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61,005 resultsShowing papers similar to In-situ electrochemical oxidation: a revolutionary approach to degrading synthetic microfibers in laundry effluent
ClearIn-situ electrochemical oxidation: a revolutionary approach to degrading synthetic microfibers in laundry effluent
Researchers developed an in-situ electrochemical oxidation technique to degrade synthetic microfibers directly from washing machine effluent, eliminating the need for consumable mechanical filters that generate secondary waste. The method achieved effective microfiber degradation at the source without producing additional solid waste streams.
Remediation technology of microfibers from washing machine effuents
Researchers developed a treatment method combining Fenton oxidation and electro-sorption to remove polyester microfibers from washing machine wastewater. Washing synthetic clothing is a major source of microplastic fiber pollution, and effective wastewater treatment at the machine level could significantly reduce this pathway into aquatic environments.
Identification, removal of microplastics and surfactants from laundry wastewater using electrocoagulation method
Laundry wastewater from a 2 kg synthetic fabric load released up to 114,300 microfibers per wash, and an electrocoagulation treatment removed roughly 98% of those fibers along with surfactants and organic load in about 25 minutes at a cost of US$0.53 per cubic meter. The results highlight both how significant laundry is as a microplastic source and that electrocoagulation is a cost-effective option for treating it before wastewater reaches natural waterways.
Improvement of a microfiber filter for domestic washing machines
Researchers improved a microfiber filter designed for domestic washing machines to more effectively capture synthetic microfibers and microplastics released during laundry cycles, testing filter performance across different fabric types and washing conditions. The enhanced filter design achieved higher capture rates of microfibers compared to existing solutions, representing a practical household-level intervention to reduce microplastic emissions to wastewater.
Evaluation of MiniPlast Filters for Microplastic Removal from Laundry Wastewater
Researchers evaluated MiniPlast in-washing machine filters for capturing synthetic microfibers released during laundry cycles, finding that the filters significantly reduced microplastic emissions in wastewater and could serve as a practical household intervention for reducing microfiber pollution.
Removal of Microfiber from Laundry Wastewater Using the Electrocoagulation Method
Researchers investigated microfiber release from laundry wastewater and found a reference load of 2.5 L of synthetic textiles released approximately 92,700-114,300 synthetic microfibers. Electrocoagulation treatment at neutral pH, 25-minute operating time, and 300 A/m² current density achieved 97.9% microfiber removal efficiency at a treatment cost of US$0.53/m³.
Promoting degradation of polyamide-microplastic fibers using hydroxy radical
Researchers found that hydroxyl radicals generated in water can degrade polyamide microplastic fibers shed from synthetic textiles. This approach offers a potential chemical treatment pathway for removing synthetic fiber microplastics from laundry wastewater before they reach waterways.
Promoting Degradation of Polyamide-Microplastic Fibers Using Hydroxy Radical Generated by Electrochemical Advanced Oxidation Processes
Researchers demonstrated that hydroxyl radicals generated through electrochemical processes can degrade polyamide (nylon) microplastic fibers significantly faster than biological methods — reducing fiber diameter by nearly 14% and toughness by almost 79% within 12 hours. Chemical analysis confirmed that the hydroxyl radicals cleave the amide bonds in nylon, breaking the polymer into shorter compounds. This offers a promising wastewater treatment approach for removing synthetic microfibers released during textile washing, which currently pass through conventional sewage treatment plants largely intact.
Novel Treatment to Immobilize and Use Textiles Microfibers Retained in Polymeric Filters through Their Incorporation in Composite Materials
Researchers developed a novel method to immobilize textile microfibers captured in polymeric washing machine filters by incorporating them into composite polymer matrices, transforming a waste microplastic stream into a potentially reusable construction or industrial material rather than releasing it to the environment.
Development and Efficiency Evaluation of Microplastic Removal Filter for Laundry Machines
Researchers developed a four-stage filter for laundry machines designed to capture microplastics released during washing. Over 50 tests, the filter achieved an average microplastic removal rate of 98.5%, along with 92% removal of chemical oxygen demand. The most common microplastics in laundry wastewater were polyethylene (57%), followed by PET and nylon, highlighting both the scale of laundry-related microplastic pollution and the effectiveness of filtration solutions.
Textile microfibers reaching aquatic environments: A new estimation approach
Researchers developed a new estimation approach for quantifying the mass flow of textile microfibers from household laundry that ultimately reaches aquatic environments, addressing the absence of accurate models for assessing microfiber contributions to microplastic pollution. The method provides a more systematic framework for estimating the environmental load from domestic washing.
Capturing microfibers – marketed technologies reduce microfiber emissions from washing machines
Researchers tested three commercially available microfiber capture devices installed in washing machines and found that they significantly reduced the number and mass of microfibers released in laundry effluent. The results support the potential of in-machine filtration as a practical intervention to reduce microfiber pollution from domestic laundering.
Comparative Analysis of Electrochemical Oxidation and Biodegradation for Microplastic Removal in Wastewater
Researchers compared electrochemical oxidation and biodegradation for removing polystyrene microplastics from wastewater, finding that electrochemical oxidation achieved superior removal efficiency and could serve as a more effective treatment pathway at wastewater treatment plants.
Nanoplastics removal from spiked laundry wastewater using electro-peroxidation process
Researchers tested an electro-peroxidation process for removing nanoplastics from laundry wastewater and found it achieved complete removal in as little as 40 minutes. The naturally occurring chloride ions in laundry water actually accelerated the breakdown of nanoplastics during treatment. The study demonstrates a promising and efficient method for addressing nanoplastic pollution from one of its most common household sources.
Sensitive quantification and morphological analysis of microfibers in laundry wastewater: Standardization and validation of a fluorescence-based method
Synthetic microfibers shed during laundry make up a large share of microplastics found in aquatic environments, but accurately counting them in wastewater has been technically inconsistent between labs. This study standardized and validated a fluorescence-based staining method for quantifying microfibers in laundry effluent, making it faster and more accessible than conventional spectroscopic approaches. A validated standard method is critical for generating comparable data across studies and informing regulations on microfiber pollution from washing machines.
Synthetic microfibers: Pollution toxicity and remediation
Researchers reviewed the sources, transport pathways, ecological impacts, and remediation approaches for synthetic microfiber pollution originating from domestic washing machines. The study highlights that urban laundry wastewater is a major contributor to microfiber pollution entering aquatic and terrestrial environments, with potential effects on the food chain and human health.
Upcycling textile derived microplastics waste collected from washer and dryers to carbonaceous products using hydrothermal carbonization
Researchers collected real textile microfiber waste from washing machine and dryer microfilters and converted it to carbon materials using hydrothermal carbonization at different temperatures and durations. The resulting carbonaceous products showed promising properties as adsorbents and electrode materials, offering a pathway to upcycle laundry-derived microplastic waste into functional materials.
Efficient Filtration Systems for Microplastic Elimination in Wastewater
Synthetic microfibers and microplastic particles released during industrial laundry processes are a significant but under-addressed source of water pollution. This study designed a three-stage textile cascade filter system capable of capturing microplastic particles down to 1.5 micrometers from laundry wastewater, achieving high removal efficiency using progressively finer polypropylene filter media. The approach offers a practical engineering solution for reducing microplastic discharge from commercial laundries before it reaches waterways.
Sustainable Filtering Systems to Reduce Microfiber Emissions from Textiles during Household Laundering
This study evaluated sustainable filtration systems for capturing microfibers released from synthetic textiles during household washing, assessing their efficiency in reducing the entry of these microplastic fibers into wastewater.
Removal of textile microplastic fibers from water by photo-Fenton oxidation
A photo-Fenton oxidation process was tested for removing textile-derived microplastic fibers from water, achieving high removal rates under optimized conditions. The study offers a viable advanced treatment option for the challenging problem of fiber microplastics shed from laundry.
Approaches for Sampling and Sample Preparation for Microplastic Analysis in Laundry Effluents
Researchers reviewed sampling and sample preparation methods for analyzing microplastics in laundry effluents. The study highlights the lack of standardized methods for quantifying textile fiber microplastics released during washing and emphasizes the need for consistent analytical approaches to better understand this significant source of microplastic pollution.
Electro-coagulation technique using iron [Fe] and aluminium [Al] for microplastics removal from fashion industry wastewater, Thailand
Laboratory tests showed that electrocoagulation — running electrical current through iron and aluminum electrodes — can remove microplastics from textile industry wastewater in Thailand with high efficiency. Because conventional wastewater treatment plants were not designed to capture particles as small as microplastics, electrochemical methods like this represent a promising upgrade to reduce the millions of microplastic particles released daily from textile factories.
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.
A novel methodology to study the release of fragmented fibres, including microplastics, in laboratory washing conditions
Scientists developed a new way to study how tiny plastic fibers break off from clothes during washing and end up polluting our water. This research method lets them watch exactly how fibers tear away from fabrics in real-time, which could help us understand and reduce microplastic pollution from laundry. Understanding this process is important because these microscopic plastic fibers can end up in our drinking water and food chain.