11/26/2025

European Research Project addresses Textile Waste through integrated Recycling Technologies (11/26/25)

A major European research initiative coordinated by Fraunhofer UMSICHT has been launched to develop integrated solutions for textile waste recycling. The AUTOLOOP project aims to create a comprehensive system that could process 1.24 million tonnes of textile waste annually by 2050, whilst potentially creating over 130,000 green jobs across the EU. This project aims to develop, test and integrate automated sorting, tracing, and closed-loop recycling technologies for polyester-based textiles (NRT), addressing the pressing challenge of textile waste management. Project Partners of Autoloop Project The project partners of the Autoloop Project at the kick-off meeting in Oct 2025 at Fraunhofer UMSICHT in Sulzbach-Rosenberg. The chemical recycling of synthetic fibres (PET) into new basic chemicals is a technological building block being researched in the AUTOLOOP project. Pyrolysis research reactor for the chemical recycling of plastic-containing textiles at Fraunhofer UMSICHT in Sulzbach-Rosenberg Europe's textile and clothing industry employs 1.3 million people and generates around 170 billion EUR annually. However, it produces 10.9 million tonnes of post-consumer textile waste each year, with less than 1% currently recycled through closed-loop processes back into new textiles. »The textile industry is at a critical juncture,« explains Dr. Thomas Fehn, Coordinator of AUTOLOOP from Fraunhofer UMSICHT. »This project represents a paradigm shift from waste to resource, transforming discarded clothing into valuable raw materials for new garments.« Technological Approaches and Work Packages AUTOLOOP comprises several key technological innovations for the complete recycling of polyester- based (PET-based) textiles, which are being further developed and validated by the project partners: • AI-Powered Sorting: ZORITEX's artificial intelligence system identifies over 15 different fibre types and their blends using hyperspectral near-infrared technology. This automated approach could increase sorting throughput tenfold whilst reducing costs by 50-75%. • Chemical-Free Recycling: AALTO's Ioncell® process uses innovative ionic liquid solvents to extract cellulose fibres from textile blends, achieving over 95% recycling rates without harmful chemicals. • Advanced Synthetic Recovery: The ReSyn technology developed by Fraunhofer UMSICHT and SKZ breaks down synthetic fibres into high-purity building blocks for creating new materials, working efficiently even with contaminated textiles. • Smart Fibre Tracking: TLX's IntegriTEX® technology embeds invisible identifiers in fibres, enabling contactless detection and complete supply chain transparency. • Digital Integration: TEXROAD's cloud-based Data Hub standardises information management across the entire recycling process, ensuring compliance with emerging regulations like the Digital Product Passport. Projected Outcomes by 2050 If successfully scaled, AUTOLOOP's integrated approach could: • Recycle 1.24 million tonnes of textile waste annually • Achieve 96% material recovery rates • Create over 130,000 new green jobs across the EU • Reduce municipal waste management costs (currently 60-110 EUR per tonne) • Significantly decrease the textile industry's reliance on virgin materials A Truly European Effort The project brings together 14 partners from seven countries, combining research institutions with industrial partners. Key organisations include ZORITEX (UK), AALTO University (Finland), Fraunhofer UMSICHT (Germany), TLX (Germany), and TEXROAD (Netherlands), along with additional partners across Europe. Additional partners include, ELT (UK), TRASBORG (Denmark), VTT (Finland), SKZ (Germany), S4L (UK), LEEDS (UK), NORION (Denmark), TEMASOL (Switzerland), and LGI (France). Looking Ahead As European regulations on waste management continue to develop and demand for sustainable textiles grows, AUTOLOOP provides a research foundation for advancing circular economy principles within the textile industry. The project demonstrates how advanced recycling technologies can be integrated to create efficient systems for processing textile waste, supporting the transition from linear to circular production models.