Electro-Fenton Process, 1st ed. 2018
New Trends and Scale-Up
The Handbook of Environmental Chemistry Series, Vol. 61

This volume discusses the theoretical fundamentals and potential applications of the original electro-Fenton (EF) process and its most innovative and promising versions, all of which are classified as electrochemical advanced oxidation processes. It consists of 15 chapters that review the latest advances and trends, material selection, reaction and reactor modeling and EF scale-up. It particularly focuses on the applications of EF process in the treatment of toxic and persistent organic pollutants in water and soil, showing highly efficient removal for both lab-scale and pre-pilot setups. Indeed, the EF technology is now mature enough to be brought to market, and this collection of contributions from leading experts in the field constitutes a timely milestone for scientists and engineers.

Electro-Fenton Process: Fundamentals and Reactivity.- Bio-electro-Fenton: A New Combined Process. Principles and Applications.- The Electro-peroxone Technology as a Promising Advanced Oxidation Process for Water and Wastewater Treatment.- Heterogeneous Electro-Fenton Process: Principles and applications.- Modified Cathodes with Carbon-Based Nanomaterials for Electro-Fenton Process.- Advances in carbon felt material for electro-Fenton process.- Cathode Modification to Improve Electro-Fenton Performance.- Conventional Reactors and Microreactors in Electro-Fenton.- Cost-Effective Flow-Through Reactor in Electro-Fenton.- Reactor Design for Advanced Oxidation Processes.- Modelling of Electro-Fenton Process.- Solar Assisted Electro-Fenton Systems for Wastewater Treatment.- Electro-Fenton Applications in the Water Industry.- The Application of Electro-Fenton Process for the Treatment of Artificial Sweeteners.- Soil Remediation by Electro-Fenton Process.

Minghua Zhou obtained his Ph.D. from Zhejiang University (China) in 2003, and then served there as an assistant and an associate professor from 2003 to 2006. After his postdoctoral research at the University of Sydney for two years, he was recruited as a full Professor by Nankai University in 2008. His research interests include water and wastewater treatment, environmental catalysis and materials, microbial fuel cells and advanced oxidation processes, particularly Electrochemical Advanced Oxidation Processes including electro-Fenton. He has published more than 150 scientific articles, 2 books and 3 book chapters. He is a member of the Editorial Board of several scientific journals, such as Separation Purification Technology.

Mehmet A. Oturan is currently Professor of Exceptional Class at the University Paris-Est and Head of the Environmental Chemistry group. His current research interests include advanced oxidation processes and particularly electrochemical advanced oxidation processes including electro-Fenton process of which he invented the “carbon-felt cathode” version and their application to wastewater treatment and soil remediation. He has supervised 41 PhD, published more than 180 scientific articles, 2 books and 8 book chapters and delivered more than 50 invited talks at national/international scientific congresses and at various institutions. His current h-index is 51 with total citation more than 8000 (Web of Science). He serves now as the Associate Editor of Environmental Chemistry Letters and Sustainable Environmental Research.

Ignasi Sirés obtained his Ph.D. in Chemistry from the Universitat de Barcelona (UB, Spain) in 2007. He also became a Materials Engineer (UB and the Universitat Politècnica de Catalunya). He was awarded the “Oronzio and Niccolò De Nora Foundation Prize in Environmental Electrochemistry” in 2010 (ISE), the “CIDETEC 2011 Prize for Young Researchers in Electrochemistry” (Spain) and the pre

Provides a comprehensive description of electro-Fenton-based processes within the framework of electrochemical advanced oxidation processes

Addresses both the fundamental and technological aspects of these processes

Describes various applications, including the coupling of the electro-Fenton process with other traditional or advanced physicochemical/biological processes

Constitutes a platform for addressing the most challenging issues and future prospects