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Elastane recycling: Stretching the lifespan of textiles

Pleasant to wear, extremely unpleasant to recycle: elastane makes it difficult to reuse textiles. A solution has been found at TU Wien.

[Translate to English:] Emanuel Boschmeier bei der Verleihung des INI-Preises, dahinter Textilproben, bearbeitet mit den neuen Recycling-Methoden.

© Johannes Hloch

Emanuel Boschmeier and textile samples, on which the new recycling-methods have been used

Clothing is far too valuable to simply dispose of and burn. Starting in 2025, used textiles are to be collected and recycled throughout the EU. Improved recycling processes are urgently needed to deal with the huge amount of textiles that will then be produced in an efficient and environmentally friendly way.

The recycling of mixed textiles is difficult - especially if they contain elastane. The TU Wien (Vienna) has therefore developed methods that not only detect elastane better and in a more environmentally friendly way than before, but can also separate it in a gentle way in order to recover other fibers undamaged at the same time. The key here is to find the right solvents.

Elastane, the machine killer

"Many of the materials we use to manufacture clothing are easily recyclable as pure materials - such as cotton, polyester or polyamide," explains Emanuel Boschmeier, who is currently working in his doctoral study on this topic at the Institute of Chemical, Environmental and Bioscience engineering at TU Wien. "But elastane, even if it is only mixed in small quantities, makes recycling using conventional methods impossible."

Elastane is so stretchy that the shredders that are usually used to shred textiles before recycling cannot cope with it. Elastane leads to soiling, blockages and clumping in the machines.

Reliable detection

The first step is to find a reliable and fast method to accurately detect elastane contents in textiles. "During our research, we discovered that no such method existed until now," says Emanuel Boschmeier. "The usual test method uses a solvent that is classified as harmful to health and are also extremely time-consuming.”

A novel "Elastane Quantification Tool” has been developed in Vasiliki-Maria Archodoulaki's laboratory, a detection method that measures how much elastane is actually present in a garment. The detection method is based on mid-infrared spectroscopy, which was optimized for the research together with Bernhard Lendl.

Separating fibers by type

The next step was to find a method to separate elastane from other fibers. "We experimented with different solvents and carried out theoretical studies. We finally came across a harmless solvent that selectively removes the elastane, leaving the reusable fibers intact," says his supervisor Andreas Bartl. A patent application has already been filed for the method. In this way, materials such as polyester or polyamide can be almost completely recovered - and even the solvent itself can be recovered and reused.

Even when wool is combined with polyester and elastane, the individual components can be used: The wool is broken down with enzymes under mild, harmless conditions. This method produces an amino acid cocktail that can be used in the cosmetics industry or in fertilizer production. In the next step elastane is separated and recyclable polyester remains.

Research prize for Emanuel Boschmeier

The research work was carried out as part of the EU project SCIRT (System Circularity and Innovative Recycling of Textiles). Emanuel Boschmeier received the INI Award for Innovation and Sustainability in Engineering for his results, presented by the Austrian Society of Engineers and Architects (ÖIAV) and the Federation of Austrian Industries (IV).

 

Original publication

E. Boschmeier et al., New separation process for elastane from polyester/elastane and polyamide/elastane textile waste. Resources, Conservation and Recycling, 198, 107215., opens an external URL in a new window

Contact

Emanuel Boschmeier
Institute for Chemical Engineering
TU Wien
+43 1 58801 166152
emanuel.boschmeier@tuwien.ac.at

Andreas Bartl
Institute for Chemical Engineering
TU Wien
+43 1 58801 166102
andreas.bartl@tuwien.ac.at