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61,005 resultsShowing papers similar to Distribution characteristics of microplastics in wastewater treatment plants in mega cities–the case study of Chengdu City
ClearEffects of different treatment processes in four municipal wastewater treatment plants on the transport and fate of microplastics
Researchers investigated microplastic transport and fate across four municipal wastewater treatment plants in southeastern China, finding that different treatment processes varied in their microplastic removal efficiency, with fibers and fragments as the dominant types.
Study of occurrence, abundance, and characterization of microplastics in wastewater treatment plant in New Delhi, India
Researchers quantified microplastic prevalence in influent, treated effluent, and sludge from a wastewater treatment plant in New Delhi, finding that MPs are present throughout the treatment process and that the plant incompletely removes them, discharging MPs into receiving waters.
[Characterization of Microplastic Removal Rate Variation in the Whole Process of Urban Wastewater Plant with Conventional Oxidation Ditch Process].
Researchers characterized microplastic removal rates across each treatment stage of an urban wastewater treatment plant in Handan, northern China, using a conventional oxidation ditch process, finding that WWTPs are major conduits for MPs entering natural water bodies and identifying which treatment steps achieve the greatest removal.
Microplastics removal in wastewater treatment plants: a critical review
This critical review of microplastic removal in wastewater treatment plants examines removal efficiencies across different treatment stages, finding that while WWTPs remove the majority of microplastics from influent, they still release millions of particles daily and are a major pathway for microplastics entering aquatic environments.
Toward a Better Understanding of the Contribution of Wastewater Treatment Plants to Microplastic Pollution in Receiving Waterways
This review examines how wastewater treatment plants (WWTPs) contribute to microplastic pollution in receiving waterways, synthesizing evidence on removal efficiencies of different treatment stages and the characteristics of microplastics that escape into the environment. Researchers found that while WWTPs remove the majority of incoming microplastics, they remain a significant source of microplastic discharge due to the large volumes of wastewater processed daily.
Distribution and occurrence of microplastics in wastewater treatment plants
Researchers investigated microplastic distribution in three industrial wastewater treatment plants in Vietnam, finding average removal efficiencies of only 21-26%, with billions of microplastic particles discharged daily into receiving waters from the largest plant.
A global review of microplastics in wastewater treatment plants: Understanding their occurrence, fate and impact
A global review of 121 wastewater treatment plants found that microplastics are consistently present in both influent and effluent, with WWTPs acting as major conduits delivering plastics into aquatic and terrestrial ecosystems. While removal efficiencies varied widely, the sludge produced by these plants represents a concentrated secondary pathway for microplastic release to land.
Abundance and removal characteristics of microplastics at a wastewater treatment plant in Zhengzhou
Researchers investigated microplastic abundance and removal efficiency across treatment stages at a wastewater treatment plant in Zhengzhou, China, sampling sewage at each processing section to track migration and fate of microplastics. The study characterized removal rates and identified which treatment stages were most effective at capturing microplastic contaminants.
Abundance and characteristics of microplastics in municipal wastewater treatment plant effluent: a case study of Guangzhou, China
This study quantified microplastics in the effluent of a large wastewater treatment plant in Guangzhou, China, finding that the plant releases hundreds of millions of microplastic particles per day despite removing most particles during treatment. Even highly efficient wastewater treatment plants are a significant ongoing source of microplastics entering rivers and coastal waters.
Occurrence Characterization and Contamination Risk Evaluation of Microplastics in Hefei’s Urban Wastewater Treatment Plant
Researchers characterized microplastic contamination at various stages of a wastewater treatment plant in Hefei, China, under both dry and rainy weather conditions. They found that while the treatment process removed a significant portion of microplastics, notable amounts still passed into the effluent, with rain increasing contamination levels. The study provides a detailed assessment of how effectively current wastewater treatment technology handles microplastic pollution.
Influence of wastewater treatment process on pollution characteristics and fate of microplastics
Researchers investigated microplastic abundance and removal efficiency across four wastewater treatment plants using different treatment technologies, finding influent concentrations between 539 and 1,290 particles per liter that were reduced substantially by primary and secondary treatment. Smaller microplastic particles proved hardest to remove and most likely to persist in final effluent.
Occurrence and Characteristics of Microplastics in a Wastewater Treatment Plant
Researchers sampled the inflow, outflow, and sludge of a Chinese wastewater treatment plant, finding up to 44 microplastic particles per liter in incoming water — mostly polyester fibers. The plant removed about 96% of microplastics, but the remaining fraction was still discharged into receiving waterways.
Occurrence and Removal of Microplastics in Tertiary Wastewater Treatment Plants: A Case Study of Three Plants in Zhengzhou, China
Researchers studied microplastic occurrence and removal efficiency at three wastewater treatment plants in Zhengzhou, China. The study found influent concentrations ranging from 147 to 289 particles per liter, with removal efficiencies between 76% and 91%, indicating that while treatment plants significantly reduce microplastic levels, substantial quantities still pass through to receiving waters.
Where do they go? A review of the wastewater treatment process and its impact on the fate of microplastics
This review examines the fate of microplastics across the physical, chemical, and biological stages of wastewater treatment plant (WWTP) processes, finding that WWTPs act as both sources and destinations for microplastics while not being designed to remove them, and surveying new removal strategies.
Microplastic abundance, characteristics, and removal in wastewater treatment plants in a coastal city of China
Researchers studied microplastic contamination across seven wastewater treatment plants in the coastal Chinese city of Xiamen and found that while treatment removed the vast majority of particles, the remaining microplastics still entered coastal waters in significant quantities due to high effluent volumes. Fibers and fragments were the most common microplastic types detected. The study underscores that wastewater treatment plants are both a barrier to and a source of marine microplastic pollution.
[Whole Process Analysis and Fate Behavior of Microplastics in Urban Wastewater Treatment Plants, Including their Occurrence Forms, Components, and Removal Efficiency].
A full-process analysis at a wastewater treatment plant in Hohhot, China found that fibrous microplastics were most abundant, accounting for 61.8 percent of total particles, with particle size and abundance changing across treatment stages. The study maps how microplastics migrate and what fraction is removed by each treatment step.
Spatiotemporal Distribution Characteristics and Removal Efficiency of Microplastics in a Wastewater Treatment Plant
Researchers examined microplastic removal efficiency across three seasons at a wastewater treatment plant in Zhengzhou, China, sampling influent, process effluent, and final effluent. They found an overall removal efficiency of 86%, with polypropylene and polyethylene terephthalate as the dominant polymer types and fragment- and granule-shaped particles comprising over 80% of microplastics detected.
Effectiveness of conventional municipal wastewater treatment plants in microplastics removal: Insights from multiple analytical techniques
Researchers evaluated the effectiveness of conventional municipal wastewater treatment plants in removing microplastics across multiple treatment stages, finding removal efficiencies of 70–90% but documenting that billions of particles still pass through in final effluent daily.
Challenges and Fate of Microplastics in Wastewater Treatment Processes
This review examines the challenges microplastics (MPs) pose within wastewater treatment processes (WWTPs), noting that WWTPs can act as both sinks and secondary sources of MP contamination in water bodies. The authors survey various treatment approaches and their effectiveness in capturing MPs before effluent discharge.
Microplastic removal efficiency in a megacity water treatment plant and dynamics in the distribution system
This study tracked microplastics through a megacity drinking water treatment plant and urban distribution network, finding significant MP removal through treatment but detecting residual contamination in distributed water, raising public health concerns in rapidly growing urban areas.
Characteristics and removal efficiency of microplastics in sewage treatment plant of Xi'an City, northwest China
Researchers systematically tracked microplastic transport, characteristics, and removal through both the sewage and sludge treatment streams of a Chinese wastewater treatment plant. The study found that while most microplastics were removed from effluent, substantial quantities accumulated in sludge.
Transport and fate of microplastic particles in wastewater treatment plants
Researchers tracked microplastic particles through multiple stages of a wastewater treatment plant, finding that particles were concentrated in sludge but that a fraction passed through each treatment stage and remained in the final effluent.
Removal of microplastics via wastewater treatment plants in india: Current knowledge and future directions: a review
This review assessed the capacity of wastewater treatment plants in India to remove microplastics, summarizing current knowledge on treatment efficiency, polymer types retained versus discharged, and the role of sludge as a secondary contamination pathway. The review found that Indian WWTPs remove a large fraction of incoming microplastics but still release particles into receiving water bodies, and identified priority research needs.
Removal of microplastics via wastewater treatment plants in india: Current knowledge and future directions: a review
This review examined the capacity of wastewater treatment plants in India to remove microplastics, synthesizing current knowledge on removal efficiencies and identifying major knowledge gaps and future research priorities. While WWTPs remove a substantial fraction of incoming microplastics, effluents still discharge particles into receiving water bodies, and sludge represents a concentrated secondary contamination pathway.