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Chemical Recycling of a Textile Blend from Polyester and Viscose, Part II: Mechanism and Reactivity during Alkaline Hydrolysis of Textile Polyester

Author

Listed:
  • Jenny Bengtsson

    (RISE Research Institutes of Sweden, Argongatan 30, SE-431 22 Mölndal, Sweden)

  • Anna Peterson

    (RISE Research Institutes of Sweden, Argongatan 30, SE-431 22 Mölndal, Sweden)

  • Alexander Idström

    (Department of Chemistry and Chemical Engineering, Chalmers University of Technology, SE-412 96 Gothenburg, Sweden)

  • Hanna de la Motte

    (RISE Research Institutes of Sweden, Argongatan 30, SE-431 22 Mölndal, Sweden)

  • Kerstin Jedvert

    (RISE Research Institutes of Sweden, Argongatan 30, SE-431 22 Mölndal, Sweden)

Abstract

Chemical recycling of textiles holds the potential to yield materials of equal quality and value as products from virgin feedstock. Selective depolymerization of textile polyester (PET) from regenerated cellulose/PET blends, by means of alkaline hydrolysis, renders the monomers of PET while cellulose remains in fiber form. Here, we present the mechanism and reactivity of textile PET during alkaline hydrolysis. Part I of this article series focuses on the cellulose part and a possible industrialization of such a process. The kinetics and reaction mechanism for alkaline hydrolysis of polyester packaging materials or virgin bulk polyester are well described in the scientific literature; however, information on depolymerization of PET from textiles is sparse. We find that the reaction rate of hydrolysis is not affected by disintegrating the fabric to increase its surface area. We ascribe this to the yarn structure, where texturing and a low density assures a high accessibility even without disintegration. The reaction, similar to bulk polyester, is shown to be surface specific and proceeds via endwise peeling. Finally, we show that the reaction product terephthalic acid is pure and obtained in high yields.

Suggested Citation

  • Jenny Bengtsson & Anna Peterson & Alexander Idström & Hanna de la Motte & Kerstin Jedvert, 2022. "Chemical Recycling of a Textile Blend from Polyester and Viscose, Part II: Mechanism and Reactivity during Alkaline Hydrolysis of Textile Polyester," Sustainability, MDPI, vol. 14(11), pages 1-10, June.
  • Handle: RePEc:gam:jsusta:v:14:y:2022:i:11:p:6911-:d:832380
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    Cited by:

    1. Khaliquzzaman Choudhury & Marina Tsianou & Paschalis Alexandridis, 2024. "Recycling of Blended Fabrics for a Circular Economy of Textiles: Separation of Cotton, Polyester, and Elastane Fibers," Sustainability, MDPI, vol. 16(14), pages 1-55, July.

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