Recently, China Power Construction Corporation Beijing Institute of Surveying, Design and Research (referred to as "PowerChina Beijing Institute") received good news that it has successfully won the bid for a large-scale wind power project with a contract amount of 487 million yuan. This winning bid is not only another important breakthrough for the enterprise in the field of new energy, but also injects new impetus into regional wind power development and green energy structure optimization.

It is reported that the wind power project is located in a wind energy resource rich area in northern China, with a planned total installed capacity of about 100 megawatts and an expected annual power generation of 220 million kilowatt hours. The project construction covers the entire chain of engineering, including the procurement and installation of wind turbines, the laying of supporting collection lines, and the construction of booster stations. The planned construction period is 18 months, and after completion, it will be connected to the local provincial power grid to provide stable green electricity for surrounding industrial parks and residents' lives. From the perspective of technology selection, the project will adopt large-scale wind turbines with a single capacity of 5 megawatts or more, combined with intelligent operation and maintenance systems, which can not only improve wind energy utilization efficiency, but also reduce later operating costs through remote monitoring, fault warning and other functions, in line with the current trend of "large-scale, intelligent and efficient" development in the wind power industry.

As a senior survey, design, and engineering construction enterprise in the domestic hydropower and new energy fields, the winning bid of China Power Construction Beijing Institute is not accidental. In recent years, enterprises have continuously increased their efforts in technology research and development and market expansion in the fields of new energy such as wind power and photovoltaics. They have participated in the construction of large-scale wind power projects in multiple provinces such as Xinjiang, Inner Mongolia, and Yunnan, accumulating rich experience in wind power development in different scenarios such as plateaus, deserts, and coastal areas. Winning the 487 million project this time further confirms its comprehensive strength in wind power engineering design, construction management, cost control, and lays the foundation for the company to further cultivate the northern wind power market.

From the perspective of industry value, the construction of this project has multiple meanings. At the level of energy structure transformation, the project can reduce standard coal consumption by about 73000 tons and carbon dioxide emissions by about 182000 tons throughout its entire lifecycle, making a direct contribution to promoting the achievement of regional "dual carbon" goals; At the economic driving level, the project construction period is expected to create employment opportunities for more than 200 local people, stimulate demand for building materials such as steel and concrete, and create space for the extension of the wind power operation and maintenance, technical services and other industrial chains in the later stage; At the regional development level, the project will further improve the local new energy power transmission network, alleviate the pressure of traditional energy supply, and provide energy security for the green upgrading of regional industries.

At present, China Power Construction Beijing Institute has formed a special project team to initiate preliminary survey, design, and construction preparation work, and plans to enter the on-site construction phase next month. The relevant person in charge of the enterprise stated that they will take this project as an opportunity to continue to leverage their technological and resource advantages, create high-quality wind power engineering projects, and contribute more to the high-quality development of China's new energy industry.Editor/Bian Wenjun