Without effective recycling solutions, wind turbines risk becoming landfill waste, undermining sustainability efforts.

The robot autonomously installs sensors deep within wind turbine blades. For efficient, accurate measurements and reduced ...

TNO, in partnership with TU Delft and Robohouse, has developed a prototype robot that installs sensors deep inside wind turbine blades, helping to improve predictive maintenance and reduce downtime.

Researchers developed a process to recycle glass fiber-reinforced polymer (GFRP), a common material in wind turbine blades.

We4Ce, a Dutch rotor blade designer, has designed 10 rotor blade sets for Dutch wind turbine startup TouchWind for testing on ...

Tiltable, liftable one-piece composite rotor design aims to withstand storm-force winds, boost energy yield and enable more ...

Wind giants have had support from vessel owners including Cadeler and developers RWE, Equinor and Vattenfall on industry ...

A team of researchers at Washington State University has found a cleaner, simpler way to recycle wind turbine blades and turn ...

Hundreds of wind turbines are already operating in Estonia and the oldest has been running for several decades. But what ...

A new method to recycle wind turbine blades without using harsh chemicals resulted in the recovery of high-strength glass fibers and resins that allowed researchers to re-purpose the materials to ...

This week, uncover the fossils of the future, see which ancient creature had gigantic claws, investigate large molecules on ...

Left: wind turbine blade waste; Middle: treated and dried wind turbine blade glass-fiber reinforced polymer (GFRP); Right: injection-molded plastic containing 70% recycled GFRP (photo by WSU).