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Mild chemical recycling of waste wind turbine blade for direct reuse in production of thermoplastic composites with enhanced performance

Cheng Hao, Baoming Zhao, Xiaolong Guo, Shuai Zhang, Mingen Fei, Lin Shao, Wangcheng Liu, Yiding Cao, Tuan Liu, Jinwen Zhang, Tuan Liu, Jinwen Zhang

2025Resources Conservation and Recycling32 citationsDOIOpen Access PDF

Abstract

The increasing use of glass fiber-reinforced plastics (GFRP) in wind turbine (WT) blades poses significant recycling challenges. This study presents a mild chemical recycling method for WT GFRP waste, where the recyclates were repurposed to enhance the mechanical performance of thermoplastics . Specifically, WT GFRP waste was decomposed in aqueous solutions at temperatures ≤ 250 °C, achieving a degradation degree of up to 83.5%. The recycled GFRP (rGFRP), containing reclaimed glass fiber and decomposed matrix polymer , was directly compounded with commercial thermoplastics to produce fiber-reinforced composites. These rGFRP-reinforced thermoplastics exhibited superior mechanical properties, with tensile strength and modulus increasing from 40.4 MPa and 1.5 GPa for neat PA6 to 131.3 MPa and 15.5 GPa for composites containing 70 wt% rGFRP . This work offers a straightforward, environmentally friendly approach to recycling WT GFRP waste, providing a promising pathway for the high-value utilization of waste polymer composites .

Topics & Concepts

ReuseBlade (archaeology)Thermoplastic compositesTurbine bladeThermoplasticWaste managementProduction (economics)Environmental scienceTurbineMaterials scienceComposite materialEngineeringMechanical engineeringMacroeconomicsEconomicsFiber-reinforced polymer compositesRecycling and Waste Management TechniquesGraphite, nuclear technology, radiation studies
Mild chemical recycling of waste wind turbine blade for direct reuse in production of thermoplastic composites with enhanced performance | Litcius