This project lowers the levelized costs of energy by reducing wind turbine downtime due to blade repairs by 90%. Instead of slow, expensive and manual repairs over 4½ days. The scope of the project is to finalize development of a drone with onboard tools, which can automatically repair wind turbine blades in just 4½ hours. Cost-effective and disruptive, the technology offers a faster, better and safer way to handle the wind energy sector's critical need for blade repairs.
PROBLEM
Wind turbine blades suffer from repetitive maintenance issues. Repairs are currently done manually by specialized rope-access workers, which is costly and slow. In addition, there's a lack of manpower, which is projected to grow to a shortage of 150.000 technicians.
SOLUTION
An automated, disruptive and patented solution, which is usable by non-specialized workers and offers a 90% reduction of turbine downtime during blade repairs.
MARKET SIZE
The global wind turbine blade repair TAM is projected at €8B in 2026 and growing to €11B in 2031.
TEAM
The management team has 40+ years of experience across leading edge repair technology, robotics, R&D management, internationalization, business development, software development, entrepreneurship and enterprise systems architecture.
MISSION
This project aims to deliver the future of operational access to wind turbine blades by spearheading technological break-throughs and disruptions of wind energy O&M practices. The R&D team develops trail-blazing technology designed for both OEMs, wind farm developers and service companies looking to lead.