Ganquanbao hybrid energy storage project adopts the multi-technical route of lithium iron phosphate sodium ion all vanadium liquid flow and connects to 220kV power grid. The reporter learned at the project site that the first phase of the project (200MW/800MWh) has been fully connected to the grid on May 21, 2025, and the cumulative consumption of new energy power exceeds 800000 kWh. At present, the second phase (200MW/800MWh) main body installation, booster station, delivery line and other projects have been completed, and the joint commissioning and joint test have been completed, and the grid connection acceptance sprint stage is in progress.
Guo Yunpeng
the internal debugging of our equipment has been completed, and the current job is to do network-related experiments with the Academy of Electric Sciences. As long as the network-related experiments are completed, we can follow the business-to-business process with the power grid. After the business-to-business process is completed, our second phase is equivalent to officially entering the power market just like the first phase. If the second phase can be completed in April, the consumption capacity of our whole station can reach 400MW/1600MWh, equivalent to 1.6 million kilowatt-hours of electricity.
after the project is put into operation as a whole, the annual discharge will reach 0.16 billion kwh, which can meet the annual electricity consumption of 170000 households and reduce the annual carbon dioxide emission by about 120000 tons, it will greatly enhance the level of new energy consumption and power grid security and stability in Xinjiang.
Guo yunpeng, head of ganquanbao project in the engineering management department of Shanghai ronghe yuanchu energy co., ltd.
we can release all the 1.6 million kilowatt-hours. if so much electricity can be released in four hours, it is conceivable that no matter for the park or for the whole midong district, or for some civilian facilities and industrial facilities around Urumqi, the services that can be provided are still great. And in terms of electricity absorption capacity, for example, if the electricity generated by photovoltaic or wind farms around Urumqi cannot be completely absorbed by living facilities and industrial facilities at one time, we can absorb the remaining electricity into this station, which can reduce some energy waste.
