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New coalition, headed up by Vestas, to commercialise solution for full recyclability of wind turbine blades

© Supplied by SSE Renewablesvestas wind turbines

A coalition of industry and academic leaders have developed a new technology to enable circularity for thermoset composites, the material used to make wind turbine blades.

The new technology delivers the final technological step on the journey towards a fully recyclable wind turbine value chain.

To enable the adoption of this new technology, and to advance a circular economy across the wind industry, a new initiative entitled CETEC (Circular Economy for Thermosets Epoxy Composites) has been established.

Within three years, CETEC is aiming to present a fully scoped solution ready for industrial adoption, based on commercialisation of the novel circularity technology.

Partly funded by Innovation Fund Denmark (IFD), CETEC is spearheaded by Vestas and involves both industrial and academic leaders including Olin, the world leading producer of Epoxy, the Danish Technological Institute (DTI) and Aarhus University.

Developed by DreamWind, an innovation initiative driven by the same partners, the new technology consists of a two-step process.

Firstly, thermoset composites are disassembled into fibre and epoxy. Secondly, through a novel chemcycling process, the epoxy is further broken up into base components similar to virgin materials.

These materials can then be reintroduced into the manufacturing of new turbine blades, constituting a new circularity pathway for epoxy resin.

Wind turbines are 85%-90% recyclable, with turbine blade material constituting the remaining percentage that cannot be recycled, due to the nature of thermoset composites.

CETEC is aiming to close this recycling gap and enable a significant step forward in the elimination of waste across the wind energy industry.

Allan Korsgaard Poulsen, head of sustainability and advanced materials at Vestas Innovation and Concepts, said: “As global commitments to a net-zero future increase, it’s absolutely crucial to ensure the wind industry can scale sustainably, which includes Vestas fulfilling our ambition to produce zero-waste turbines by 2040.

“Leveraging this new technological breakthrough in chemcycling epoxy resin, the CETEC project will be a significant milestone in Vestas’ journey towards achieving this goal, and in enabling a future where landfill is no longer required in blade decommissioning.”

Simon Frølich, team manager, PhD, Danish Technological Institute, said: “The key characteristic of composite materials is their unique combination of low weight and high strength. This is governed by the strong bonding of two different materials – fibre and epoxy.

“The dilemma is that this strong bond is also the feature that renders these materials difficult to recycle. Therefore, the development of CETEC’s novel technology, enabling disassembly of the composite at end-of-life, is a gamechanger, that will allow us to capture the value represented by each material stream in a new circular value chain.”

Troels Skrydstrup, Aarhus University, said: “Chemcycling of epoxy-based materials would allow deconstructing these highly stable polymer chains into molecular building blocks.

“These building blocks are easily processable and can be utilised to produce new epoxy, which will have the same quality as the original material. Avoiding the loss of valuable molecular complexity in such a way is a highly desirable concept and an important step to sustainable materials.”

Leif Ole Meyer, TS&D leader EMEAI at Olin: “As the leading Epoxy producer and global supplier for the wind industry, Olin is proud to provide our technological expertise to this important sustainability project.

“To develop technologies which close an existing gap of thermosets by creating a circularity is yet another example of putting our Resource Efficiency sustainability goal into action. This innovation will help the industry to minimize consumption of virgin material sources and increase the reuse and recycling of materials.”

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