Advancing Efficiency and Flexibility in Wind Power Development
The Challenge
The main challenge was to develop innovative and highly customised solutions for the wind energy sector, focusing on new turbine designs.
It was essential to carry out technical feasibility studies, ensure system performance through reliable aeroelastic models, and implement advanced control algorithms.
Our Solution
To address these challenges, we provided a comprehensive solution tailored to the client’s needs. The scope of the project included:
- Feasibility studies for new wind turbine designs.
- Implementation of control algorithms to optimise turbine performance.
- Development and validation of aeroelastic models, ensuring accuracy and reliability.
- Creation of customised codes/scripts to meet technical specifications.
- Software testing and field trials, ensuring optimal system functionality.
These activities were supported by the client’s internal tools, as well as specialised software such as Matlab, Python, HAWC2, FLEX, and Excel.
Our Impact
The project delivered several significant achievements, including:
- Improved technical performance of wind turbines through validated aeroelastic models and optimised algorithms.
- Efficient resource management, enabling on-time and on-budget delivery.
- Cost reductions through the nearshoring model.
- Flexibility and customisation, meeting the client’s specific requirements.
Conclusion
We played a critical role in the success of this project by delivering tailored engineering solutions that optimised wind turbine performance and ensured reliability. Through our expertise, flexibility, and cost-efficient nearshoring model, we not only met the client’s needs but also strengthened their position in the wind energy market.