Short answer
No. Wind turbines can generate small amounts of particles when the surface layers of the rotor blades are worn down by weather, wind and precipitation. However, the amounts estimated in research and public authority material are small compared with major sources of microplastics such as tyre wear, textiles and plastic packaging.
Why is this discussed?
Common misconceptions
"Wind turbines are one of the largest sources of microplastics."
The available measurements and scientific studies indicate that wind turbines are not a significant source of microplastic emissions.
"Rotor blade wear means that large amounts of plastic are released into nature."
Wear can occur, especially on the leading edge of the blades, but available estimates point to small amounts compared with larger sources of microplastics.
What do the facts say?
Microplastics can be generated through wear
The surface layers of rotor blades can wear down, especially along the leading edge. This can generate small particles from paint and protective coatings.
Measured and modelled amounts are small
Studies indicate that the amounts of microplastics from blade wear are normally around 100–200 grams per turbine per year.
Other sources dominate
The Swedish Environmental Protection Agency describes road and tyre wear, plastic litter, synthetic textiles and certain plastic products as major sources of microplastics.
What affects the assessment?
- Location and climate: Offshore wind turbines and turbines in locations with heavy rain, ice, salt and harsh weather may experience more wear.
- Materials and coatings:The blade protection systems and choice of materials affect how quickly the surface layers erode.
- Maintenance:Regular inspections, repair of erosion damage and improved protective layers can reduce particle formation.
- Handling during repairs: Sanding dust and waste from repairs should be collected and handled to prevent local dispersion of material.
- Comparison: The assessment should be made in relation to other sources of microplastics, not in isolation.