大容量背后有新科技。"机组关键部件100%国产化，采用自主研发的翼型叶片，捕风效率达到全球领先 水平;在整机轻量化设计上取得突破，单位兆瓦重量较行业平均水平降低20%以上，降低了吊装施工难 度与基础建造成本。"金风科技海上业务单元总经理于晨光说。 习近平总书记强调："我国风电、光伏等资源丰富，发展新能源潜力巨大""要狠抓绿色低碳技术攻关"。 随着国产化技术不断突破、经济性持续提升，我国海上风电累计装机已占全球海上风电总装机的一半以 上。截至2025年底，我国风电累计装机容量达6.4亿千瓦，同比增长22.9%，连续10余年稳居全球第一。 "中国风"攀上更高峰，有量的突破，更有质的提升。2025年，我国风电产业向新向优发展，更多地区的 风能资源得到高效开发。 持续加强技术研发，产业链上下游更加成熟—— 从一只叶片看提质升级。2025年9月，中材叶片阳江公司生产的122米叶片，经受住了超强台风"桦加 沙"的考验。 随着长度147米的叶片缓缓升起，与50多层楼高的轮毂精准对接，20兆瓦海上风机1月13日在福建海域成 功吊装，刷新全球实际海洋环境中已吊装机组单机容量最大纪录。 定制生产拓展市场空间，应用场景更加多元—— ...

随着长度147米的叶片缓缓升起，与50多层楼高的轮毂精准对接，20兆瓦海上风机1月13日在福建海域成 功吊装，刷新全球实际海洋环境中已吊装机组单机容量最大纪录。 大容量背后有新科技。"机组关键部件100%国产化，采用自主研发的翼型叶片，捕风效率达到全球领先 水平；在整机轻量化设计上取得突破，单位兆瓦重量较行业平均水平降低20%以上，降低了吊装施工难 度与基础建造成本。"金风科技海上业务单元总经理于晨光说。 习近平总书记强调："我国风电、光伏等资源丰富，发展新能源潜力巨大""要狠抓绿色低碳技术攻关"。 随着国产化技术不断突破、经济性持续提升，我国海上风电累计装机已占全球海上风电总装机的一半以 上。截至2025年底，我国风电累计装机容量达6.4亿千瓦，同比增长22.9%，连续10余年稳居全球第一。 "中国风"攀上更高峰，有量的突破，更有质的提升。2025年，我国风电产业向新向优发展，更多地区的 风能资源得到高效开发。 持续加强技术研发，产业链上下游更加成熟—— 从一只叶片看提质升级。2025年9月，中材叶片阳江公司生产的122米叶片，经受住了超强台风"桦加 沙"的考验。 "这几年我们持续攻关碳纤维叶片技术，相较于 ...

Core Insights - The largest onshore wind power project in China, located in Inner Mongolia, has officially commenced commercial operation, utilizing 150 units of 10 MW wind turbines [1][2] - The project employs advanced carbon fiber blades, enhancing safety and performance, with significant improvements in load-bearing capacity and operational safety [1][2] Group 1: Project Overview - The Inner Mongolia Energy Urat Front Banner 1.5 million kW wind-storage base project is the first large-scale project in China to use 10 MW wind turbines [1] - The project consists of 150 wind turbines, with 110 units supplied by SANY Heavy Energy, featuring full carbon fiber blades [1] Group 2: Technological Innovations - The wind turbines are equipped with larger root diameters of 3.6 meters, improving load-bearing capacity by over 26% [1] - The distance between the blade tips and the tower has increased by over 12%, significantly enhancing blade safety [1] - The main bearing of the wind turbines is 1.7 meters, with improvements in width and thickness, resulting in a 20% increase in load-bearing capacity [1] Group 3: Environmental Impact - Once fully operational, the project is expected to generate 5.44 billion kWh of electricity annually, reducing standard coal consumption by approximately 1.64 million tons and cutting carbon dioxide emissions by about 4.98 million tons each year [2] Group 4: Material and Production Insights - Carbon fiber, known as the "king of new materials," is characterized by high strength, corrosion resistance, and excellent mechanical properties, primarily used in wind turbine blade main beams [1] - By the end of 2024, China's annual carbon fiber production capacity is projected to reach 135,500 tons, with wind turbine blades accounting for approximately 38% of this demand [1] Group 5: Design Enhancements - The wind turbine design includes two additional "ears" on either side of the main unit, utilizing a box transformer side-mounted technology for optimized load-bearing [2] - The use of superior strength dual bearings contributes to more stable and reliable operation, while reducing the overall weight of the turbine by over 5% [2]