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Papers
61,005 resultsShowing papers similar to 4R Technique (Reduce, Reuse, Recycle, And Recover) As A Preventive Measure Towards Waste Minimization In The Garment Industry
ClearValuing Modern Technologies to Boost the Circular Economy in the Fashion Industry
This study examines how modern technologies can support circular economy principles in the fashion industry, focusing on reuse, repair, reconditioning, and recycling strategies to reduce plastic and textile pollution.
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.
Sustainability Initiatives in the Fashion Industry
This paper examines sustainability efforts in the fashion industry, where synthetic textiles are a major source of microplastic fiber pollution during washing. It reviews industry initiatives and consumer behavior changes aimed at reducing environmental impacts, including microfiber shedding.
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.
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.
Innovative Textile Recycling and Upcycling Technologies for Circular Fashion: Reducing Landfill Waste and Enhancing Environmental Sustainability
This systematic review of 95 studies found that circular textile recycling technologies can divert a median of 74% of textile waste from landfills and reduce greenhouse gas emissions by 38-49% compared to virgin fiber production. Advanced sorting infrastructure using NIR or FTIR spectroscopy proved decisive, boosting yields by 12-18% in mechanical recycling lines. These findings are relevant to microplastic pollution because textile fiber recycling reduces the volume of synthetic fabrics that shed microplastic fibers during use and disposal.
Towards circular fashion: Management strategies promoting circular behaviour along the value chain
This study explores how the fashion industry can shift from a wasteful linear model to a circular one through better management strategies, including sustainable materials, take-back programs, and on-demand manufacturing. The fashion industry is a major source of microplastic pollution through synthetic fiber shedding during production, washing, and disposal. Adopting circular practices could significantly reduce the amount of microplastic fibers entering the environment from textiles.
The global apparel industry: a significant, yet overlooked source of plastic leakage
This study provides the first comprehensive estimate of the global apparel industry's total contribution to plastic pollution, including microfiber shedding during washing, packaging waste, and end-of-life textile disposal. The apparel sector is identified as a major and largely underestimated source of plastic entering the environment.
Recycling and Reusing Strategies to Prevent Microplastic Generation: a Review
This review examines recycling and reusing strategies for plastic materials as a means of preventing microplastic generation, grounding the analysis in circular economy principles emphasizing resource efficiency through repair, reuse, and recycling. The authors evaluate current methodologies and propose strategies to reduce plastic waste degradation into microplastics, linking waste management practices to pollution prevention outcomes.
Developments in Recycling of Polyester Textile Waste
This review examines developments in polyester textile waste recycling, discussing how the fast fashion model has shortened garment lifespans, increased waste, and contributed to microplastic pollution from synthetic fibres. The authors survey mechanical, chemical, and circular economy recycling approaches, highlighting low current recycling rates especially in developing countries and the potential to significantly reduce greenhouse gas emissions and resource consumption.
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.
Sustainable Manufacturing Practices in the Apparel Industry: Integrating Eco-Friendly Materials and Processes
This review examined sustainable manufacturing practices in the apparel industry, covering eco-friendly materials, waterless dyeing, renewable energy adoption, and circular economy principles. The authors found that integrating these approaches throughout the production lifecycle can substantially reduce the industry's environmental footprint, including microplastic shedding from synthetic textiles.
Fibrous Microplastics Release from Textile Production Phases: A Brief Review of Current Challenges and Applied Research Directions
This review examines how microplastic fibers are shed during various stages of textile production, from spinning and weaving to dyeing and finishing. Researchers found that fibrous microplastics account for roughly half to 70% of all microplastics found in global wastewater, primarily originating from synthetic fabric manufacturing and household laundering. The study identifies gaps in current knowledge and explores recycling technologies and regulatory approaches that could help reduce textile microplastic pollution.
Designing out microplastic pollution released from textiles and apparel during laundering
This study explored source-directed design and manufacturing interventions to reduce microplastic fiber release from synthetic textiles during washing, using standardized wash tests to quantify shedding from fabric surfaces and edges. Structural fabric design modifications were identified as effective strategies to reduce microplastic fiber shedding at the point of manufacture.
A comprehensive method for the sampling, purification, extraction, and quantification of microplastic fibre release in textile production
Researchers developed a comprehensive standardized method for sampling, purifying, extracting, and quantifying microplastic fiber release across various matrices involved in textile production processes. The protocol addresses gaps in existing methodology focused primarily on laundering and wastewater treatment, providing a reproducible framework to assess microplastic emissions throughout the full textile manufacturing chain.
Textile industry as a major source of microplastics in the environment
This review examines the textile industry as a major source of microplastic pollution, synthesizing data on recycling technologies and lifecycle assessments for synthetic textile fibers. It identifies barriers to progress — including fiber lamination with metals, rapidly changing fiber types, and low recycling efficiency — and argues that only a globally coordinated reduction in synthetic fiber production will meaningfully curb microplastic release. The textile sector is one of the largest contributors of microfibers to aquatic environments, making systemic change in this industry critical.
Mapping sustainable options in the fashion industry: A systematic literature review and a future research agenda
This systematic review examined 187 studies on sustainable practices in the fashion industry, which is a major contributor to microplastic pollution through synthetic textiles. Researchers classified sustainable solutions across the purchase, use, and disposal phases of clothing and identified key gaps in current knowledge. The study suggests that addressing fashion industry practices is critical for reducing textile-related microplastic contamination in the environment.
Understanding the Flows of Microplastic Fibres in the Textile Lifecycle: A System Perspective
The lifecycle flows of microplastic fibers through the textile industry were mapped, identifying key stages from fiber production through washing and disposal where fibers are shed and enter the environment. This systems-level analysis supports targeted interventions to reduce fiber microplastic pollution at source.
Eco-conception d'étoffes en polyester pour limiter le relargage de fragments de fibres microplastiques lors du premier lavage
Researchers investigated the release of microplastic fibre fragments from polyester textiles during the first machine wash, evaluating how production-stage design choices affect fibre shedding with the goal of developing lower-emission textile manufacturing approaches.
Sustainable Approaches in Textile Finishing to Control Microfiber Releases
This review examines sustainable textile finishing approaches designed to reduce microfiber releases from synthetic fabrics. Researchers discuss various treatment methods that can minimize the shedding of microplastic fibers during washing and use, addressing one of the major sources of microplastic pollution entering waterways.
Production waste of the textile and clothing industry in sustaindevelopment context
Researchers identified and categorized production waste streams from the textile and clothing industry, assessed their environmental impacts in a sustainable development context, and proposed waste minimization strategies in response to increasing EU regulatory pressure.
Innovative approaches to plastic waste recycling using the example of the textile industry
This Russian-language paper reviews innovative approaches to recycling plastic waste in the textile industry, including mechanical and chemical recycling of synthetic fibers. The textile sector is a major source of microplastic pollution through washing of synthetic fabrics. Improving plastic recycling efficiency in the textile industry could reduce the volume of microplastic fibers released into waterways.
State of the Art in Textile Waste Management: A Review
This review examines the current state of textile waste management, from collection and sorting to recycling technologies. Researchers found that advances in near-infrared sorting, chemical recycling, and biological recycling are creating new possibilities for recovering value from discarded fabrics. The study highlights that textile waste is a significant contributor to landfill volume and microplastic pollution, making improved management essential for environmental sustainability.
Microplastic pollution in aquatic environments from washing synthetic textiles
Washing synthetic textiles releases microplastic fibers into wastewater, and this study reviewed the scale of the problem and explored strategies to reduce emissions at the washing machine, garment design, and wastewater treatment levels. Textile laundering is considered one of the largest sources of microplastic fiber pollution reaching aquatic environments.