The world’s largest and highest altitude water-light complementary project – the Yalong River Kela Phase I photovoltaic power station grid-connected generation

On June 25,2023, the Kola Phase I photovoltaic power station in Ganzi Prefecture, Sichuan Province, was connected to the grid to generate electricity, marking the world’s first million-kilowatt “water-light complementary” power station officially put into operation. Kela phase I photovoltaic power station is connected to the Sichuan main network and put into operation to generate electricity on the day of the peak summer, adding “fresh force” for the Sichuan and Chongqing power supply guarantee and providing reliable power guarantee for the Chengdu Universiad, which opens on July 28. Qi Ningchun, secretary of the Party Committee and chairman of Yalong River Hydropower Development Co., LTD., said that as the largest power generation company in Sichuan province, with the commissioning of the Kela Power Station, the installed capacity of clean energy of Yalong River Company will exceed 20 million kilowatts, accounting for one-fifth of the total installed capacity of clean energy in Sichuan Province, contributing nearly 100 billion KWH of clean electricity every year.

 The Yalong River Company is accelerating the construction of a demonstration base for integrated water and landscape along the Yalong River. Construction of the Lianghekou Hybrid storage, the world’s largest hybrid storage “power bank,” has begun. The Yanyuan Zhala Mountain photovoltaic project with an installed capacity of 1.17 million kilowatts has been completed and filed for record. These projects have a demonstration effect on the integrated development of water and landscape storage, and make active exploration for the construction of a new power system with new energy as the main body.

 Intelligent photovoltaic solution Through theintelligent tracking solar mounting bracket profile control algorithm, the tracking bracket and intelligent photovoltaic controller can cooperate with each other to achieve closed-loop collaborative control. The algorithm can be self-learning tracking optimization, and based on the intelligent training and modeling of neural network, it can guide solar bracket to adjust to the optimal Angle, and give full play to the maximum potential of each string component of the power station. The average increase in power generation can reach 1%, especially for rainy weather and the complex terrain of the Kola power station.