This article discusses the efficiency of UV/Hydrogen Peroxide and UV/Ozone treatments for the degradation of persistent organic contaminants including metabolite analysis and economic evaluation.
SONA, M. ; BAUS, C. ; BRAUCH, H.J. (2006): UV Irradiation Versus Combined UV/Hydrogen Peroxide and UV/Ozone Treatment for the Removal of Persistent Organic Pollutants from Water. Entradas: International Conference Ozone and UV: , 69-76. URL [Visita: 23.05.2019]Library
This presentation shows the benefits of combining ozone with nanofiltration for water treatment namely the reduction of membranes fouling.
KARNIK, B.S. ; CHEN, K.C. ; JAGLOWSKI, D.R. ; DAVIES S.H. ; BAUMANN, M.J. ; MASTEN S.J. (2004): Combined Ozonation-Nanofiltration for Drinking Water Treatment. Entradas: United State Environmental Protection Agency: URL [Visita: 23.05.2019]This paper describes the treatment of a high pollution strength industrial wastewater with H2O2 combined with UV light and iron ions catalysts.
DINCER, A.R. ; KARAKAYA, N. ; GUNES, E. ; GUNES, Y. (2007): Removal of COD from Oil Recovery Industry Wastewater by the Advanced Oxidation Process (AOP) based on H2O2. Entradas: Global NEST Journal : Volume 10 , 31-38. URL [Visita: 23.05.2019]This report describes the building up of a new simulator for chlorination and ozonation. It aims at giving a clear overview of the investigation fields related to modeling of oxidation for water purification. The model proposed is adaptable to on-site conditions.
MANDEL, P. (2007): Modelling of Micropollutant Removal by Ozonation and Chlorination in Potable Water Treatment. Entradas: TECNEAU FP: Volume 6 URL [Visita: 23.05.2019]This document compares the energy requirements for the removal of micropollutants in drinking water treatment plants by ozonation and O3/H2O2. The energy requirements for both treatments are in a similar range however O3/H2O2 reduces the contact time and bromated formation.
KATSOYANNIS, I.A. ; GUNTEN, U. von (n.y): Comparison of Energy Requirements of Conventional Ozonation and the AOP O3/H2O2 for Transformation of Target Micropollutants in Diverse Matrices . Entradas: Techneau Deliverable D2: URL [Visita: 23.05.2019]Presentation on different ozone generators, processes design and monitoring.
SACCO, A. (2009): Ozone Water Treatment Application and Design. Entradas: Spartan Environmental Technologies LLC.: URL [Visita: 23.05.2019]This chapter of EPA Guidance Manuel provides a lot of scientific information on Peroxone chemistry and applications such as disinfection and organics degradation.
EPA (1999): Peroxone (Ozone/Hydrogen Peroxide). Entradas: EPA Guidance Manual, Alternative Disinfectants and Oxidants: URL [Visita: 23.05.2019]This is a review article about ozonation in drinking water including many aspects such as ozone production, reaction mechanisms, applicability, price, safety, etc.
EAGLETON, J. (1999): Ozone in Drinking Water Treatment a Brief Overview 106 Years and Still Going. URL [Visita: 23.05.2019]This case study outlines the activities of an engineering consulting firm that has been contracted to submit a preliminary design for a new water treatment plant for a rural community in Nova Scotia, Canada.
WALSH, M.E. GAGNON, G.A. (2006): Evaluating Membrane Processes for Drinking Water Treatment Design. Halifax, Canada: Association of Environmental Engineering & Science Professors URL [Visita: 22.05.2019]This training guide provides practical information on the chemistry behind chlorination, application of chlorination in a treatment plant, and chlorine safety, including a section of study questions.
RAGSDALE AND ASSOCIATES (2002): Disinfection. Chapter 5. Entradas: RAGSDALE AND ASSOCIATES (2002): New Mexico Water Systems Operator Certification Study Guide. Santa Fe: . URL [Visita: 22.05.2019]Your public water system is the first line of defense against waterborne disease. View step-by-step how water is treated and delivered to your home or business as water that is safe to drink. Your drinking water is inexpensive compared to other household costs. Learn why it is important to keep the environment clean and find out what you can do to protect our nation's sources of drinking water. Fun facts and classroom activities are also featured. This Video can be viewed in English or Spanish.
US EPA (2012): Virtual Tour of a Drinking Water Plant. URL [Visita: 22.05.2019]In Australia where water is scarce, the limited rainfall is too valuable to waste. Rainwater is generally safe to drink but collecting a good, clean supply depends on “low maintenance — not no maintenance”. Read more about it here.
SA HEALTH (2008): Rainwater Tanks: Maintenance and Water Care. Adelaide: Department of Health, Government of South Australia URL [Visita: 22.05.2019]