Water Journal : Water Journal May 2012
contaminants of concern refereed paper technical features 82 MAY 2012 water Lee C, Schmidt C, Yoon J & von Gunten U (2007): Oxidation of N-nitrosodimethylamine (NDMA) precursors with ozone and chlorine dioxide: kinetics and effect on NDMA formation potential. Environmental Science & Technology, 41(6), pp 2056--2063. Lee W, Westerhoff P, Chen B, Lee H-D & Choi J-S (2011): Catalytic photolysis of carbonaceous and nitrogenous disinfection by-products. Proceedings of the AWWA Water Quality Technology Conference, Phoenix Arizona. CD ROM. Mitch WA & Sedlak DL (2002): Formation of N-nitrosodimethylamine (NDMA) from dimethylamine during chlorination. Environmental Science & Technology, 36, pp 588--595. Mitch WA, Gerecke AC & Sedlak DL (2003): A N-nitrosodimethylamine (NDMA) precursor analysis for chlorination of water and wastewater. Water Research, 37, pp 3733--3741. Morran J, Newcombe G & Slyman N (2009): Factors affecting NDMA formation in treated drinking water. Water Journal, 36(3), pp 57--61. Morran J, Whittle M, Fabris RB, Harris M, Leach J, Newcombe G & Drikas M (2011): Nitrosamines from pipeline materials in drinking water distribution systems. Journal of the American Water Works Association, 103(10), pp 76--84. Newcombe G, Morran J, Culbert J, Slyman N, Leach J & Kapralos C (2012): Occurrence and management of NDMA and other nitrogenous disinfection by-products in Australian drinking and recycled waters. WQRA Project Milestone Report No 5. Newcombe G, Morran J & Slyman N (2009): NDMA -- an update on issues. Water Journal, 36(3), pp 64--66. Nicholson B (2006): N-nitrosodimethylamine (NDMA) -- An emerging issue for the water industry. Water Journal, 33(6), pp 43--51. Park S, Wei S, Mizaikoff B, Taylor AE, Favero C & Huang C-H (2009): Degradation of amine- based water treatment polymers during chloramination as N-nitrosodimethylamine (NDMA) precursors. Environmental Science & Technology, 43(5), pp 1360--1366. Pehlivanoglu-Mantas E & Sedlak DL (2006): The fate of wastewater-derived NDMA precursors in the aquatic environment. Water Research, 40, pp 1287--1293. Pisarenko A, Stanford B, Yan D, Gerrity D, Snyder SA (2012): Effects of ozone and ozone/peroxide on trace organic contaminants and NDMA in drinking water and water reuse applications. Water Research, 46(2) pp 316--326. Portillo M, Kinser K, Cassanova R, Lehman S & Jacangelo J (2008): Impact of sequential and preformed chloramine dosing on NDMA formation in repurified wastewater. Proceedings of the AWWA Water Quality Technology Conference, Cincinnati, CD ROM. Poussade Y, Roux A, Walker T & Zavlanos V (2009): Advanced oxidation for indirect potable reuse: a practical application in Australia. Water Science & Technology, 60(9), p 2419. Russell C, Blute N, Via S, Wu X & Chowdury Z (2012): Nationwide assessment of nitrosamine occurrence and trends. Journal of American Water Works Association, 104(3) pp 57--58. Sacher F, Schmidt C, Lee C & von Gunten U (2008): Strategies for Minimizing Nitrosamine Formation during Disinfection. AWWA Research Foundation, Denver, CO, USA. Schmidt C, Sacher F & Brauch H-J (2006): Strategies for minimising formation of NDMA and other nitrosamines during disinfection of drinking water. Proceedings of the AWWA Water Quality Technology Conference, Philadelphia. CD ROM. Schmidt C & Brauch H-J (2008): N,N- dimethylsulfamide as precursor for N-nitrosodimethylamine (NDMA) formation upon ozonation and its fate during drinking water treatment. Environmental Science & Technology, 42(17), pp 6340--6346. Schreiber IM & Mitch WA (2005): Influence of the order of reagent addition on NDMA formation during chloramination. Environmental Science & Technology, 39, pp 3811--3818. Schreiber IM & Mitch WA (2006a): Nitrosamine formation pathway revisited, the importance of dichloramine and dissolved oxygen. Environmental Science & Technology, 40, pp 6007--6014. Schreiber IM & Mitch WA (2006b): Occurrence and fate of nitrosamines and nitrosamine precursors in wastewater-impacted surface waters using boron as a conservative tracer. Environmental Science & Technology, 40(10), pp 3203--3210. Shah AD & Mitch WA (2012): Halonitroalkanes, halonitriles, haloamides, and N-nitrosamines: a critical review of nitrogenous disinfection byproduct formation pathways. Environmental Science & Technology, 46(1), pp 119--131. Swaim P, Royce A, Smith T, Maloney T, Ehlen D & Car B (2007): Effectiveness of UV advanced oxidation for destruction of micro-pollutants. Ozone: Science and Engineering, 30: pp 34--42. WangW,RenS,ZhangH,YuJ,AnW,Hu J & Yang M (2011): Occurrence of nine nitrosamines and secondary amines in source water and drinking water: Potential of secondary amines as nitrosamine precursors, Water Research 45, pp 4930--4938. WHO (2008): N-nitrosodimethylamine in Drinking Water. Background document for development of WHO Guidelines for Drinking- water Quality, WHO, Geneva, Switzerland (www.who.int/water_sanitation_health/ gdwqrevision/ndma/en/) Wilczak A, Assadi-Rad A, Lai HH, Hoover LL, Smith JF, Berger R, Rodigari F, Beland JW, Lazzelle LJ, Kinicannon EG, Baker H & Heaney CT (2003): Formation of N-nitrosodimethylamine (NDMA) in chloraminated water coagulated with DADMAC cationic polymer. Journal of the American Water Works Association, 95(9), pp 94--107. Wille A, Swaim P, Schimmoller L & Maloney T (2011): Ozone for NDMA destruction? Proceedings of the AWWA Water Quality Technology Conference, Phoenix, Arizona. CD ROM. Xu B, Qin C, Hu C-Y, Lin Y-L, Xia S-J, Xu Q, Mwakagenda SA, Bi X-Y, Gao N-Y (2012): Degradation kinetics and N-nitrosodimethylamine formation during monochloramination of chlortoluron. Science of the Total Environment, 417--418, pp 241--247. Zhao Y, Boyd J, Hrudey SE & Li X-F (2006): Characterization of new nitrosamines in drinking water using liquid chromatography tandem mass spectrometry. Environmental Science & Technology, 40 (24), pp 7636--7641. Zhao Y, Boyd JM, Woodbeck M, Andrews R, Qin F, Hrudey SE & Li X-F (2008): Formation of N-nitrosamines from eleven disinfection treatments of seven different surface waters. Environmental Science & Technology, 42(13), pp 4857--4862. A research scientist from the AWQC samples the supernatant return stream to determine the NDMA formation potential.
Water Journal July 2012
Water Journal April 2012