"Providing a state-of-the-art overview on environmental applications of Advanced Oxidation Technologies (AOTs) as sustainable, low-cost and low-energy consuming treatments of water, air, and soil. It includes information on innovative research and development on TiO2 photocatalytic redox processes, Fenton, Photo-Fenton processes, zerovalent iron technology, etc highlighting possible applications of ATOs in developing and industrialized countries around the world in the framework of "A crosscutting and comprehensive look at environmental problems". Advanced Oxidation Technologies (AOTs) or Processes (AOPs) are relatively new and innovative technologies to remove harmful and toxic pollutants"--
Chemists and other scientists examine state-of-the-art advanced oxidation technologies and their use in sustainable, low-cost and low-energy treatments for water, air, and soil. The topics include decontaminating water by solar irradiation, degrading perchlorate dissolved in water by a combined application of ion exchange resin and zero-valent iron nanoparticles, decontaminating commercial chlorpyrifos in water using the ultraviolet/hydrogen peroxide process, modified montmorillonite in photo-Fenton and adsorption processes, stabilized titania nanoparticles on clay minerals for air and water treatment, and the photodegradation of beta-blockers in water. Annotation ©2014 Ringgold, Inc., Portland, OR (protoview.com)
Advanced Oxidation Technologies (AOTs) or Processes (AOPs) are relatively new and innovative technologies to remove harmful and toxic pollutants. The most important processes among them are those using light, such as UVC/H2O2, photo-Fenton and heterogeneous photocatalysis with TiO2. These technologies are also relatively low-cost and therefore useful for countries under development, where the economical resources are scarcer than in developed countries.
This book provides a state-of-the-art overview on environmental applications of Advanced Oxidation Technologies (AOTs) as sustainable, low-cost and low-energy consuming treatments for water, air, and soil. It includes information on innovative research and development on TiO2 photocatalytic redox processes, Fenton, Photo-Fenton processes, zerovalent iron technology, and others, highlighting possible applications of AOTs in both developing and industrialized countries around the world in the framework of A crosscutting and comprehensive look at environmental problems.
The book is aimed at professionals and academics worldwide, working in the areas of water resources, water supply, environmental protection, and will be a useful information source for decision and policy makers and other stakeholders working on solutions for environmental problems.
1. Decontamination of water by solar irradiation
2. Reduction of
pentavalent and trivalent arsenic by TiO2-photocatalysis: An innovative way
of arsenic removal
3. Synthesis, characterization and catalytic evaluation of
tungstophosphoric acid immobilized onY zeolite
4. Kinetic aspects of the
photodegradation of phenolic and lactonic biocides under natural and
artificial conditions
5. Fenton-like oxidation of phenol with a
Cu-chitosan/Al2O3 catalyst in a recirculating batch reactor
6. Degradation of
a mixture of glyphosate and 2,4-D in water solution employing the UV/H2O2
process, including toxicity evaluation
7. Degradation of perchlorate
dissolved in water by a combined application of ion exchange resin and
zerovalent iron nanoparticles
8. Eco-friendly approach for Direct Blue 273
removal from an aqueous medium
9. Decontamination of commercial chlorpyrifos
in water using the UV/H2O2 process
10. Abatement of nitrate in drinking
water. A comparative study of photocatalytic and conventional catalytic
technologies
11. Photocatalytic inactivation of airborne microorganisms.
Performance of different TiO2 coatings
12. Water decontamination by
heterogeneous photo-Fenton processes over iron, iron minerals and
iron-modified clays
13. Modified montmorillonite in photo-Fenton and
adsorption processes
14. Photocatalytic degradation of dichlorvos solution
using TiO2-supported ZSM-11 zeolite
15. Water disinfection with UVC and/or
chemical inactivation. Mechanistic differences, implications and consequences
16. Ag/AgCl composite material: synthesis, characterization and application
in treating wastewater
17. Highly photoactive Er3+-TiO2 system by means of
up-conversion and electronic cooperative mechanism
18. Stabilized TiO2
nanoparticles on clay minerals for air and water treatment
19.
Photodegradation of beta-blockers in water
20. Final conclusions
Professor Marta I. Litter was born in BuenosAires,Argentina. She holds a degree and a Doctorate in Chemistry from the University of Buenos Aires, Argentina. She performed a Postdoctoral stage at the University of Arizona, USA, in Polymer Chemistry (1983). She is the Head of Remediation Technologies Division, National Atomic Energy Commission, Argentina, Principal Researcher, National Research Council (CONICET,Argentina) and Full Professor of the University of General San Martķn, Argentina. She has written more than 150 scientific publications. She has coordinated several projects on water treatment, mainly in Advanced Oxidation Technologies. She was also Coordinator of the CYTED IBEROARSEN Network (20062009). She received the Mercosur Prize 2006 in Science and Technology, Technologies for Social Inclusion, for the Project: Potabilization of water by low-cost technologies in isolated rural zones of Mercosur and the Mercosur Prize 2011 in Science and Technology, Technologies for Sustainable Development, for the Project: The problem of arsenic in the Mercosur.An integrated and multidisciplinary approach to contribute to its resolution. At present she is President of the Local Organizing Committee of the 5th International Congress on Arsenic in the Environment (As2014) to be held in Buenos Aires, Argentina, from 11 to 16 May 2014.
Professor Roberto J. Candal, born 1960 in Argentina, holds a degree in Chemistry and a doctorate in the field of Inorganic Chemistry from the University of Buenos Aires. He held a three year position as Post-doc at the Water Chemistry Laboratory, University of Wisconsin, Madison WI, USA. His interests in research are focused on the development of newmaterials with application in water or air remediation, photocatalysis, sol-gel chemistry and water chemistry. Dr. Candal is co-author of more than 50 scientific publications in peer reviewed international journals and books. He has directed or co-directed three PhD Thesis; at present, he is directing three PhDThesis in environmental chemistry. Since 2010 he is Associate Professor at the National University of San Martķn, Argentina, and Independent Researcher at the National Research Council ofArgentina (INQUIMAE-CONICET). Dr. Candal is a founding member ofArgentina Society for Science and Environmental Technology (SACyTA).
Dr. J. Martķn Meichtry was born in 1977 in Colón, Entre Rķos, Argentina. He is Doctor in Engineering from the University of Buenos Aires (2011). Presently he is Researcher at the Remediation Technologies Division, Chemistry Management, National Atomic Energy Commission, Argentina, Assistant Researcher of the National Research Council of Argentina (CONICET) and Assistant Professor at the Chemistry Department, Buenos Aires School of the National Technological University, Argentina. He is author of 10 scientific publications, mainly in international journals of high impact in physical chemistry and environmental sciences, 4 chapters of books and many technical reports. He has more than 50 presentations in national and international congresses and other scientific meetings. He has participated in three prized presentations: Environmental Chemistry session, VI Congress Latin America SETAC (2003), Innovar Prize from MINCYT Argentina (2009) and Environmental Technology and Engineering section, COPIME Environmental Science Congress (2011). He has participated in 16 projects on water treatment, especially on Advanced Oxidation Technologies and more especially on Heterogeneous Photocatalysis. He is reviewer of the Chemical Engineering Science, Water Research and Chemical Engineering Science (ELS).
