![Catalytic oxidation of anionic surfactants by electrochemical oxidation with CuO-Co"2O"3-PO"4^3^- modified kaolin [An article from: Journal of Hazardous Materials]](https://www.ebooknetworking.net/books/B00/0PA/bigB000PAUAI2.jpg)
Catalytic oxidation of anionic surfactants by electrochemical oxidation with CuO-Co"2O"3-PO"4^3^- modified kaolin [An article from: Journal of Hazardous Materials]
Book Details
Author(s)L. Gu, B. Wang, H. Ma, W. Kong
PublisherElsevier
ISBN / ASINB000PAUAI2
ISBN-13978B000PAUAI2
MarketplaceIndia 🇮🇳
Description
This digital document is a journal article from Journal of Hazardous Materials, published by Elsevier in 2006. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.
Description:
A new catalytic oxidation of anionic surfactants by electrochemistry method was designed and used to investigate the removal of anionic surfactant from simulated wastewater. Synergetic effect on COD removal was studied when integrating the electrochemical reactor, using porous graphite as anode and cathode, with the effective CuO-Co"2O"3-PO"4^3^- modified kaolin catalyst in a single undivided cell. The result showed that this combined process could effectively remove anionic surfactant. Its COD removal efficiency was much higher than those individual processes and could reach up to 90% in 60min. The operating parameters such as initial pH, cell voltage, and current intensity were also investigated. Possible theory for COD removal was also proposed to predict the role of modified kaolin, electro-catalysis and oxidation in the combined process. The pollutants in wastewater could be decreased by the high reactive OH? that produced on the surface of catalyst by the decomposition of electrochemical generated H"2O"2. The result indicates that the catalytic oxidation by electrochemistry method is a promising wastewater treatment technique.
Description:
A new catalytic oxidation of anionic surfactants by electrochemistry method was designed and used to investigate the removal of anionic surfactant from simulated wastewater. Synergetic effect on COD removal was studied when integrating the electrochemical reactor, using porous graphite as anode and cathode, with the effective CuO-Co"2O"3-PO"4^3^- modified kaolin catalyst in a single undivided cell. The result showed that this combined process could effectively remove anionic surfactant. Its COD removal efficiency was much higher than those individual processes and could reach up to 90% in 60min. The operating parameters such as initial pH, cell voltage, and current intensity were also investigated. Possible theory for COD removal was also proposed to predict the role of modified kaolin, electro-catalysis and oxidation in the combined process. The pollutants in wastewater could be decreased by the high reactive OH? that produced on the surface of catalyst by the decomposition of electrochemical generated H"2O"2. The result indicates that the catalytic oxidation by electrochemistry method is a promising wastewater treatment technique.
