A few days ago, it was learned from the State Grid Qinghai Electric Science Institute that the "Key technologies and applications of multi-energy complementary optimization and operation of high-proportion new energy power system" led by the State Grid Qinghai Electric Power System passed the evaluation of the results of the Chinese Society of Electrical Engineering, and the research results were
From CHINANEWS
A few days ago, it was learned from the State Grid Qinghai Electric Science Institute that the "Key technologies and applications of multi-energy complementary optimization and operation of high-proportion new energy power system" led by the State Grid Qinghai Electric Power System passed the evaluation of the results of the Chinese Society of Electrical Engineering, and the research results were rated as "international leading". It marks a major breakthrough in the key technology fields of multi-energy complementary optimization configuration and operation of China's high-proportion new energy power system.
In recent years, with the large-scale centralized grid-connection of wind and photovoltaic power generation, the proportion of new energy in Qinghai's power system has continued to increase. However, the high uncertainty of new energy, the complex multi-energy complementary coupling, the variable operating state of the power grid and the variety of power performance control technologies have brought pressure and challenges to power generation control and grid dispatching control.