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61,005 resultsShowing papers similar to Developments in Recycling of Polyester Textile Waste
ClearRecycling and valorization of textile waste
This review examines the textile industry's contribution to environmental pollution, focusing on synthetic fiber waste, greenhouse gas emissions, and microplastic release driven by fast fashion and overconsumption. It surveys EU regulatory efforts and circular economy strategies aimed at improving textile recycling and reducing the environmental footprint of synthetic materials.
Progress of Recycled Polyester in Rheological Performance in Molding, and Economic Analysis of Recycled Fibers in Fashion and Textile Industry
This review examined the recycling performance of polyester fibers and assessed the economic viability of recycled polyester in the fashion and textile industry. Recycled polyester from PET bottles and textile waste showed acceptable rheological properties for fiber production. Expanding recycled polyester use in fashion reduces the need for virgin plastic and addresses the textile industry's substantial microplastic pollution footprint.
Methods for Natural and Synthetic Polymers Recovery from Textile Waste
This review examined methods for recovering natural and synthetic polymers from textile waste, highlighting how the fashion industry generates massive microplastic pollution and greenhouse gas emissions annually. The authors compared recycling approaches for both natural fibers (cellulose, protein) and synthetic polymers, assessing their environmental trade-offs.
Research on Recycling Design of Clothing Textiles Based on Sustainable Development
This review examines sustainable design strategies for recycling and reusing clothing and textiles, covering the full lifecycle from design to end-of-life disposal. Textile recycling is relevant to microplastic pollution because synthetic fabrics like polyester and nylon shed microplastic fibers during washing.
The current situation of fast fashion industry and how to reduce the waste
This paper reviews the environmental problems caused by the fast fashion industry and evaluates current and emerging solutions including circular economy design and advanced recycling technologies. The authors argue that traditional waste disposal is no longer adequate for the volume of textile waste generated. Transitioning to circular fashion models could reduce the textile fiber microplastics that wash off synthetic clothing into waterways.
Perspectives of Textile Waste Management in the U.S. – A Review
This review examines the growing textile waste crisis in the United States, driven by fast fashion and population growth, and surveys current disposal and recycling practices. Textile waste is an important but underappreciated source of synthetic microfiber pollution when fabrics degrade or are laundered.
Textile recycling- A review
This review examines the growing global textile waste problem and technologies for recycling synthetic and natural fibers. Synthetic textile waste is a major source of microplastic pollution because fibers shed during washing and break down into microplastic fragments in landfills.
Simulation of accelerated ageing of polyester fabric
Researchers simulated accelerated aging of polyester textile fabrics, finding that synthetic fiber degradation — driven by fast fashion, consumerism, and environmental exposure — contributes to microplastic pollution and raises ecological concerns about the lifecycle of synthetic textiles.
Analysis of the polyester clothing value chain to identify key intervention points for sustainability
Researchers analyzed every stage of polyester clothing's lifecycle and found that microfibers shed during laundry are a significant pollution source, concluding that sustainability improvements — including better recycling and design changes — are needed across the entire supply chain to reduce environmental harm.
Possibility Routes for Textile Recycling Technology
This review examined possible routes for textile recycling technology, covering chemical, mechanical, and biological methods, and highlighted the urgent need for efficient, cost-effective recycling processes to address the fashion industry's growing environmental impact.
Opportunities and Limitations in Recycling Fossil Polymers from Textiles
This review examined opportunities and limitations in recycling fossil-based synthetic polymers from textiles, noting that the fashion industry generates 58 million tons of plastic waste annually and releases microplastics during use and disposal.
Textile recycling- A review
This review examines textile recycling approaches for diverting the fast-growing global textile waste stream from landfills, covering mechanical, chemical, and thermal recycling methods and highlighting barriers including fibre blends, contamination, and economic viability that limit current recycling rates.
How can we deal with the large amount of microplastics delivered to landfills and released into the environment by fast fashion? A practical valorization approach for mitigating textile fibrous microplastics before affecting the environment.
Researchers proposed a practical valorization approach for managing fibrous microplastics generated by fast fashion textile waste, addressing the challenge of large volumes of textile microplastics entering landfills and the environment through a circular economy framework to intercept fibers before environmental release.
From Waste to Value: Advances in Recycling Textile-Based PET Fabrics
This review examines recent advances in recycling polyethylene terephthalate (PET) textile fabrics, with a focus on fiber-to-fiber regeneration as a path toward circular textile production. Researchers found that chemical depolymerization methods show particular promise for recovering high-purity monomers suitable for making new textile-grade PET, potentially reducing textile waste that contributes to microplastic pollution.
Mechanically Recycled Textiles: A Source of Microplastic Fiber Emissions
Mechanically recycled polyester textiles shed significantly more microplastic fibers than virgin polyester during both wear and washing, and the problem worsens with each recycling cycle. This is an important finding because it shows that increasing textile recycling rates, while beneficial for reducing waste, may inadvertently increase microplastic fiber pollution in waterways.
Textile Waste Recycling: Emerging Technologies, Environmental Challenges, and Sustainable Solutions
This review synthesizes current knowledge on textile waste recycling, covering mechanical, chemical, and biological recycling technologies alongside environmental challenges and sustainability trade-offs. The authors highlight microfiber shedding and hazardous dye contamination as key barriers to effective textile circularity, and identify emerging solutions including enzymatic processing and closed-loop fiber-to-fiber recycling.
Environmental Pollution by the Fast Fashion: Current Status and Prospects
This review examines the environmental footprint of fast fashion — mass clothing production that generates enormous textile waste, synthetic fiber shedding, and water pollution. It is relevant to microplastics because synthetic garment washing is one of the largest sources of microfiber pollution entering waterways, though the paper focuses on industry-level sustainability responses rather than quantifying microplastic release specifically.
A review of the socio-economic advantages of textile recycling
This review analyzed current trends in textile recycling, identifying economic, logistical, and technical barriers that keep global textile recycling rates low despite significant environmental and socioeconomic benefits. The authors argue that moving toward circular economy models for textiles would reduce microfiber pollution, conserve resources, and create employment, but requires coordinated policy incentives.
TextileRecycling’s Hidden Problem: Surface-ModifiedFiber Fragments Emitted at Every Stage
Researchers investigated microplastic fiber (MPF) release during chemical recycling of polyester/cotton-blended textiles, finding that the dye removal stage emitted the highest MPF count at nearly 10,055 MPFs per gram, while alkaline hydrolysis reduced MPF release by 87.55% compared to acid hydrolysis during the treatment stage.
TextileRecycling’s Hidden Problem: Surface-ModifiedFiber Fragments Emitted at Every Stage
Researchers investigated microplastic fiber (MPF) release during chemical recycling of polyester/cotton-blended textiles, finding that the dye removal stage emitted the highest MPF count at nearly 10,055 MPFs per gram, while alkaline hydrolysis reduced MPF release by 87.55% compared to acid hydrolysis during the treatment stage.
TextileRecycling’s Hidden Problem: Surface-ModifiedFiber Fragments Emitted at Every Stage
Researchers investigated microplastic fiber (MPF) release during chemical recycling of polyester/cotton-blended textiles, finding that the dye removal stage emitted the highest MPF count at nearly 10,055 MPFs per gram, while alkaline hydrolysis reduced MPF release by 87.55% compared to acid hydrolysis during the treatment stage.
Microplastics in Wastewater by Washing Polyester Fabrics
Researchers investigated microplastic fiber release from polyester fabrics during washing, characterizing the quantity and types of microplastics generated and their potential pathway into wastewater systems as a significant source of environmental microplastic pollution.
The Current State-of-the-Art of the Processes Involved in the Chemical Recycling of Textile Waste
This review surveys the current state of chemical recycling technologies for textile waste, focusing on how processes like pyrolysis, solvolysis, and enzymatic degradation can break down synthetic fibers back into usable raw materials. The study notes that while chemical recycling holds promise for reducing textile pollution, challenges remain due to the complex mix of dyes, additives, and blended fabrics in real-world clothing waste.
Chemical Recycling of PET Polyester Textile Wastes Using Ag-Doped ZnO Nanoparticles: An Economical Solution for Circular Economy
Researchers developed a chemical recycling method using silver-doped zinc oxide nanoparticles to break down polyester textile waste into reusable materials. Chemical recycling offers a path to recovering value from synthetic fabric waste that currently ends up in landfills or as microfiber pollution in waterways.