Add to ORKGThe electrochemical removal of an aqueous solution containing 0.25 mM of methylene blue (MB), one of the most important thiazine dye, has been investigated by electro-Fenton process using a graphite-felt cathode to electrogenerate in situ hydrogen peroxide and regenerate ferrous ions as catalyst. The effect of operating conditions such as applied current, catalyst concentration, and initial dye content on MB degradation has been studied. MB removal and mineralization were monitored during the electrolysis by UV\u2013Vis analysis and TOC measurements. The experimental results showed that MB was completely removed by the reaction with \u2022OH radicals generated from electrochemically assisted Fenton\u2019s reaction, and in any conditions the...
International audienceAn environmentally friendly electrochemical treatment, electro-Fenton process,...
The mineralization of a new azo dye - the (4-amino-3-hydroxy-2-p-tolylazo-naphthalene-1-sulfonic aci...
Azo dyes are a major environmental concern due to the presence of benzene rings in their structure. ...
The main goal of this article is to study a bipolar electro-Fenton process using stainless steel mes...
The electrochemical removal of a synthetic solution containing 190 mg L 121 of Novacron Blue (NB) d...
Textile industries generate large volumes of wastewater containing organic dyes, which may be hazard...
In this work, an RVC electrode coated with magnetic iron oxide nanoparticles was used for the degrad...
Electro-Fenton process was applied in the degradation of the textile dye C. I. Direct Red 80 (DR80),...
The textile and paper industries require large volumes of water and produce effluents that contain l...
This paper describes the removal of methyl...
International audienceThe coupling of an electrochemical process with a biological treatment for the...
Background and Objectives: Synthetic dyes represent one of the largest groups of pollutants in waste...
International audienceThe aim of this study was to examine the feasibility of combining an electro-F...
The textile industry is one of the fastest-growing industries that significantly contribute to the e...
Oxidative treatment of a cationic dye solution, methylene blue, was investigated using magnetite nan...
International audienceAn environmentally friendly electrochemical treatment, electro-Fenton process,...
The mineralization of a new azo dye - the (4-amino-3-hydroxy-2-p-tolylazo-naphthalene-1-sulfonic aci...
Azo dyes are a major environmental concern due to the presence of benzene rings in their structure. ...
The main goal of this article is to study a bipolar electro-Fenton process using stainless steel mes...
The electrochemical removal of a synthetic solution containing 190 mg L 121 of Novacron Blue (NB) d...
Textile industries generate large volumes of wastewater containing organic dyes, which may be hazard...
In this work, an RVC electrode coated with magnetic iron oxide nanoparticles was used for the degrad...
Electro-Fenton process was applied in the degradation of the textile dye C. I. Direct Red 80 (DR80),...
The textile and paper industries require large volumes of water and produce effluents that contain l...
This paper describes the removal of methyl...
International audienceThe coupling of an electrochemical process with a biological treatment for the...
Background and Objectives: Synthetic dyes represent one of the largest groups of pollutants in waste...
International audienceThe aim of this study was to examine the feasibility of combining an electro-F...
The textile industry is one of the fastest-growing industries that significantly contribute to the e...
Oxidative treatment of a cationic dye solution, methylene blue, was investigated using magnetite nan...
International audienceAn environmentally friendly electrochemical treatment, electro-Fenton process,...
The mineralization of a new azo dye - the (4-amino-3-hydroxy-2-p-tolylazo-naphthalene-1-sulfonic aci...
Azo dyes are a major environmental concern due to the presence of benzene rings in their structure. ...