Alternativas de reutilização de resíduos têxteis

Ademir José Velicko; Rafael Luis Amrginski; Marcelo Hemkemeier

doi:10.33448/rsd-v9i11.10613

Authors

Ademir José Velicko Universidade de Passo Fundo https://orcid.org/0000-0002-0544-5506
Rafael Luis Amrginski Universidade de Passo Fundo https://orcid.org/0000-0003-0423-0981
Marcelo Hemkemeier Universidade de Passo Fundo https://orcid.org/0000-0001-6541-4827

DOI:

https://doi.org/10.33448/rsd-v9i11.10613

Keywords:

Textile waste; Circular economy; Compression molding; Mechanical recycling; Chemical recycling.

Abstract

Textile products are indispensable in everyday life, being present in different formats and characteristics. However, the textile industry is the second largest pollutant in the world due to the few of reuse and recycling techniques that cause great environmental impacts. Data show the recycling of textile waste does not reach 25% of what is generated, thus producing about 1.2 billion tons of greenhouse gas per year. The textile waste recycling is considered to be of great need and viability in the curricular economy implementation, but it is challenging, especially since these wastes are usually mixed with other fibers. In this way, the present article presents the concept of circular economy related to the textile industry and the ways of recycling fabrics, aiming to reduce environmental impacts. The circular economy presents a model capable of decoupling economic growth from the waste production, transforming waste into new products and materials with maximum efficiency, aiming at reaching an economic model with zero waste, essential to achieve sustainable growth. The transition to a circular economy must begin with the waste prevention and the waste minimization waste deposited in landfills and finally the recycling process implementation. The different recycling processes were shown to be promising wards the significantly contribution to the circular economy. The main recycling technologies, for textile waste, include the hot compression molding process, the mechanical recycling process and the chemical recycling process.

References

Agrawal, Y., Barhanpurka, S., & Joshi, A. (2017). Recycle textiles waste. Recuperado de http://www.fibre2fashion.com/industryarticle/ 6798/recycle-textiles-waste.

Amaral, M. C., Zonatti, W. F., Silva, K. L., Junior, D. K., Neto, J. A., & Ramos, J. B. (2018). Industrial textile recycling and reuse in Brazil: case study and considerations concerning the circular economy. Gestão e Produção, 25, 431-443.

Boiten, V. J., Li-Chou Han, S., & Tyler, D. (2017). Circular Economy Stakeholder Perspectives: Textile collection strategies to support material circularity. Recuperado de http://resyntex. eu/images/downloads/ValrieJBoiten_Textile_collection_ strategies.pdf.

Circle Economy. (2017). Circle Textiles: Closing The Loop For Workwear. Recuperado de

http://www.rebus.eu.com/wp-content/uploads/2017/12/CIRCLE-Textiles-CLOSING-THE-LOOP-FOR-WORKWEAR.pdf.

Claudio, L. (2007). Waste couture: Environmental impact of the clothing industry. Environmental Health Perspectives, 115, 449-454.

Dahlbo, H., Aalto, K., Eskelinen, H., & Salmenperä, H. (2017). Increasing textile circulation - consequences and requirements. Sustainable Production and Consumption, 9, 44-57.

Danigelis, A. (2017). Retailers bank on environmentally friendly clothing for increased sales. Recuperado de https://www.environmentalleader.com/2017/07/retailers-bank-environmentally -friendly-clothing-increased-sales/.

De Paoli, A. (2015). Towards the circular economy: Identifying local and regional government policies for developing a circular economy in the fashion and textiles sector in Vancouver, Canada. Recuperado de https://www.vancouvereconomic.com/research/towards-the-circular-economy/.

Durham, E., Hewitt, A., Bell, R., & Russell, S. (2015). Technical Design for Recycling of Clothing. Sustainable Apparel, 187-198.

Echeverria, C. A., Handoko, W., Pahlevani, F., & Sahajwalla, A. (2019). Cascading use of textile waste for the advancement of fibre reinforced composites for building applications. Journal of Cleaner Production, 208, 1524-1536.

Eder-Hansen, J., Chalmer, C., Tärneberg, S., Tochtermann, T., Seara, J., Boger, S., Theelen, G., Schwarz, S., Kristensen, L., & Jäger, K. (2017). Pulse the fashion industry: Global Fashion Agenda &AMP. The Boston Consulting Group, 1-74.

Ellen MacArthur Foundation and McKinsey. (2014). Towards the Circular Economy: Accelerating the Scale-up across Global Supply Chains, Rapport. World Economic Forum, Switzerland. Recuperado de https://www.ellenmacarthurfoundation.org/circular-economy/what-is-the-circular-economy?gclid=CjwKCAiA_Kz-BRAJEiwAhJNY76QyUrgjW 5S1jWqf28QG3PxRtmif22lAnRUJG11AF2pNZpzWL4DuxhoCNJwQAvD_BwE.

Euratex. (2017). The European Apparel And Textile Confederation: Policy brief. Prospering in the circular economy. Recuperado de http://pr.euractiv.com/sites/default/files/ pr/SB-26-2017_A1_EURATEX_CE_policy_brief.pdf.

Ghisellini, P., Cialani, C., & Ulgiati, S. (2016). “A review on circular economy: the expected transition to a balanced interplay of environmental and economic systems”. Journal of Cleaner Production, 114, 11-32.

Hu, Y., Du, C., Leu, S. Y., Jing, H., Li, X., & Lin, C. S. K. (2018). Valorisation of textile waste by fungal solid state fermentation: an example of circular waste-based biorefinery. Resources, conservation and recycling. 129, 27-35.

Jordeva, S., Tomovska, E., Trajković, D., & Zafirova, K. (2015). Current State of Pre-Consumer Apparel Waste Management in Macedonia. Fibres & Textiles in Eastern Europe, 109, 13-16.

Kocic, A., Bizjak, M., Popovi, C, D., Popari, C, G. B., & Stankovi, C, S. B. (2019). UV protection afforded by textile fabrics made of natural and regenerated cellulose fibres. Journal of cleaner production, 228, 1229-1237.

Koszewska, M. (2018). Circular Economy - Challenges for the Textile and Clothing Industry. Autex Research Journal, 18, 337-347.

Leal Filho, W., Ellams, D., Han, S., Tyler, D., Boiten, V. J., Paco, A., Moora, H., & Balogun, A. L. (2019). A review of the socio-economic advantages of textile recycling. Journal of cleaner production, 218, 10-20.

Lewis, T. (2015). Apparel disposal and reuse. In Sustainable apparel - production, processing and recycling. Blackburn, R.: Elsevier.

Navone, L., Moffitt, K., Hansen, K., Blinco, J., Payne, A., & Speight, R. (2020). Closing the textile loop: Enzymatic fibre separation and recycling of wool/polyester fabric blends. Waste Management, 102, 149-160.

Norup, N., Pihl, K., Damgaard, A., & Scheutz, C. (2018). Development and testing of a sorting and quality assessment method for textile waste. Waste Management, 79, 8-21.

Oliveira Neto, G. C., Correia, J. M. F., Silva, P. C., Sanches, A. G. O., & Lucato, W. C. (2019) Cleaner Production in the textile industry and its relationship to sustainable development goals. Journal of Cleaner Production, 228, 1514-1525.

Ouchi, A., Toida, T., Kumaresan, S., Ando, W., & Kato, J. (2010). A new methodology to recycle polyester from fabric blends with cellulose. Cellulose, 17, 215-222.

Papadopoulos, A. M. (2005). State of the art in thermal insulation materials and aims for future developments. Energy and Buildings, 37, 77-86.

Păunescu, C., Găucă, O., & Drăgan, D. (2017). “Examining obligations to society for QS Stars best ranked universities in social responsibility”, Management & Marketing, 12, 551-570.

Payne, A. (2015). Open- and closed-loop recycling of textile and apparel products (Ed.) Muthu, S.S. In Handbook of life cycle assessment (LCA) of textiles and clothing, Woodhead Publishing, 103-123.

Peña-Pichardo, P., Martínez-Barrera, G., Martínez-López, M., Ureña-Núñez, F., Reis, J. M. L., & Laredo, J. M. (2018). Recovery of cotton fibers from waste Blue-Jeans and its use in polyester concrete. Construction & Building Materials, 177, 409-416.

Ramamoorthy, S. K., Persson, A., & Skrifvars, M. (2014). Reusing Textile Waste as Reinforcements in Composites. Journal of Applied Polymer Science, 131, 01-16.

Ramamoorthy, S. K., Skrifvars, M. Alagar, R., & Akhtar, N. (2018). End-Of-Life Textiles as Reinforcements in Biocomposites. Journal of Polymers and the Environment, 26, 487-498.

Sandin, G., & Peters, G. M. (2018). Environmental impact of textile reuse and recycling e a review. Journal of Cleaner Production, 184, 353-365.

Staicu, D. (2018). Financial sustainability of social enterprise in Central and Eastern Europe, Proceedings of the International Conference on Business Excellence, 12, 907-917.

Teunissen, J. (2017). Fashion data: On the failing fashion system and alternative solutions. Recuperado de https://tijdelijkmodemuseum.hetnieuweinstituut.nl/en/fashion-data-failing-fashion-system-and-alternative-solutions-jose-teunissen-0.

Trajković, D., Jordeva, S., Tomovska, E., & Zafirova, K. (2017). Polyester apparel cutting waste as insulation material. The Journal of The Textile Institute, 108, 1238-1245.

Wang, H., Kaur, G., Pensupa, N., Uisan, K., Du, C., Yang, X., & Lin, C. S. K. (2018). Textile waste valorization using submerged filamentous fungal fermentation. Process safety and environmental protection, 118, 143-151.

Yousef, S., Tatariants, M., Tichonovas, M., Kliucininkas, L., Lukošiūtė, S., & Yan, L. (2020). Sustainable green technology for recovery of cotton fibers and polyester from textile waste. Journal of cleaner production, 254, 1-11.

Yousef, S., Tatariants, M., Tichonovas, M., Sarwar, Z., Jonu I. S., & Kliucininkas, L. (2019). A new strategy for using textile waste as a sustainable source of recovered cotton. Resources, conservation and recycling, 145, 359-369.

Zhang, H., Gao, Z., Liu, Y., Ran, C., Mao, X., Kang, Q., Ao, W., Fu, J., Li, J., Liu, G., & Dai, J. (2018). Microwave-assisted pyrolysis of textile dyeing sludge, and migration and distribution of heavy metals. Journal of Hazardous Materials, 355, 128-135.

Zonatti, W. F., Amaral, M. C., Gasi, F., Ramos, J. B., & Duleba, W. (2015). Waste Recycling in the Textile and Clothing Sector in Brazil: An Overview and Related Actions. Sustentabilidade em Debate, 6, 50-69.

Zou, Y., Reddy, N., & Yang, Y. (2011). Reusing polyester/cotton blend fabrics for composites. Composites, 42, 763-770.

Alternatives of reusing textile waste

Authors

DOI:

Keywords:

Abstract

References

Downloads

Published

How to Cite

Issue

Section

License

JOURNAL METRICS

Language

Make a Submission