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61,005 resultsShowing papers similar to Eco-friendly microplastic removal through physical and chemical techniques: a review
ClearInnovative Approaches to Mitigating Microplastic Pollution in Effluents and Soils
This review critically analyzed innovative approaches for removing microplastics from effluents and soils, comparing conventional techniques like filtration and coagulation with emerging technologies. Researchers found that while traditional methods show some effectiveness, advanced approaches including membrane bioreactors, electrocoagulation, and bioremediation offer improved removal rates and sustainability for addressing microplastic pollution.
Microplastic removal via physical and chemical methods
This review chapter summarizes physical and chemical methods for removing microplastics from water environments, covering filtration, coagulation, and advanced oxidation processes. Effective removal technologies are critical for protecting human health and aquatic life from microplastic exposure.
Microplastics in complex soil matrix: Recovery, identification and removal using micro nano techniques
Researchers reviewed current methods for finding and removing microplastics from complex soil samples, noting that no single technique works well for all particle types, and proposed a step-by-step approach combining density separation, chemical purification, and photocatalytic degradation to better detect and eliminate soil microplastics.
Physical, thermal, chemical and biological approaches for plastics degradation–A review
Researchers reviewed physical, chemical, and biological methods for breaking down and removing microplastics from soil and water, covering everything from filtration and membranes to bacteria and fungi that digest plastic. Each method has trade-offs in effectiveness and cost, and the review concludes that combined, integrated approaches will likely be necessary for real-world cleanup.
Microplastic removal via physical and chemical methods
This review summarizes physical and chemical methods for removing microplastics from water, including filtration, coagulation, magnetic separation, and photocatalytic degradation. Improving removal efficiency is critical for protecting drinking water supplies and reducing the amount of microplastic that aquatic organisms and humans are exposed to.
Innovative Solutions for Soil Remediation from Microplastics Pollution
This book chapter surveys innovative remediation approaches for removing microplastics from contaminated soils, covering physical, chemical, and biological methods as well as novel technologies including nanomaterial-based adsorbents and electrochemical systems.
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.
Critical review of microplastics removal from the environment
This review evaluates technologies for removing microplastics from the environment, including physical methods like filtration, chemical treatments, and biological approaches using microorganisms. Each method has trade-offs between effectiveness, cost, and scalability, and no single technology can solve the problem alone. The authors emphasize that reducing human exposure to microplastics requires combining better removal technologies with policies that limit plastic production and waste at the source.
Removal technologies of microplastics in soil and water environments: review on sources, ecotoxicity, and removal technologies
This review covers the sources, toxic effects, and removal methods for microplastics in both soil and water environments. The authors found that while various treatment technologies exist, most are still in early stages and preventing microplastics from entering the environment in the first place may be more practical than trying to clean them up afterward. The review also notes that far fewer studies have examined microplastic toxicity in soil organisms compared to aquatic species, leaving a significant knowledge gap.
Chemical, physical, and biological techniques to remove microplastics
This review covers the chemical, physical, and biological techniques available for removing microplastics from the environment, comparing their effectiveness and practical limitations. Researchers found that while each approach has strengths, no single method is sufficient for complete removal across different environmental settings. The study suggests that combining multiple techniques offers the most promising path toward effective microplastic remediation.
Review of green technologies for the removal of microplastics from diverse environmental sources
This review surveys green technologies being developed to remove microplastics from water, soil, air, and biological systems. Researchers evaluate methods including bioremediation, advanced filtration, and electrochemical approaches as alternatives to conventional treatment. The study emphasizes the need for scalable, environmentally friendly removal technologies given the growing accumulation of microplastics across diverse ecosystems.
Removal of microplastics in water: Technology progress and green strategies
Researchers reviewed existing technologies for removing microplastics from water, including filtration, magnetic separation, chemical coagulation, and biodegradation. Each method has significant trade-offs — filtration is costly, chemical approaches risk secondary pollution, and biological methods are slow — pointing to the need for integrated, environmentally friendly strategies that combine multiple approaches.
A Review of Materials for the Removal of Micro- and Nanoplastics from Different Environments
This review evaluates methods for removing microplastics and nanoplastics from water, soil, and air, finding that traditional approaches like filtration work for larger particles but struggle with nanoscale plastics. Newer technologies like magnetic nanoparticles and photocatalysis show promise, but challenges remain in making these solutions affordable and scalable for real-world cleanup.
Microplastic and its effects on the environment
This review describes the formation of microplastics as degradation byproducts of plastic materials and examines their environmental distribution and ecological consequences, with a focus on physical, chemical, and biological removal methods from water and sediment. The authors also describe protocols for collecting, processing, and analyzing microplastic samples in aquatic environments.
Removal 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.
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.
Microplastic Pollution in the Environment: A Chemical Engineering Perspective on Sources, Fate, and Mitigation Strategies
This review examined microplastic pollution through a chemical engineering lens, analyzing the full contaminant lifecycle from formation and environmental transport to detection and removal. The authors synthesized conventional and advanced treatment technologies—including membrane filtration, photocatalysis, and electrocoagulation—evaluating their efficiency and scalability for environmental remediation.
A Cheap and Portable Solution for The Removal of Microplastics from Natural Waters
This paper reviews current and emerging strategies for removing microplastics from natural waters, including physical filtration, coagulation, magnetic separation, and biological approaches, evaluating their feasibility and limitations.
Soil Microplastic Pollution and its Remediation: An Overview
This overview reviews the scope of microplastic pollution in soils globally, summarizing contamination sources, effects on soil ecosystems, and available remediation strategies including physical, chemical, and biological approaches to address this emerging environmental problem.
Review of Techniques for the Detection, Removal, and Transformation of Environmental Microplastics and Nanoplastics
This review covers the latest methods for finding and removing microplastics from the environment, from microscope-based detection to chemical and biological cleanup approaches. Physical methods like filtration and magnetic separation can capture particles, while chemical techniques can actually break plastics down, and biological methods use living organisms to degrade them. The authors also highlight the promising possibility of converting captured microplastics into useful chemicals.
Technologies for Removal and Remediation of Microplastics
This book chapter reviews physical, chemical, biological, and hybrid technologies for removing microplastics from water, air, soil, and food environments. It systematically covers removal mechanisms and performance data for each technology type and discusses current limitations and future research directions.
The Effect of Microplastic Pollution on Soil, Plants and Soil Microbes and Its Remediation
This review summarized evidence for microplastic effects on soil properties, plant growth, soil microbes, and food safety, identifying microplastic pollution as a significant emerging threat to terrestrial ecosystems. The authors also reviewed bioremediation and physical removal strategies as potential remediation approaches.
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.
Removal of Microplastics from Wastewater by Methods of Electrocoagulation and Adsorption
This review examines electrocoagulation and adsorption methods for removing microplastics from wastewater, comparing them against conventional physical, chemical, and biological approaches in terms of removal efficiency, cost, and practical scalability.