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Wind turbines typically operate for 20 to 30 years before they are undergoing dismantling and recycling. However, the recycling of fiber composites, especially from the thick-walled rotor blade parts, has been inadequate until now. The prevailing methods involve thermal or mechanical recycling. For a sustainable and holistic recycling process, a research consortium led by Fraunhofer IFAM is pooling their expertise to recover the fibers through pyrolysis. Subsequent surface treatment and quality testing of the recyclates allow for them to be used again in industry.

Today, the vast majority of wind turbines can already be recycled cleanly. In the case of rotor blades, however, recycling is only just beginning. Due to the 20-year operation period and the installation rates, the blade volume for recycling will be increasing in the coming years and decades. In 2000, for example, around 6,000 wind turbines were erected in Germany, which now need to be fed into a sustainable recycling process. In 2022, about 30,000 onshore and offshore wind turbines with a capacity of 65 gigawatts were in operation in Germany alone.

As wind energy is the most important cornerstone for a climate-neutral power supply, the German government has set itself the goal of further increasing its wind energy capacity by 2030 by installing larger and more modern turbines. Rotor blades will become longer, the proportion of carbon fibers used will continue to increase - and so will the amount of waste. In addition, the existing material mix in rotor blades is expected to increase in the future and precise knowledge of the structure of the components will become even more important for recycling. This underscores the urgency of developing sustainable processing methods, especially for recycling the thick-walled fiber composites in the rotor blades.

Economic and ecological recycling solution for fiber composites on the horizon
Rotor blades of wind turbines currently up for recycling consist of more than 85 percent of glass- and carbon-fiber-reinforced thermosets (GFRP/CFRP). A large proportion of these materials is found in the flange and root area and within the fiber-reinforced straps as thick-walled laminates with a wall thicknesses of up to 150 mm. Research into high-quality material fiber recycling as continuous fibers is of particular importance, not only because of the energy required for carbon fiber production. This is where the project "Pyrolysis of thick-walled fiber composites as a key innovation in the recycling process for wind turbine rotor blades" – "RE SORT" for short – funded by the German Federal Ministry of Economics and Climate Protection comes in. The aim of the project team is the complete recycling by means of pyrolysis.

A prerequisite for high-quality recycling of fiber composites is the separation of the fibers from the mostly thermoset matrix. Although pyrolysis is a suitable process for this purpose, it has not yet gained widespread adoption. Within the project, the project partners are therefore investigating and developing pyrolysis technologies that make the recycling of thick-walled fiber composite structures economically feasible and are technically different from the recycling processes commonly used for fiber composites today. Both quasi-continuous batch and microwave pyrolysis are being considered.

Batch pyrolysis, which is being developed within the project, is a pyrolysis process in which the thermoset matrix of thick fiber composite components is slowly decomposed into oily and especially gaseous hydrocarbon compounds by external heating. In microwave pyrolysis, energy is supplied by the absorption of microwave radiation, resulting in internal rapid heat generation. Quasi-continuous batch pyrolysis as well as microwave pyrolysis allow the separation of pyrolysis gases or oils. The planned continuous microwave pyrolysis also allows for the fibers to be preserved and reused in their full length.

How the circular economy succeeds - holistic utilization of the recycled products obtained
In the next step, the surfaces of the recovered recycled fibers are prepared by means of atmospheric plasmas and wet-chemical coatings to ensure their suitability for reuse in industrial applications. Finally, strength tests can be used to decide whether the recycled fibers will be used again in the wind energy industry or, for example, in the automotive or sporting goods sectors.

The pyrolysis oils and pyrolysis gases obtained in batch and microwave pyrolysis are evaluated with respect to their usability as raw materials for polymer synthesis (pyrolysis oils) or as energy sources for energy use in combined heat and power (CHP) plants (pyrolysis gases).

Both quasi-continuous batch pyrolysis and continuous-flow microwave pyrolysis promise economical operation and a significant reduction in the environmental footprint of wind energy. Therefore, the chances for a technical implementation and utilization of the project results are very good, so that this project can make a decisive contribution to the achievement of the sustainability and climate goals of the German Federal Government.

Offshore expansion and onshore repowering ensure growth

• Wind theme day with guided tour November 29th
• Lectures about material trends

With an investment volume of EUR 14 billion in the offshore sector alone, the European wind power industry has set a new record high in the first half of 2016. This figure and the view on the still open approval procedures in this segment as well as the onshore upcoming generational change from existing to modern facilities (repowering) show that the potential for growth is far from being exploited. Also in America as well as in Asia and the Pacific area a new emerging wind energy sector is also driving demand for fiber composites. The COMPOSITES EUROPE exhibition will be showing in Dusseldorf from November 29th to December 1st 2016 the latest trends and developments.

Theme Day: Wind meets Composites

Sector specialists such as Gaugler & Lutz, DD Compound, 3D Core, LAP and Power & Composite Technology will be showing current technologies at the COMPOSITES EUROPE, latest machine tools and manufacturing processes for the wind power industry. A highlight for all wind experts: On November 29th will be the theme day „Wind meets Composites" at the fair. This day will be sponsored by GUNNAR International, Weissenberger, Hexion and SAERTEX. Engineers of aerodynamics, materials science, lightweight construction and production technology will be able to exchange ideas with purchasers, exhibitors and wind energy specialists in the composite sector. The focus will be, among other things, on topics such as the influence of material selection, on design, weight, stability, processing or production processes as well as on certification, standardization and automation in rotor blade construction.
 
Guided theme walks

An optimal overview of exhibitors' offer on the topic wind is given to visitors by the opportunity of taking part at guided tours. Here they will specifically directed to various exhibitors from the wind segment, where they can get within 10 minutes information about their products and innovations. There will be two guided tours on November 29th: tour 1 will take place between 12:00 AM and 01.00 PM and tour 2 in the afternoon between 02:00 and 03:00 PM. Participating exhibitors include Airtech, GUNNAR International, Agilent Technologies, RH Cutting Technology, Granta Design, DD Compound and Armacell Benelux. The lecture is in English. Participation is free, but the number of participants is limited. Between the two round trips the participants have the opportunity to strengthen themselves at the "Wind Lunch" at the booth of Hexion (Hall 8a / booth G31).
Click here to register for the guided tours: www.composites-europe.com/guided-tours

 
Lectures at COMPOSITES Forum

On the afternoon of the wind theme day the COMPOSITES Forum provides an overview of the latest challenges in research, design, quality management, transportation and production of rotor blades. Starting at 3:00 PM Sinoi will discuss "Challenges and approaches in the construction of large onshore blades". Euros will hold a lecture on "Potentials and limits of composites in rotor blade construction" and the Fraunhofer Institute for Wind Energy and Energy System Technology will be presenting "Composite trends for wind turbine blades". Pontis Engineering also has a slot in the lecture program. From 04.00 PM it will be about "Challenges in design and manufacturing of large wind turbine blades". Access to the lecture area is free of charge for visitors. The COMPOSITES Forum is located in Hall 8, Booth B45.

Click here for a complete overview on the topic wind:
https://www.composites-europe.com/windenergie_527.html

About COMPOSITES EUROPE:
350 exhibitors from 30 countries will attend the COMPOSITES EUROPE, European Trade Fair and Forum for Composite Materials, Technology and Applications from November 29th to December 1st in Dusseldorf. The exhibition shows the entire range of fiber-reinforced plastics, from raw materials to manufacturing processes, to lightweight construction innovations in automotive engineering, aviation, boat building, wind power industry and construction. COMPOSITES EUROPE is organized by Reed Exhibitions in cooperation with the European sector association EuCIA and the economic association Composites Germany, a consortium of branch associations and clusters AVK, CCeV, CFK-Valley Stade and VDMA AG Hybrid Light Construction Technologies.