Affected by the accelerated recovery of the current economy and the continuous high temperature,

the electricity load in many parts of the country has reached a record high, which also means that this year's electricity peak summer has begun

. So what is the domestic electricity supply and demand situation this year?

  At 2:05 p.m. on June 25th, the temperature in Tianjin had risen to 39°C, and the city's electricity load reached 15.7 million kilowatts, a record high this year, of which the cooling load increased by nearly 20%. ”, including nearly 510 large power users into the resource pool that can adjust the load at any time. When the power supply and demand is tight, organize these users to participate in power saving, and the saved power demand is equivalent to increasing the power generation capacity and giving certain economic subsidies. , to ease the tension of electricity.

  Affected by the high temperature, since June, the electricity load of 4 provincial-level power grids in Henan, Hebei, Gansu, Ningxia, and the Northwest Power Grid has hit a record high in the operating area of ​​the State Grid Corporation of China.

  Li Yan, deputy director of the State Grid Henan Electric Power Control Center: Since mid-June, high temperature weather has occurred in Henan for several consecutive days, and the load of the entire network has reached a record high three times in a row. Among them, the cooling load during peak hours accounts for more than 40%. continuing to increase.

  According to statistics from the China Electricity Council, the year-on-year growth rate of electricity consumption has turned from negative to positive since June. With the arrival of hot summer weather, the growth rate will further pick up.

  Wang Yixuan, director of the Statistics and Data Center of the China Electricity Council: It is expected that during the peak summer season this year, the national electricity supply and demand will be balanced. Tight situation, but will not repeat last year's nationwide power supply shortage phenomenon.