltaic power generation remains almost the same as the global solar irradiation.