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We're delighted to share that we've host the first in-person BLADE2CIRC consortium meeting at Instituto de Catálisis y Petroleoquímica (CSIC) ! We discussed our latest results, explored future approaches, and enjoyed a tour of downtown Madrid, which concluded with a lovely dinner near the Royal Palace.

Our first face-to-face consortium meeting happened in Madrid last week! 🇪🇸 What a great discussion, lab visits, & city exploration that CSIC & EvoEnzyme organized for the rest of the partners. So excited for what's next! #research #collaboration #science #BLADE2CIRC

Hoy, el Dr. Julio Vidal, ha tenido la oportunidad de presentar en el 2º Encuentro anual sobre materiales y reciclado de palas de aerogeneradores nuestros avances en los proyectos EoLO-HUBs y BLADE2CIRC ¡Qué orgullo!

#BLADE2CIRC is moving into M8! 🚀 Exciting developments ahead, including self-healing coatings with microcapsules. The Instituto Tecnológico de Aragón team is hard at work designing and synthesizing these innovative materials for extended durability. Stay tuned for more updates!

More progress 💫 Researchers at the University Of Limerick’s Bernal Institute led by Professor Maurice N Collins, are working on cutting edge biobased carbon fibre for the next generation of composites materials to be used in #BLADE2CIRC wind turbine blades. Stay tuned for what's to come!

#BLADE2CIRC advances circular wind energy! Aitiip Centro Tecnológico achieves a breakthrough with Covalent Adaptable Networks (CANs), enabling recyclable materials & optimizing coatings for sustainable, durable turbine blades. A major step toward a greener future. 👉blade2circ.eu/news/

Happy New Year! ✨ From #BLADE2CIRC, we're thrilled to share advancements in wind turbine blade innovation with ÉireComposites: They're developing novel materials like bio-based Lignin carbon fiber to improve blade lifetime, circularity, and decommissioning efficiency.

In #Blade2Circ, Centexbel leads the development of bio-sustainable carbon fibers, combining textile innovation with advanced machinery. ¡A step closer to a circular economy!

In 2024 SPECIFIC POLYMERS developed Bio-based DGEVA, a bisphenol-free, bio-based epoxy resin that will be used for structural applications in wind energy. Let’s go towards more sustainable wind turbine blades with #BLADE2CIRC!

Recently, Aitiip Centro Tecnológico represented us at the CINEA 🇪🇺 wind energy workshop in Brussels. We’re proud to be part of such events, as they play a crucial role in sharing knowledge and fostering collaboration between sister projects. #BLADE2CIRC #WindEnergy

A key pillar of our project is ensuring long-term impact. Incotec is leading the development of the Exploitation and Sustainable Business Plan, maximising the exploitation of #BLADE2CIRC results, market opportunities, and IP strategies in the wind energy sector.

We’re advancing in sustainable recycling! Thanks to our partner CSIC, we’re using enzymes to turn wind turbine blade composites into eco-friendly materials. ✅Enzymes breaking down materials ✅Biocatalysts degrading bio-resins ✅AI improving recycling with machine learning

🧪 In #BLADE2CIRC, the Instituto Tecnológico de Aragón team continues designing and synthesizing microcapsules for long-lasting, bio-based self-healing coatings. We're combining experimentation and micro-mechanical modeling. A great example of how #IAM can drive #sustainability!

🚀 Proud to keep moving forward! In partnership with University Of Limerick, we’re advancing bio-based carbon fibre tech for next-gen wind turbine blades. This innovation enhances recyclability and efficiency, embedding circularity at the core of wind energy. #BLADE2CIRC #EUProjects #WindEnergy

Proud to advance circular innovation with EvoEnzyme, presenting the latest #Blade2Circ progress at #BIOTRANS2025. Their enzymatic tech is redefining composite recycling — paving the way for truly sustainable wind energy. 🔬 Read more ow.ly/buSS50VSh5C

At #BLADE2CIRC, we develop bio-based materials for wind turbine blades, supporting a circular, low-carbon future. With #MOSES, we’re scaling up production to ensure these materials meet quality standards and can be adopted across the sector. #WindEnergy

As part of #BLADE2CIRC, #EireComposites is testing bio-based materials for wind blades—proving they work beyond the lab and planning for full-scale use. Turning prototypes into real circular solutions. #WindEnergy #Sustainability #Innovation

Together with #Centexbel, we’re advancing lignin-based fibres as a sustainable alternative to carbon fibre in wind turbine blades. Early textile prototypes mark a key step towards circular, bio-based materials. #BLADE2CIRC #WindEnergy

Big step in #BLADE2CIRC! 🎉 SPECIFIC POLYMERS just formulated a bisphenol-free, bio-based epoxy resin 🌱🧪 Powered by our own bio-based DGEVA 💡 ✅ Infusion-process ready ✅ Tailored for wind blade structural parts ⚙️🌬️ Next up: vitrimer tech to boost recyclability ♻️

🌀 On May 15, KTH Royal Institute of Technology held the 1st #BLADE2CIRC stakeholder workshop! We explored project innovations, their links, and how they drive #CircularEconomy strategies for wind turbine blades. 💡 Stay tuned for more workshops to come!