Wind turbine leading edge protection has been one of the most talked about topics when it comes to wind turbine maintenance. The leading edge is responsible for the blade’s aerodynamic efficiency and power output. For this reason, the leading edge protection (LEP) gets the most attention nowadays.

In one of our previous posts “Maintaining Renewable Energy”, we touch upon the maintenance issues encountered in the wind power turbine as a whole, and the solutions Belzona offers for the repair and protection of each part of the turbine. In this post, our focus is the leading edge protection.

What is a leading edge?

The leading edge of a blade is the foremost edge of the airfoil or the part of the blade that first contacts air.

Leading Edge Wear and Tear

Cause of the leading edge damage can vary based on the terrain a wind farm is located in. Typically, leading edge defects can be caused by wet (rain, sleet, hail, snow) and/or dry (dust, abrasive air, bugs) atmospheric and environmental particulates. Lightning strikes and surface icing are two other atmospheric phenomena that might cause tear and, in some extreme cases, even rupture in the blade.  The life expectancy of an unprotected leading edge at the manufacturer’s facility can be significantly decreased. According to www.windsystemsmag.com, eroded leading edges will reduce the aerodynamic efficiency of the blades, and many sites have measured decreased power production by as much as 12%.

Leading Edge Protection

In recent years, more blade manufacturers have started offering various type of LEP including tapes and protective coatings. However, that is not the global trend.  Many wind farms currently in operation face the challenge of protecting the damaged blades and keeping the turbines running and producing energy.

Belzona’s wind-specific solutions can repair and protect the leading edge of turbine blades using Belzona 5711 and Belzona 5721. Eroded blades must first be rebuilt to the original profile, before being overcoated with a protective coating.

For this repair, we use Belzona 5711, Belzona 5721, Belzona 9111 (Cleaner/Degreaser), and a few tools from our machine shop. The first step is preparing the surface. Using a handheld sander, remove the existing coating and apply Belzona 9111 (Cleaner/Degreaser) to remove all loose particles and achieve optimal adhesion. After equalising the filling levels, a specialised mixing nozzle is then attached to a Belzona-issued cartridge containing Belzona 5711. The mixed product is applied onto the repair area using an electric cartridge gun. A flexible plastic former should then be used to smooth out the surface, sculpting the product to the blade’s original geometry.

After 30 minutes at 20°C (68°F), the repair can be overcoated with Belzona 5721 for long-lasting LEP. Belzona 5721 is mixed thoroughly for a minimum of two minutes until a uniform material is achieved, before decanting the mixed product into a cartridge for extended working life and ease of application. After ensuring that the product is flowing freely, beads are applied onto the leading edge of the blade before being smoothed with a flexible closed cell former. The product is then allowed to cure before the blade is returned to service; this typically takes five hours at 20°C (68°F).