Supercritical fluid technology as a sustainable alternative method for textile dyeing: An approach on waste, energy, and CO2 emission reduction

Supercritical fluid technology as a sustainable alternative method for textile dyeing: An approach on waste, energy, and CO2 emission reduction

The clothing industry is considered one of the most polluting industries on the planet due to the high consumption of water, energy, chemicals/dyes, and high generation of solid waste and effluents. Faced with environmental concerns, the textile ennoblement sector is the most critical of the textile...

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Veröffentlicht in:Journal of environmental sciences (China) 2024-06, Vol.140, p.123-145
Hauptverfasser: de Oliveira, Carlos Rafael Silva, de Oliveira, Patrícia Viera, Pellenz, Leandro, de Aguiar, Catia Rosana Lange, da Silva Júnior, Afonso Henrique
Format: Artikel
Sprache:eng
Schlagworte:
carbon
carbon dioxide
Cleaner production
dyeing
energy expenditure
Energy saving
fabrics
greenhouse gases
industry
processing time
solid wastes
Supercritical dyeing
Sustainable processes
Textile industry
Water free dyeing
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container_end_page 145
container_issue
container_start_page 123
container_title Journal of environmental sciences (China)
container_volume 140
creator de Oliveira, Carlos Rafael Silva
de Oliveira, Patrícia Viera
Pellenz, Leandro
de Aguiar, Catia Rosana Lange
da Silva Júnior, Afonso Henrique
description The clothing industry is considered one of the most polluting industries on the planet due to the high consumption of water, energy, chemicals/dyes, and high generation of solid waste and effluents. Faced with environmental concerns, the textile ennoblement sector is the most critical of the textile production chain, especially the traditional dyeing processes. As an alternative to current problems, dyeing with supercritical CO2 (scCO2) has been presented as a clean and efficient process for a sustainable textile future. Supercritical fluid dyeing (SFD) has shown a growing interest due to its significant impact on environmental preservation and social, economic, and financial gains. The main SFD benefits include economy and reuse of non-adsorbed dyes; reduction of process time and energy expenditure; capture of atmospheric CO2 (greenhouse gas); use and recycling of CO2 in SFD; generation of carbon credits; water-free process; effluent-free process; reduction of CO2 emission and auxiliary chemicals. Despite being still a non-scalable and evolving technology, SFD is the future of dyeing. This review presented a comprehensive overview of the environmental impacts caused by traditional processes and confronted the advantages of SFD. The SFD technique was introduced, along with its latest advances and future perspectives. Financial and environmental gains were also discussed. [Display omitted]
doi_str_mv 10.1016/j.jes.2023.06.007
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Faced with environmental concerns, the textile ennoblement sector is the most critical of the textile production chain, especially the traditional dyeing processes. As an alternative to current problems, dyeing with supercritical CO2 (scCO2) has been presented as a clean and efficient process for a sustainable textile future. Supercritical fluid dyeing (SFD) has shown a growing interest due to its significant impact on environmental preservation and social, economic, and financial gains. The main SFD benefits include economy and reuse of non-adsorbed dyes; reduction of process time and energy expenditure; capture of atmospheric CO2 (greenhouse gas); use and recycling of CO2 in SFD; generation of carbon credits; water-free process; effluent-free process; reduction of CO2 emission and auxiliary chemicals. Despite being still a non-scalable and evolving technology, SFD is the future of dyeing. This review presented a comprehensive overview of the environmental impacts caused by traditional processes and confronted the advantages of SFD. The SFD technique was introduced, along with its latest advances and future perspectives. Financial and environmental gains were also discussed. 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source Elsevier ScienceDirect Journals Complete; Alma/SFX Local Collection
subjects carbon
carbon dioxide
Cleaner production
dyeing
energy expenditure
Energy saving
fabrics
greenhouse gases
industry
processing time
solid wastes
Supercritical dyeing
Sustainable processes
Textile industry
Water free dyeing
title Supercritical fluid technology as a sustainable alternative method for textile dyeing: An approach on waste, energy, and CO2 emission reduction
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