We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Papers
61,005 resultsShowing papers similar to Advanced electrocatalytic redox processes for environmental remediation of halogenated organic water pollutants
ClearRemoval of Organic Micro-Pollutants from Wastewater in Electrochemical Processes—Review
This review summarized electrochemical methods for removing organic micropollutants from wastewater, covering advanced oxidation and photochemical processes and their effectiveness against compounds resistant to conventional biological treatment.
The Application of Electrochemical Methods in Water Treatment
This review examines electrochemical methods for water treatment, covering electrocoagulation, electrooxidation, and electrodeposition processes and their applications for removing heavy metals, organic pollutants, and emerging contaminants including microplastics from water.
Application of Electrochemical Oxidation for Water and Wastewater Treatment: An Overview
This review covers electrochemical oxidation, an advanced water treatment method that uses electricity to break down stubborn pollutants in wastewater. The technique can remove pharmaceuticals, dyes, and other persistent chemicals that standard treatment misses. While not specifically about microplastics, this type of advanced treatment technology is relevant to addressing the growing problem of emerging contaminants in drinking water.
Waves of change: Electrochemical innovations for environmental management and resource recovery from water – A review
This review covers recent advances in electrochemical technologies for environmental management and water resource recovery. Researchers highlighted how electrochemical methods can effectively target emerging water contaminants including heavy metals, pharmaceuticals, and microplastics. The study suggests that these innovative approaches offer promising solutions for removing microplastics and other pollutants from water treatment systems.
Electrochemical remediation of microplastics: Progress and prospects in water treatment
This review examines electrochemical methods for removing microplastics from water, including electrocoagulation, electro-oxidation, and the electro-Fenton process. Evidence indicates that electro-oxidation can achieve removal rates as high as 99 percent under optimized conditions. The study highlights these techniques as promising alternatives for water treatment but calls for further research to scale them up for real-world applications.
Electrochemical treatment of wastewater to remove contaminants from the production and disposal of plastics: a review
Researchers reviewed electrochemical treatment methods for removing plastic-related contaminants from wastewater, including bisphenol A, phthalic acid esters, and benzotriazoles. The review confirmed that electrochemical treatments are a viable option for removing these persistent plastic contaminants, and assessed their effectiveness in terms of removal rates, transformation products, toxicity, and energy requirements.
Electrochemical Technologies for the Abatement of Endocrine Disrupting Compounds
This review examines electrochemical technologies including electrochemical oxidation, electro-Fenton, and electrocoagulation as methods for removing endocrine disrupting compounds from wastewater that conventional treatment fails to adequately address. Researchers found that these techniques offer rapid and efficient degradation of recalcitrant organic pollutants with minimal chemical inputs, though high electrode costs and energy demands remain barriers to large-scale application.
Green Hydrogen Peroxide: Advances of Electrocatalytic Generation and Applications in High‐Value Chemical Conversion
This review examines advances in electrocatalytic generation of hydrogen peroxide as an environmentally friendly oxidant for green chemistry applications, including water treatment processes that can degrade microplastics and other persistent organic pollutants.
The Degradation of Polycyclic Aromatic Hydrocarbons by Biological Electrochemical System: A Mini-Review
This review examines how biological electrochemical systems can be used to break down polycyclic aromatic hydrocarbons, persistent pollutants commonly found in water and sediments. Researchers found that these systems offer an energy-efficient and environmentally friendly approach to degrading these harmful compounds. The study outlines promising directions for scaling up this technology to address real-world contamination.
New Advances in Bioelectrochemical Systems in the Degradation of Polycyclic Aromatic Hydrocarbons: Source, Degradation Pathway, and Microbial Community
This review examined how bioelectrochemical systems can degrade polycyclic aromatic hydrocarbons, persistent pollutants found alongside microplastics in contaminated environments. Researchers found that these systems combine biological metabolism with electrochemical processes to break down pollutants while recovering energy. The study highlights an emerging technology that could simultaneously address multiple types of environmental contamination.
Application of Electrochemical Oxidation for Water and Wastewater Treatment: An Overview
This review covered electrochemical oxidation technologies for water and wastewater treatment, discussing their effectiveness against emerging pollutants, dyes, and chemicals while highlighting operational parameters that influence treatment efficiency.
Emerging electrochemical techniques for identifying and removing micro/nanoplastics in urban waters
This review examines emerging electrochemical techniques for detecting and removing micro- and nanoplastics from urban waters, highlighting their advantages over conventional methods for enabling real-time monitoring and efficient degradation.
Total organic halogen (TOX) in treated wastewaters: Method development and comparison with target analysis
Researchers developed a method to measure total organic halogen (TOX) compounds in treated wastewater, which contains thousands of poorly removed chemicals. The new method detected a broader range of halogenated contaminants than standard target analysis. This tool can help identify emerging chemical pollutants in wastewater effluents before they reach the environment.
Electrochemical degradation of nanoplastics in water: Analysis of the role of reactive oxygen species
Researchers investigated electrochemical methods for degrading nanoplastics in water and analyzed the role of different reactive oxygen species in the process. They found that the electro-peroxidation process was about 2.6 times more effective than standard electrooxidation, achieving up to 86.8% nanoplastic degradation under optimized conditions. The study presents a promising advanced treatment approach for addressing nanoplastic contamination in water.
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.
Critical assessment of advanced oxidation processes and bio-electrochemical integrated systems for removing emerging contaminants from wastewater
This review assesses advanced oxidation processes and bioelectrochemical systems for removing emerging contaminants such as personal care products, antibiotics, and endocrine-disrupting chemicals from wastewater. The study evaluates integrated treatment approaches for addressing these difficult-to-remove pollutants.
Treatment of Monochlorobenzene from Polymers Process through Electrochemical Oxidation
Researchers investigated electrochemical oxidation for treating monochlorobenzene, a toxic industrial byproduct from polymer manufacturing that is widely used in chemical production. The study characterized the degradation efficiency and conditions needed to effectively remove this persistent chlorinated organic compound from industrial effluent.
Análise da combinação das tecnologias de adsorção em carvão ativo granular e oxidação eletroquímica para o tratamento de efluentes contaminados com benzeno
Researchers investigated the combination of granular activated carbon adsorption and electrochemical oxidation for treating wastewater contaminated with benzene and other volatile organic compounds, finding that pairing adsorption with electrochemical methods improved removal efficiency for contaminants present at low concentrations.
Emerging organic pollutants in aqueousenvironments: Detection, monitoring, andremoval techniques
This review covers detection, monitoring, and removal techniques for emerging organic pollutants in aquatic environments, including microplastics, surveying analytical advances and treatment technologies developed over recent decades.
Prospects of Novel Technologies for PFAS Destruction in Water and Wastewater
This review examines novel technologies for permanently destroying per- and polyfluoroalkyl substances (PFAS) in water and wastewater, critically evaluating advanced oxidation, electrochemical, and thermally driven approaches capable of breaking the extremely strong C-F bond to fully mineralize these persistent pollutants.
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.
The efficacious of AOP-based processes in concert with electrocoagulation in abatement of CECs from water/wastewater
Researchers reviewed how combining electrocoagulation — an electrical water-cleaning method — with advanced oxidation processes like ozone, UV light, and Fenton reactions can dramatically improve the removal of hard-to-treat contaminants from water and wastewater. While these hybrid systems show strong results in the lab, the review notes that data for real-world industrial-scale applications, particularly for microplastics and pesticides, remains limited.
Electrochemical Ammonia Oxidation in Water Treatment: A Comprehensive Review on Mechanisms, Catalysts, and Implementation Challenges
This review examines electrochemical ammonia oxidation as an emerging water treatment technology, covering both direct oxidation on electrode surfaces and indirect oxidation mediated by reactive chlorine species. The study evaluates catalyst design, environmental factors affecting performance, and implementation challenges for treating ammonia-rich wastewater, which is relevant to managing pollutant-contaminated water systems.
Electrochemical Oxidation of Selected Micropollutants from Environment Matrices Using Boron-Doped Diamond Electrodes: Process Efficiency and Transformation Product Detection
This study applied electrochemical oxidation to degrade selected micropollutants from real environmental water matrices, evaluating electrode materials and operating conditions. The approach achieved high removal efficiency for persistent contaminants that resist conventional wastewater treatment.