Cross-Sector Industry Platform Outlines Best Strategies for Turbine Blades Recycling By Saur News Bureau/ Updated On Thu, May 28th, 2020 WindEurope, Cefic and the European Composites Industry Association have presented their recommendations for recycling of wind turbine blades in a new report WindEurope, the European Chemical Industry Council (Cefic) and the European Composites Industry Association (EuCIA) have presented their recommendations for the recycling of wind turbine blades in their new report ‘Accelerating Wind Turbine Blade Circularity’. Today around 85 to 90 percent of wind turbines’ total mass can be recycled. But turbine blades represent a specific challenge. Made from complex composite materials to allow for lighter and more durable blades, they require specific processes for recycling. “Investing in renewable energy production and circular solutions should be one of the key drivers of the post-COVID-19 economic recovery,” Cefic Director General, Marco Mensink explains. “I am very proud of the partnership we have built with the wind energy supply chain to come up with an effective solution to recycling wind blades. This shows that cross-industry and value chain alliances are a very powerful tool for speeding up innovation and scaling up cutting edge technologies”. Blade Recycling now a top Priority for the Wind Industry Also Read The report’s key conclusions are: There are various existing technologies to recycle wind turbine blades, but these solutions are not yet all available at industrial scale and economically competitive. Today, the main technology for recycling composite waste is through cement co-processing. WindEurope, Cefic and EuCIA strongly support increasing and improving composite waste recycling through the development of alternative recycling technologies. This requires increased research and innovation funding. At the same time, existing treatment routes such as cement co-processing must be deployed more widely to deal with the growing waste streams. The best strategy for wind turbine blades is one that combines design, testing, maintenance, upgrades, and the appropriate recycling technology to ensure the maximum value of the material is retrieved throughout its lifetime. This requires a better understanding of the environmental impacts associated with the choice of materials during design and with the different waste treatment methods at end-of-life. Finally, composite recycling is a cross-sector challenge. Active engagement from all the composite-using sectors and authorities is required to develop cost-effective solutions and strong European value chains. “We are committed to supporting the composites industry in finding reliable recycling technologies”, adds Roberto Frassine, President of EuCIA. “Our collaboration with WindEurope and Cefic is a great example of how we can make progress towards establishing solutions that are both sustainable and economically viable. EuCIA has been working hard to better estimate the amount of End-of-life waste of composites in Europe. Through WindEurope we were able to validate our findings for wind markets, which will be the basis for further strategic programs and actions to promote composites recycling.” WindEurope CEO, Giles Dickson said the first generation of wind turbines are now starting to come to the end of their operational life. Many of them will be replaced by modern, more efficient turbines. Global Onshore Wind Industry to Reach Maturity in 2020s: Report Also Read “We estimate that 14,000 wind turbine blades will be decommissioned in Europe by 2023. The recycling of these old blades is a top priority for us, as we are committed to the principles of a circular economy. Our collaboration with Cefic and EuCIA is key to scaling up the necessary recycling technologies and value chains.” Tags: European Chemical Industry Council, European Composites Industry Association, Recycling, Turbine Blades, Turbine Blades Recycling, Wind Turbines, WindEurope