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Sustainable green technology for recovery of cotton fibers and polyester from textile waste

织物 原材料 聚酯纤维 废物管理 浸出(土壤学) 溶剂 制浆造纸工业 经济短缺 环境科学 化学 工程类 材料科学 有机化学 复合材料 土壤科学 土壤水分 哲学 语言学 政府(语言学)
作者
Samy Yousef,Maksym Tatariants,Martynas Tichonovas,Linas Kliučininkas,Irena Lukošiūtė,Libo Yan
出处
期刊:Journal of Cleaner Production [Elsevier BV]
卷期号:254: 120078-120078 被引量:200
标识
DOI:10.1016/j.jclepro.2020.120078
摘要

Waste jeans represent one of the major fractions of textile waste that is generated in millions of tons annually. Waste jeans are classified as a cotton-rich material, which can potentially become a sustainable source of raw cotton for production of new goods to tackle the shortage in cultivated cotton. In this framework, present research aims to develop a sustainable green technology for recovery of cotton fibers and polyester from textile waste. The first stage of the technology was concerned with removal of textile dyes from waste jeans using nitric acid leaching (conc. <60%) followed by the regeneration of the spent acid by activated carbon. After that, polyester was dissolved and separated from cotton by using a green switchable hydrophilicity solvent. To extract the polyester and regenerate the solvent, CO2 was added to the solution after mixing with distilled water at 0 °C for 1 h; the solidified polyester was collected by filtration, and the form of solvent was switched back to hydrophobic through heating and corresponding CO2 removal. Morphology and composition of the liberated fibers and extracted polyester were investigated using optical microscopy, SEM, and FITR. Regenerated solvent and acid were examined using FTIR and titration-based analysis. Performance of the proposed technology was studied based on the principles of circular economy and included determining of recycling rates, economic evaluation, greenhouse gas emissions estimates, and sustainability of the consumed and recovered materials. The results showed possibility of reaching economic returns up to 1,629 $/ton of waste and reduction of carbon footprint by −1,440 kg of CO2-eq/t of waste.
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