Library

AMIN, H. ; AMER, A. ; EL FECKY, A. ; IBRAHIM, I. (2008): Treatment of Textile Waste Water Using H2O2/UV System. In: Physicochemical Problems of Mineral Processing : Volume 42 , 17-28. URL [Accessed: 23.05.2019]

EPA (1999): Wastewater Technology Fact Sheet Ozone Disinfection. In: National Service Center for Environmental Publications (NSCEP): URL [Accessed: 23.05.2019]

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. In: International Conference Ozone and UV: , 69-76. URL [Accessed: 23.05.2019]

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. In: United State Environmental Protection Agency: URL [Accessed: 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. In: Global NEST Journal : Volume 10 , 31-38. URL [Accessed: 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. In: TECNEAU FP: Volume 6 URL [Accessed: 23.05.2019]

STUCKI, S. ; SCHULZE, D. ; SHUSTER, D. ; STARK, C. (2005): Ozonization of Purified Water Systems. In: Pharmaceutical Engineering: Volume 25 , 1-7. URL [Accessed: 23.05.2019]

AL-KDASI, A. ; IDRIS, A. ; SAED, K. ; TEONG GUAN, C. (2004): Treatment of Textile Wastewater by Advanced Oxidation Processes- a Review. In: Global Nest: The International Journal : Volume 6 , 222-230. URL [Accessed: 23.05.2019]

DERCO, J. ; GULYASOVA, A. ; HORNAK, M. (2001): Influence of Ozonation on Biodegradability of Refractory Organics in a Landfill Leachate. In: Chemical Paper : Volume 56 , 41-44. URL [Accessed: 23.05.2019]

This article outlines some key features of these membrane-based technologies and describes how they can be adapted to supply safe drinking water in remote communities and rural regions from the developing world.

FARCY, M. ; DOUCOURE, A. (2010): Membrane Systems for the Fight against Water-Borne Contaminants in Small Communities and Remote Areas from the Developing World: Accomplishments in Thailand and Some New Development in Sénégal and Mali . In: The Open Biology Journal: Volume 3 , 74-80. URL [Accessed: 22.05.2019]

This report presents a literature review on nanofiltration.

THORSEN, T. FLOGSTAD, H. (2006): Nanofiltration in Drinking Water Treatment. Nieuwegein, The Netherlands: Techneau URL [Accessed: 22.05.2019]

This article presents a review of the technologies and processes which are used for water and wastewater treatment in order to remove the various constituents of the polluting load: solids organic carbon, nutrients, inorganic salts and metals, pathogens. A second part describes the advanced processes to reuse treated municipal effluents in agriculture and industries and the main technologies used for desalination.

BOARI, G. ; MANCINI, I.M. ; TRULLI, E. (1997): Technologies for Water and Wastewater Treatment. In: Séminaires Méditerranéens: Volume 31 , 261-287. URL [Accessed: 22.05.2019]

This document is about the combination of ultrafiltration and reverse osmosis for the production of deionised water from surface waters.

CLEVER, M. ; JORDT, F. ; KNAUF, R. ; RABIGER, N. ; RUDEBUSCH, M. ; HILKER-SCHEIBEL, R. (2000): Process Water Production from River Water by Ultrafiltration and Reverse Osmosis . In: Desalination: Volume 131 , 325-336. URL [Accessed: 22.05.2019]

https://www.youtube.com/watch?v=G8sMAolVUEw [Accessed: 22.05.2019]

Check out the movie about this low cost rollable water container for developing countries

RADCLIFF, R. ZARNADZE, A. (2004): Application of Membrane Technology to the Production of Drinking Water. Tucson, AZ: Water Conditioning & Purification Magazine URL [Accessed: 22.05.2019]

This brochure gives an overview of the large assortment of water storage plastic tank products.

PRACTICAL PLASTICS (n.y): Product Catalogue. Darwin: Practical Plastics Ltd URL [Accessed: 22.05.2019]

NATIONAL ACADEMY OF SCIENCE (2008): Membrane Processes. Washington D.C.: National Academy of Science URL [Accessed: 22.05.2019]

PURAIR (n.y): Wood based Powder Activated Carbon. Hebei (China): Purair Carbon Filter Company URL [Accessed: 22.05.2019]

This study evaluated changes in drinking water quality resulting from an intervention that provided large closed water storage tanks (2,500-gallons) to individual homes lacking a piped water supply.

GRAHAM, J.P. ; VANDERSLICE, J. (2007): The Effectiveness of Large Household Water Storage Tanks for Protecting the Quality of Drinking Water. In: Journal of Water and Health: , 307-313. URL [Accessed: 22.05.2019]

This document includes course contents on advanced treatment plants including suspended and dissolved solid removal, phosphate removal, dissolved organic compounds removal with different techniques.

SUBRAMANIAN, M.S. (n.y): Advanced Waste Water Treatment . Module 1.5. In: NPTEL: URL [Accessed: 22.05.2019]