About Us

TALOS Industry Corporation (TALOS) is a global technology company focused on the research, development, and commercialisation of advanced wind turbine and energy storage systems. 

With a strong foundation in vertical-axis wind turbine (VAWT) technology, TALOS is advancing modular, integrated wind turbine (Super Turbine) and energy storage (storage energy turbine) solutions designed for efficient, scalable, and flexible deployment. These next-generation systems aim to reduce the cost and complexity of renewable energy production while improving performance across a range of operating environments. 

As a leading developer, manufacturer, and supplier of innovative wind-energy solutions, TALOS cutting-edge, patented technologies are tailored for global markets, reducing energy costs while maximising performance. 

Our unique stand-out technology is based on active real-time pitch attack angle regulation theory, designed by our engineers in 2005. The first international patent was issued in 2006 for this technology, followed by the issue of a U.S. patent in 2010.

John Yan, the President and CEO of TALOS Industry Corporation and its predecessor, has used his patented technology to design a new and exciting Super Wind Turbine system. His technology enables the Super Wind Turbine to automatically adjust the angle of the blades in real-time to accommodate varying wind speeds, including momentary and substantial wind gusts.

Super Wind Turbines are truly state-of-the-art technology as large wind systems, capable of delivering from 7 to 50 megawatts of peak power. The power generation cost is substantially lower than that of MW-class HAWTs.

In parallel, TALOS is developing energy storage turbine technologies applicable to compressed air and CO2 turbines. When integrated, these technologies can significantly reduce the cost of energy storage as modular and adaptable power generation solutions for industrial and distributed-energy applications. These turbines can be used in parallel connection, depending on the resource capacity. 

Potential use cases include turbine technologies that support a wide range of applications, including renewable energy integration, where they complement wind and solar generation by stabilising output through compressed air or CO₂ energy storage.

They are also well-suited for energy storage facilities, where they can serve as the core turbine technology in large-scale compressed air or CO₂-based storage plants, enabling efficient, dispatchable power delivery.

The most compelling feature of this patented turbine is that it is not a single-point improvement but a paradigm shift in turbine design. By rethinking impeller dynamics, airflow management, and generator coupling, the system overcomes structural inefficiencies that have limited turbine performance for decades. If successfully scaled and commercialised, this could redefine efficiency standards in both storage and generation, while simultaneously delivering a highly competitive cost profile.

This technology can also be used in existing steam/gas engines to significantly improve their efficiency.