Recently, the construction site of the 500 MW wind power project in Tianrun, Tuoli County, Tacheng Prefecture has seen a series of positive developments: the last blade of the first wind turbine was precisely aligned with the nacelle at a height of 100 meters and securely attached, marking the complete installation of the entire tower structure, nacelle, and rotor, and the successful hoisting of the first turbine unit. This represents a pivotal breakthrough in the installation of key project equipment, laying a solid foundation for the project's early grid connection and power generation.

As a key regional new energy infrastructure project, it features a scientifically planned layout, advanced technological configuration, and outstanding power generation efficiency. The site is equipped with 50 10 MW wind turbines. To fully leverage local wind resource potential and enhance power utilization efficiency, the project team tailored the equipment configuration to account for variations in site topography, wind speed and direction, and geological conditions. Goldwind Technology was engaged to design two specialized turbine models specifically suited to different wind resource zones within the site, enabling efficient utilization of wind resources across the entire area.

Since the project officially commenced construction, the entire team has overcome numerous challenges including severe natural conditions in Tori County—such as frequent spring winds, persistent sandstorms, significant day-night temperature fluctuations, and limited construction windows—as well as logistical difficulties like transporting heavy equipment to remote sites, coordinating complex construction sequences, and managing site coordination tasks. The project team strategically optimized construction schedules, refined organizational plans, established specialized frontline teams, and implemented a two-shift rotation system with round-the-clock efforts to maximize the limited prime construction window. They efficiently advanced critical preliminary tasks including steel reinforcement installation for turbine foundations, concrete pouring, road leveling and maintenance, transportation and lifting of heavy equipment, and standardized site development. Addressing key bottlenecks such as wind-sand interference, equipment delivery coordination, and high-altitude lifting risks, the team proactively identified potential hazards, developed tailored construction plans, and established comprehensive emergency response protocols. Through detailed task allocation, clear accountability, and continuous on-site supervision, they systematically resolved technical challenges while maintaining strict control over every construction phase, ensuring simultaneous compliance with safety standards, quality requirements, and schedule targets.

The successful installation of the first complete wind turbine represents a significant milestone in the project's progress. It not only marks the official entry into a new phase of large-scale, standardized unit installation but also provides mature, standardized operational experience for the subsequent batch installations and standardized construction of remaining units, establishing replicable and scalable standardized workflows that significantly enhance construction efficiency and quality control standards throughout the project.