The project, located in challenging areas such as the northwest Gobi Desert, Loess Plateau, and Inner Mongolian grasslands, places high demands on construction and scheduling. Upon completion, it will strongly support the development of national wind power, energy structure optimization, energy security, regional economic growth, and the achievement of the "dual carbon" goals.

OVM has developed a tailored solution featuring superior unbonded strands and wind power-specific post-tensioning systems to enable wind turbine towers to withstand harsh conditions like high salinity, humidity, strong winds, and extreme temperature differences. By leveraging digital technology, high-precision tensioning equipment, and self-developed wind power-specific lifting equipment, OVM mechanizes steel strand installation, potentially reducing the prestressing construction timeline by approximately 20%.

Since 2011, OVM has been exploring wind power prestressing technology through industry-academia collaboration. In July 2017, it successfully installed the external post-tensioning system for MULANUR Wind Farm in India, meeting EU and GWO (Global wind organization) standards. Notably, OVM designed, manufactured, and installed the main and auxiliary mooring lines for the world's largest floating offshore wind power platform, the "OceanX," a key national energy technology innovation project.

OVM's post-tensioning products are recognized in the wind power industry for their durability, intelligence, and reliability. Its customized solutions, supported by professional R&D, design, and testing, can adapt to various geological and climatic conditions, ensuring wind turbine tower safety. OVM's team can provide customized solutions for complex projects and professional, mature construction technical services. In the future, OVM will continue to create benchmark projects and contribute to the development of the global wind power industry

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