DashWin – Automated on-site inspection of wind turbine blades

The inspection system will provide a rapid, non-contact means of reliably inspecting a composite WTB for surface and sub-surface defects. The robotic platform will enable systematic, in-situ inspection of WTBs and avoid hazardous working at height for the inspection engineer.Wind turbines currently provide a significant proportion of our energy needs, and our reliance upon them is likely to grow further in the coming years. If we are to continue to benefit from this environmentally friendly energy source, it is vitally important that WTBs are appropriately maintained. Current maintenance usually involves an inspector descending a WTB on a rope, performing a visual examination. Clearly this practice could be improved upon, as it is hazardous and may provide inaccurate or, inconsistent results. Furthermore, it is incapable of detecting subsurface flaws, which is a common problem with WTBs manufactured using composite materials.

DashWin will potentially help wind turbine operators to improve the accuracy and repeatability of blade inspection, reduce the risk of blade failure by providing enhanced safety assurance, and increase revenue by improving the availability of wind turbines.

To learn more about DashWin, visit the project website at www.dashwin.eu or email contactus@twi.co.uk.

The DashWin project has been managed and co-ordinated by TWI Ltd (UK). The research leading to these results has received funding from the European Union's Seventh Framework Programme managed by REA Research Executive Agency (FP7-SME-2011) under grant agreement No 283533.