Recently, a batch of high-end wind power steel plates from HeSteel Group's WuSteel Company were delivered to a client for use in the construction of the Huaneng Qingyang Wind and Solar Integrated New Energy Demonstration Project, a key component of the Huaneng Longdong Energy Base, China's first 100 million-kilowatt multi-energy complementary integrated energy base. WuSteel is the sole supplier of all high-end wind power steel plates required for the project.

Wugang has thoroughly implemented the strategic deployment of HeSteel, closely aligning with the needs of major national engineering projects, leveraging its technical advantages, deepening market and customer engagement, and continuously increasing efforts in technological innovation and technical marketing. In response to the special demands of high-end customers, it has established a high-efficiency product research and development team that includes sales, R&D, technical, production, and quality personnel. Relying on a rapid linkage mechanism to ensure sales and customer satisfaction, it provides personalized supply service solutions to better meet customer needs.

During the R&D process, we strengthened technical control and quality inspection from the source, arranged technicians to closely monitor the production process, provided on-the-spot guidance for solving difficult problems, continuously enhanced process optimization and flow control, overcame industry challenges such as surface quality fluctuations in steel plates during the rolling process, and ensured the high-quality delivery of products.

The Huaneng Longdong Energy Base plans to construct a comprehensive new energy demonstration project integrating wind and solar power with a capacity of 10,000 megawatts, along with 10,000 megawatts of peak-load power generation units. Relying on the Longdong-Shandong ultra-high voltage transmission line, it will achieve an integrated "wind-solar-storage-transmission" system, contributing to the construction of a new power system with new energy as the mainstay. Upon completion, the base will annually produce approximately 10 billion kilowatt-hours of clean electricity, reducing carbon dioxide emissions by about 10 million tons.