Recently, the Shandong Peninsula South U-site Offshore Wind Power Project (hereinafter referred to as the Rushan Project), which uses TMT wind turbine blades, has successfully achieved full capacity grid connection. This project is China's largest single affordable offshore wind power project, and its successful connection to the grid highlights TMT's exceptional strength in offshore wind power technological innovation and project delivery.
The Rushan Project is located in the southern waters of Rushan City, Shandong Province, and utilizes 27 sets of TMT's self-developed 230BA high-power blades. Each blade is 112 meters long with a sweeping area of over 40,000 square meters, suitable for Class I typhoon-resistant standards.
In response to the offshore operating environment, TMT optimized and innovated the blade's aerodynamic design, material selection, and structural details to ensure excellent aerodynamic performance, high reliability, and cost-effectiveness. These blades are paired with 8.5MW semi-direct drive offshore wind turbines, offering excellent power generation performance, corrosion resistance, and anti-salt fog capabilities, making them well-suited for the complex offshore environment.
According to calculations, at rated wind speed, each turbine can generate 18 kWh per rotation, with a single unit producing approximately 26 million kWh of clean energy annually. With the typical energy consumption of an average household, the Rushan Project will generate 700 million kWh of clean energy per year, meeting the electricity needs of about 360,000 households, while reducing coal consumption by 205,000 tons and cutting CO2 emissions by 520,000 tons.
In the future, TMT will continue to implement the green development philosophy through action, increasing investment in wind power research and development, and continuously introducing more efficient and reliable wind turbine blades suitable for different operating environments. This will contribute even greater efforts to achieving the "dual carbon" goals and the global development of clean energy.
