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Freeze–thaw recycling for fiber–resin separation in retired wind blades

Khalil Ahmed, Xu Jiang, Ghazala Ashraf, Qiang Xu

2025Communications Engineering6 citationsDOIOpen Access PDF

Abstract

The disposal of decommissioned wind turbine blades represents a growing economic loss and environmental concern due to the non-recovery of durable glass fiber-reinforced epoxy composites. Existing thermal and chemical recycling methods often require high temperatures and toxic chemicals, causing material degradation. Here, we present a novel freeze-thaw-based method for fiber-resin separation as an alternative. The process uses only water at human-safe temperatures, leveraging ice-induced expansion to disrupt the glass fiber-epoxy interface. Microscopic imaging and weight analysis revealed visible interface separation, with three-dimensional imaging showing a ~ 65% increase in crack volume and a ~ 32% rise in connected porosity after freeze-thaw treatment. Glass fibers retained up to 96% of their original mechanical properties, demonstrating minimal structural damage. Microplastics were easily removed through filtration, and the effluent water remained near-neutral with low organic carbon levels, meeting global water safety standards. These findings highlight freeze-thaw cycling as a sustainable route for efficient fiber-resin separation with minimal environmental impact.

Topics & Concepts

FiberMaterials scienceComposite materialSeparation (statistics)Computer scienceMachine learningFiber-reinforced polymer compositesSurface Modification and SuperhydrophobicityIcing and De-icing Technologies