Possibility Routes for Textile Recycling Technology
The fashion industry contributes to a significant environmental issue due to the increasing production and needs of the industry. The proactive efforts toward developing a more sustainable process via textile recycling has become the preferable solution. This urgent and important need to develop che...
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MDPI AG
2021
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oai:doaj.org-article:3468085be88a40f783c745c7ae9339372021-11-11T18:48:36ZPossibility Routes for Textile Recycling Technology10.3390/polym132138342073-4360https://doaj.org/article/3468085be88a40f783c745c7ae9339372021-11-01T00:00:00Zhttps://www.mdpi.com/2073-4360/13/21/3834https://doaj.org/toc/2073-4360The fashion industry contributes to a significant environmental issue due to the increasing production and needs of the industry. The proactive efforts toward developing a more sustainable process via textile recycling has become the preferable solution. This urgent and important need to develop cheap and efficient recycling methods for textile waste has led to the research community’s development of various recycling methods. The textile waste recycling process can be categorized into chemical and mechanical recycling methods. This paper provides an overview of the state of the art regarding different types of textile recycling technologies along with their current challenges and limitations. The critical parameters determining recycling performance are summarized and discussed and focus on the current challenges in mechanical and chemical recycling (pyrolysis, enzymatic hydrolysis, hydrothermal, ammonolysis, and glycolysis). Textile waste has been demonstrated to be re-spun into yarn (re-woven or knitted) by spinning carded yarn and mixed shoddy through mechanical recycling. On the other hand, it is difficult to recycle some textiles by means of enzymatic hydrolysis; high product yield has been shown under mild temperatures. Furthermore, the emergence of existing technology such as the internet of things (IoT) being implemented to enable efficient textile waste sorting and identification is also discussed. Moreover, we provide an outlook as to upcoming technological developments that will contribute to facilitating the circular economy, allowing for a more sustainable textile recycling process.Damayanti DamayantiLatasya Adelia WulandariAdhanto BagaskoroAditya RianjanuHo-Shing WuMDPI AGarticletextile recyclingmechanical recyclingpyrolysisenzymatic hydrolysisammonolysisglycolysisOrganic chemistryQD241-441ENPolymers, Vol 13, Iss 3834, p 3834 (2021) |
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DOAJ |
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DOAJ |
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EN |
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textile recycling mechanical recycling pyrolysis enzymatic hydrolysis ammonolysis glycolysis Organic chemistry QD241-441 |
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textile recycling mechanical recycling pyrolysis enzymatic hydrolysis ammonolysis glycolysis Organic chemistry QD241-441 Damayanti Damayanti Latasya Adelia Wulandari Adhanto Bagaskoro Aditya Rianjanu Ho-Shing Wu Possibility Routes for Textile Recycling Technology |
| description |
The fashion industry contributes to a significant environmental issue due to the increasing production and needs of the industry. The proactive efforts toward developing a more sustainable process via textile recycling has become the preferable solution. This urgent and important need to develop cheap and efficient recycling methods for textile waste has led to the research community’s development of various recycling methods. The textile waste recycling process can be categorized into chemical and mechanical recycling methods. This paper provides an overview of the state of the art regarding different types of textile recycling technologies along with their current challenges and limitations. The critical parameters determining recycling performance are summarized and discussed and focus on the current challenges in mechanical and chemical recycling (pyrolysis, enzymatic hydrolysis, hydrothermal, ammonolysis, and glycolysis). Textile waste has been demonstrated to be re-spun into yarn (re-woven or knitted) by spinning carded yarn and mixed shoddy through mechanical recycling. On the other hand, it is difficult to recycle some textiles by means of enzymatic hydrolysis; high product yield has been shown under mild temperatures. Furthermore, the emergence of existing technology such as the internet of things (IoT) being implemented to enable efficient textile waste sorting and identification is also discussed. Moreover, we provide an outlook as to upcoming technological developments that will contribute to facilitating the circular economy, allowing for a more sustainable textile recycling process. |
| format |
article |
| author |
Damayanti Damayanti Latasya Adelia Wulandari Adhanto Bagaskoro Aditya Rianjanu Ho-Shing Wu |
| author_facet |
Damayanti Damayanti Latasya Adelia Wulandari Adhanto Bagaskoro Aditya Rianjanu Ho-Shing Wu |
| author_sort |
Damayanti Damayanti |
| title |
Possibility Routes for Textile Recycling Technology |
| title_short |
Possibility Routes for Textile Recycling Technology |
| title_full |
Possibility Routes for Textile Recycling Technology |
| title_fullStr |
Possibility Routes for Textile Recycling Technology |
| title_full_unstemmed |
Possibility Routes for Textile Recycling Technology |
| title_sort |
possibility routes for textile recycling technology |
| publisher |
MDPI AG |
| publishDate |
2021 |
| url |
https://doaj.org/article/3468085be88a40f783c745c7ae933937 |
| work_keys_str_mv |
AT damayantidamayanti possibilityroutesfortextilerecyclingtechnology AT latasyaadeliawulandari possibilityroutesfortextilerecyclingtechnology AT adhantobagaskoro possibilityroutesfortextilerecyclingtechnology AT adityarianjanu possibilityroutesfortextilerecyclingtechnology AT hoshingwu possibilityroutesfortextilerecyclingtechnology |
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