Many powerhouses in Longyan can achieve this. During the flood season, even power plants with an installed capacity of 2,000 kW can achieve this. Our famous Mianmiantan hydropower station in Longyan has an installed capacity of 600,000 kW and can generate 600,000 kW. per hour during periods of flooding. There are also Baisha Hydroelectric Power Station and Wuping Dongliu Hydroelectric Power Station. . . . Many can reach a daily output of 40,000 kW.
Seasonal differences in photovoltaic energy production and hydroelectric production during the year form a complementarity during the year. Faced with electricity shortages, we should actively explore the hydro-wind-solar complementary development model. There are seasonal differences in photovoltaic power production, showing the characteristics of large production in winterand spring and low production in summer and autumn. This forms a natural year-round relationship with the characteristics of hydropower generation during the wet season in summer and the dry season in winter. When there is less water during a hot sun, photovoltaic power generation is used to supplement electrical power. Photovoltaic power plants can be installed during the day using hydroelectric power plants to encourage the consumption of new energy. At the same time, through the complementary production characteristics of hydroelectric and photovoltaic power generation during the year, the utilization rate of the transmission line can be improved and the overall efficiency of power generation can be improved. electricity can be improved. Build a multi-dimensional digital twin platform for hydroelectric, photovoltaic and wind power to achieve reproducibilityon high-precision dynamic and holographic, truly three-dimensional and real of the power plant, thereby facilitating the intelligent management of the entire power plant construction life cycle from planning and design, technical construction to management operation and maintenance, improve efficiency, guarantee construction schedule and ensure safety.