2021
DOI: 10.35530/it.072.01.1773
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Quantification and evaluation of chemical footprint of woollen textiles

Abstract: The chemical pollutants discharged in the production processes of textile products cause severe impact on the environment. The chemical footprint (ChF) methodology provides a new way to quantify the toxicity impacts caused by chemical pollutants. ChF does well in identifying priority chemical pollutants and helping enterprises to select greener chemicals to reduce the environment impacts. In this study, the ChF of woollen yarn were assessed with the data that collected from the production processes. The result… Show more

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Cited by 5 publications
(2 citation statements)
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“…According to an evaluation of the footprint of the processing of woolen textiles, the dyeing phase is the most toxic for the environment [60]. Textile dyeing wastewaters represent 75% of all wastewater containing dyes [122].…”
Section: Reduced Pollution In the Dyeing Operationmentioning
confidence: 99%
“…According to an evaluation of the footprint of the processing of woolen textiles, the dyeing phase is the most toxic for the environment [60]. Textile dyeing wastewaters represent 75% of all wastewater containing dyes [122].…”
Section: Reduced Pollution In the Dyeing Operationmentioning
confidence: 99%
“…Li et al 10 compared and analyzed the ecotoxicity footprint of three dyeing processes of a dress with the USEtox model. Ji et al 11 used the assessment of the mean impact method to calculate and evaluate the ChF of dyed wool yarn in its life cycle and compared the ChF of each process. Qian et al 12 quantified and evaluated the ChF of cotton fabric during wet processing with the USEtox method and comprehensively evaluated human toxicity and ecotoxicity with a multi-objective gray target decision-making model.…”
Section: Introductionmentioning
confidence: 99%