19 Sep 2022

Hempel, the coatings supplier to the wind energy industry, announced the launch of Hempablade Edge 171, a new coating for renowned edge protection (LEP) on wind turbine rotor blades. 

With the highest rain erosion performance data on the market for a liquid LEP and some of the lowest dry film thicknesses, Hempablade Edge 171 provides long-term protection against rain erosion and reduces time and costs during application.

wind turbine blade

The leading edge of a wind turbine blade is exposed to extremely high airflow speeds, even exceeding 300 km. At these speeds, impact from rain can cause significant coating erosion or even composite damage. In severe cases, the erosion may lead to a loss of aerodynamic performance and a 2-3% drop in Annual Energy Production.

This loss of performance and need for maintenance makes leading-edge erosion one of the wind industry’s most significant maintenance costs and performance challenges. In the European offshore wind energy sector alone, this equates to a loss in productivity of around EUROs 56-75 million a year.

Hempablade Edge 171

It provides exceptional protection against rain erosion and composite damage"

Hempablade Edge 171 helps wind turbine operators and applicators overcome these issues, by protecting the leading edge from rain erosion, as Lars Rindom Jensen, Head of Solutions for Wind Blades, explains, “Hempablade Edge 171 is one of the simplest LEP solutions on the market to apply, yet able to withstand the toughest environmental conditions."

"It provides exceptional protection against rain erosion and composite damage. This extends the interval between maintenance and repairs, giving operators more uptime and lower maintenance costs.

lowest dry film thickness

Importantly for service providers, Hempablade Edge 171 requires some of the lowest dry film thickness on the market just 150 microns and only needs one or two coats to ensure high protection.

This increases application speeds, allowing customers to maintain more blades with the resources available.

wide application window

Hempablade Edge 171 has been developed as we listened to the industry challenges and requirements,” says Lars. “Its low thickness reduces LEP consumption, application time, and drying time, so applicators can work faster, whether they are onsite or in the blade production."

"It also has a wide application window from 5-35°C which means applicators can extend the maintenance season and working day. The result is higher productivity and less blade downtime during maintenance.”

LEP offering

With the addition of the coating to its portfolio, Hempel can provide a full range of coatings

Hempablade Edge 171 is Hempel’s first LEP coating, developed using the company’s in-house Rain Erosion Test (RET) facility. Since 2019, Hempel has used this facility to optimize the product development and LEP validation process – resulting in a best-in-class liquid LEP offering outstanding rain erosion protection.

With the addition of the coating to its portfolio, Hempel can provide a full range of coatings to customers for every part of a wind turbine, from the foundation to the blade tip.

Coatings supplier

Hempel is recognized as the industry’s leading coatings supplier,” Lars explains. “We fully understand the challenges manufacturers, operators, and maintenance companies face and are the only coatings company with an in-house RET facility."

"During development and validation, we put Hempablade Edge 171 through more than 400 exhaustive tests to ensure it delivers extremely valuable performance and application benefits. We are very proud to offer it to our customers.

Hempablade Edge 171 at a glance

  • A fast-cure, solvent-free liquid LEP (Leading Edge Protection) coating for wind turbine rotor blades.
  • Exceptional rain erosion protection performance.
  • Has undergone over 400 Rain Erosion Test (RET) sessions.
  • Very fast and simple manual application.
  • Strong UV resistance.
  • A wide application window (5-35°C) allows for optimized use during blade maintenance situations.
  • Highly flexible providing high raindrop energy absorption.
  • Only 1 or 2 coats are required for full leading-edge protection.
  • Extremely low coating thickness (150-300µm) for LEP consumption.
  • DNV-GL RP-0171 complaint.