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Papers
61,005 resultsShowing papers similar to Methods for Natural and Synthetic Polymers Recovery from Textile Waste
ClearOpportunities 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 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.
Recycling 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.
Exploring Microplastic and Natural Fiber Emissions from Fabrics and Textiles
This review examines microplastic and natural fiber emissions released from fabrics and textiles during use and washing, identifying textiles as a major but underappreciated source of microplastic pollution in the environment. The authors assess emission factors and the downstream environmental and health implications of synthetic fiber shedding.
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.
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.
Synthetic Textiles and Microplastics
This review examines how synthetic textiles shed microfibers during washing and drying, covering the mechanisms of release, the environmental fate of microfibers in aquatic systems, and strategies for reducing microplastic pollution from the fashion and textile industry.
Fragmented fibre (including microplastic) pollution from textiles
This review examined fragmented fiber pollution from all textile types including natural, regenerated, and synthetic fabrics, finding that all textiles release fibers throughout their lifecycle from manufacturing to washing to disposal, and that natural fiber shedding has been underestimated relative to synthetic fibers in pollution assessments.
Microfibre and nanofibre: pollution and environmental impacts
This review examines microfibres and nanofibres — shed from clothing and textiles during use and washing — as a significant but poorly quantified category of environmental pollutants. Up to 4.28 million metric tonnes of microfibres enter the environment each year, with synthetic garment laundering responsible for about 35% of that total, yet natural fibre shedding is largely ignored in sustainability assessments. The authors argue that both synthetic and natural microfibres need to be included in environmental impact frameworks, especially as fast fashion drives ever-increasing textile production.
A Review on Advanced Technology for Sustainable Management of Synthetic Microplastic Waste
This review examines how synthetic microfibers released from textiles during manufacturing, washing, and disposal contribute to microplastic pollution. The paper evaluates advanced technologies for capturing and breaking down these microfibers, which are important because textile-derived microplastics are among the most commonly found types in both the environment and human tissues.
Laundry Care Regimes: Do the Practices of Keeping Clothes Clean Have Different Environmental Impacts Based on the Fibre Content?
This study examined how different textile fiber contents influence the environmental impacts of clothing care, finding that synthetic fiber garments generate more microplastic shedding during washing while natural fibers have other environmental trade-offs. Laundry care choices and fiber content both affect how much microplastic pollution is released into wastewater from household textile 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.
Clothing and Textile Sustainability
This review examines sustainability challenges facing the global clothing and textile industry, covering resource use, chemical pollution, and the growing problem of microfiber release from synthetic textiles. Synthetic garments shed millions of microplastic fibers with every wash, making the textile industry a major contributor to global microplastic pollution.
A critical review on environmental pollution caused by the textile industry
This review examines how the textile industry contributes to environmental pollution, including the release of microplastics from synthetic fibers during washing. The study highlights that non-biodegradable materials like polyester, nylon, and acrylic shed microplastic fibers that enter water systems, potentially harming marine organisms and entering the human food chain.
Environmental Impact of Textile Materials: Challenges in Fiber–Dye Chemistry and Implication of Microbial Biodegradation
This review examines how the textile industry contributes to environmental pollution through both chemical dye waste and microplastic fiber release. Synthetic fabrics like polyester and nylon shed non-biodegradable microfibers during manufacturing and washing, while the dyeing process generates contaminated wastewater. The paper highlights microbial biodegradation as a promising and cost-effective approach to breaking down both textile waste and the microplastics it produces.
Environmental contamination by microplastics originating from textiles: Emission, transport, fate and toxicity
This review examines how synthetic textiles release fibrous microplastics into the environment through laundering, wear, and disposal. Researchers traced the journey of textile-derived microplastics from washing machines through wastewater treatment plants and into waterways, soils, and the atmosphere. The study highlights that textile fibers are among the most common types of microplastics found in the environment and calls for better mitigation strategies at every stage of the textile lifecycle.
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.
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.
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.
Evaluating the environmental impacts of textile and fashion industries
This review evaluated the environmental impacts of the global textile and fashion industries, finding that resource overconsumption, water pollution, synthetic fiber microplastic release, and vast waste generation make these sectors major drivers of ecosystem degradation.
Clothes Encounters of the Microfibre Kind
This review examines how natural, semi-synthetic, and synthetic textile fibers enter the environment and affect organisms and ecosystems, highlighting that fiber type influences toxicity and persistence. The authors conclude that textile fibers are an underappreciated category of microplastic pollution with diverse ecological effects.
Microplastic emissions in textile wet processing: Progress, challenges, and mitigation strategies
This review examines how textile wet processing, including dyeing and finishing operations, contributes to microplastic emissions that are more substantial in volume and chemically diverse than those from domestic laundry. Researchers found that mechanical forces, water, and chemical treatments during industrial processing release significant quantities of synthetic microfibers into wastewater. The study explores mitigation strategies including bioengineered materials, improved textile design, surface coatings, and enhanced filtration technologies.
Microplastics in Synthetic Textile Industries: Origin, Occurrence, Routes and Their Fates on Environment and Human
This review examines the origins and environmental pathways of microplastics generated by the synthetic textile industry, from spinning and weaving to dyeing and finishing processes. Researchers found that many types of fibers, sequins, buttons, and packaging materials made of polyester, polyamide, and other plastics are released into the environment through mechanical action and degradation. The study highlights the need for industry-wide strategies to reduce microplastic emissions throughout the textile production and lifecycle chain.
Valorization of textile waste: non-woven structures and composites
This review explores how textile waste -- millions of tons discarded annually -- contributes to pollution in air, water, and soil, even when disposed of in landfills. The paper discusses ways to repurpose waste textiles from materials like polyester and nylon into useful products for construction, insulation, and agriculture. This is relevant to microplastic concerns because synthetic textiles are one of the largest sources of microfiber pollution, and finding ways to recycle them reduces the microplastics released into the environment.