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61,005 resultsShowing papers similar to Microplastics Degradation Technologies and Remediation Techniques from Aquatic Systems
ClearRemoval of Microplastic Contaminants from Aquatic Environment
This review examines technologies for removing microplastics from aquatic environments, covering physical, chemical, and biological treatment methods and their relative effectiveness. Identifying and improving removal strategies is urgent because microplastics are now found throughout drinking water sources, oceans, and freshwater systems, posing risks to wildlife and human health.
Microplastics: Identification, Toxicity and Their Remediation from Aqueous Streams
This review covers current methods for identifying microplastics, their toxicological effects on aquatic organisms and humans, and remediation strategies for removing microplastics from aqueous environments.
Microplastics in Aquatic Environments: Sources, Ecotoxicity, Detection & Remediation
This review provides a comprehensive overview of microplastic sources, ecotoxicity, detection methods, and remediation strategies in aquatic environments. Researchers found that microplastics act as carriers for toxic chemicals and pose threats to both marine and freshwater ecosystems as well as human health through drinking water exposure. The study highlights the need for improved detection technologies and effective remediation approaches to address this growing environmental challenge.
Removing microplastics from aquatic environments: A critical review
This review summarized current technologies for removing microplastics from aquatic environments, including adsorption, filtration, and degradation methods used in freshwater, marine, drinking water, and wastewater treatment systems, identifying key research gaps.
Microplastics in aquatic systems: An in-depth review of current and potential water treatment processes
This review provides a detailed examination of microplastic contamination in aquatic systems and evaluates current and emerging water treatment technologies for their removal. Researchers assessed methods ranging from conventional coagulation and filtration to advanced techniques like membrane bioreactors and electrochemical processes. The study concludes that while no single technology fully eliminates microplastics, combining multiple treatment approaches offers the most promising path forward.
Research Progress of Microplastics Removal Technology in Water Environment
This review examined recent advances in microplastic removal technologies for water environments, addressing the significant risks posed by MPs' widespread origins, inadequate control, and resistance to degradation. Various treatment technologies were assessed for their efficiency in eliminating microplastic pollution from water systems.
Microplastic contaminants in the aqueous environment, fate, toxicity consequences, and remediation strategies
This review covers the sources, fate, and toxic effects of microplastic contaminants in aquatic environments, along with current remediation strategies for removing them. Researchers found that microplastics cause various health problems in aquatic organisms and can enter the human food chain through contaminated seafood and water. The study emphasizes the urgent need for improved waste management and novel cleanup technologies to address microplastic pollution in water systems.
Microplastics in water: types, detection, and removal strategies
This review covers the different types of microplastics found in water, methods used to detect them, and strategies for removing them from water sources. Microplastics enter water systems from both industrial sources and the breakdown of larger plastic waste, posing threats to aquatic life and potentially human health. The authors evaluate removal techniques including filtration, chemical treatment, and biological approaches that could help clean contaminated water.
Microplastics remediation in aqueous systems: Strategies and technologies
This review assessed strategies and technologies for removing microplastics from aquatic environments, comparing coagulation-flocculation, membrane filtration, magnetic separation, photocatalysis, and biological degradation approaches in terms of efficiency, scalability, and cost for both wastewater and natural water treatment.
Advances in chemical removal and degradation technologies for microplastics in the aquatic environment: A review
This review summarizes recent advances in chemical methods for breaking down microplastics in water, comparing the effectiveness of various techniques including advanced oxidation processes. Developing better ways to destroy microplastics in water is important for public health because current wastewater treatment plants cannot fully remove these persistent particles before water reaches consumers.
Sources and Impacts of Microplastics in Aquatic Environment and Remediation Strategies
This review covers sources of microplastics in aquatic environments (degraded plastics, industrial processes, personal care products, textiles), their ecological and health impacts, and remediation strategies including filtration, bioremediation, and advanced oxidation processes.
Investigation of microplastics removal methods from aquatic environments
This review summarizes current methods for removing microplastics from water environments, including filtration, coagulation, biological degradation, and advanced oxidation. No single technique is fully effective, and the authors note that combining methods and improving wastewater treatment infrastructure is essential.
Microplastics toxicity, detection, and removal from water/wastewater
This review summarizes the current state of knowledge on microplastic toxicity and methods for detecting and removing them from water and wastewater. It covers the health risks posed by microplastics, including their ability to carry harmful chemicals and pathogens, as well as the strengths and weaknesses of various removal technologies. The authors highlight that while some treatment methods can remove most microplastics, no single approach is fully effective, and better solutions are needed to protect drinking water supplies.
Microplastics Removal Strategies in Aquatic Environments
This review examines and compares multiple strategies for removing microplastics from aquatic environments, including physical, physicochemical, and biological methods. Researchers found that each approach offers different trade-offs in removal efficiency and scalability, emphasizing the need for integrated treatment solutions given the global abundance of microplastics and their negative effects on aquatic ecosystems.
Microplastics in aquatic systems, a comprehensive review: origination, accumulation, impact, and removal technologies
This comprehensive review traced the sources of microplastics in aquatic environments, from industrial products and packaging to cosmetics and agricultural materials, and examined their toxic effects on living organisms. Researchers found that microplastics are remarkably stable and widespread, posing growing ecotoxicological risks to aquatic ecosystems. The study also evaluated current removal technologies, noting their advantages and limitations, and warns that without better strategies, microplastic pollution will become significantly worse in coming decades.
Microplastics in aquatic environments: A comprehensive review of toxicity, removal, and remediation strategies
This comprehensive review covers the toxicity of microplastics on aquatic life at every level of the food chain, from algae to fish, as well as current methods for removing microplastics from water. Treatment methods like filtration and electrocoagulation can remove over 86-90% of microplastics, but no single method eliminates them completely. The review highlights the urgent need for better water treatment to protect both aquatic ecosystems and the humans who rely on them for food and water.
A comprehensive review of microplastics in wastewater treatment plants
This review surveys microplastic removal technologies used in wastewater treatment plants, comparing membrane bioreactors, electrocoagulation, coagulation-sedimentation, and biodegradation approaches. Understanding removal efficiency at treatment plants is critical because they are a primary pathway by which microplastics — and the toxic chemicals they carry — reach rivers, coastal waters, and ultimately drinking water supplies.
Treatment Methods and Hazards Analysis of Microplastics in the Aquatic Environment
This review compares the potential hazards of microplastics in aquatic environments — including threats to wildlife, ecosystems, and human health — against available treatment methods such as filtration, coagulation, and biological degradation. It also contrasts policy approaches across different countries, offering a framework for selecting appropriate remediation strategies.
The fate of microplastics in wastewater treatment plants: An overview of source and remediation technologies
This review examines how wastewater treatment plants serve as key pathways for microplastic entry into the environment, analyzing removal efficiencies across different treatment stages and identifying advanced technologies for improved microplastic remediation.
Selection of engineered degradation method to remove microplastics from aquatic environments
This review evaluates engineered degradation methods developed to remove microplastics from aquatic environments, addressing the difficulty of natural breakdown due to plastic hydrophobicity and chemical stability. The authors compare physical, chemical, photocatalytic, and biological methods, providing a framework for selecting the most appropriate degradation approach based on particle type, concentration, and treatment context.
Emerging Technology and Trends to Remove Micro- and Nanoplastics in Aquatic Media
Scientists reviewed 38 technologies designed to remove tiny plastic particles (called microplastics and nanoplastics) from water sources like rivers, lakes, and oceans. These microscopic plastic pieces can end up in our drinking water and food chain, potentially affecting human health. The researchers found that while many removal technologies exist, most are still being tested and need more development and funding to work on a large scale.
Microplastics in Wastewater Treatment Plants: Characteristics, Occurrence and Removal Technologies
This review summarizes how wastewater treatment plants are a major pathway for microplastics entering the environment, covering the types, sizes, and sources of microplastics found in wastewater. While treatment plants can remove many microplastics, significant amounts still escape into rivers and oceans through treated water and sludge. The authors evaluate various removal technologies and recommend advanced treatment methods to better prevent microplastics from reaching water supplies.
Treatment technologies for the removal of micro plastics from aqueous medium
Researchers reviewed treatment technologies for removing microplastics from water, finding that while multiple methods including filtration, membrane processes, and coagulation show promise, their effectiveness depends on microplastic size, type, and concentration.
Analytical techniques and integrated microbial remediation of microplastic from aquatic system
This review examines analytical techniques for detecting microplastics in environmental samples alongside integrated microbial remediation strategies for MP degradation, evaluating the state of both monitoring and bioremediation technologies for addressing the global MP contamination problem.