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Reduction of N-Nitrosodimethylamine (NDMA) in Aqueous Solution by Nanoscale Fe/Al sub(2)(SO sub(4)) sub(3)

N-Nitrosodimethylamine (NDMA) is recently defined as one of nitrogenous disinfection by-products with high carcinogenicity and can be frequently detected in finished water. The decomposition of NDMA in water using nanoscale zero-valent iron (NZVI) in the presence of aluminum and iron salts was inves...

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Published in:	Water, air, and soil pollution air, and soil pollution, 2013-07, Vol.224 (7), p.1-9
Main Authors:	Lin, Lin, Xu, Bin, Lin, Yi-Li, Yan, Lie, Shen, Kai-Yuan, Xia, Sheng-Ji, Hu, Chen-Yan, Rong, Rong
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creator	Lin, Lin Xu, Bin Lin, Yi-Li Yan, Lie Shen, Kai-Yuan Xia, Sheng-Ji Hu, Chen-Yan Rong, Rong
description	N-Nitrosodimethylamine (NDMA) is recently defined as one of nitrogenous disinfection by-products with high carcinogenicity and can be frequently detected in finished water. The decomposition of NDMA in water using nanoscale zero-valent iron (NZVI) in the presence of aluminum and iron salts was investigated in this paper. The results showed that some salts can enhance the removal of NDMA by commercial NZVI in the order of Al sub(2)(SO sub(4)) sub(3) >> AlCl sub(3) > FeSO sub(4) > Na sub(2)SO sub(4) approximately NZVI alone, and the highest NDMA removal was 87.3 % in the presence of Al sub(2)(SO sub(4)) sub(3). NDMA removal varied with the addition of Al sub(2)(SO sub(4)) sub(3), NZVI dosage, initial NDMA concentration, solution pH, and temperature. The reduction of NDMA increased with the dosage of Al sub(2)(SO sub(4)) sub(3) and NZVI, which follows a pseudo-first-order kinetics model. The removal of NDMA by NZVI was higher in acidic pHs than in alkaline ones, and the highest removal was found at pH 5. Higher reaction temperature can improve the removal of NDMA and reduce the reaction time. Based on the total nitrogen balance, most nitrogen of NDMA was converted to ammonium and dimethylamine.
doi_str_mv	10.1007/s11270-013-1632-z
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The decomposition of NDMA in water using nanoscale zero-valent iron (NZVI) in the presence of aluminum and iron salts was investigated in this paper. The results showed that some salts can enhance the removal of NDMA by commercial NZVI in the order of Al sub(2)(SO sub(4)) sub(3) >> AlCl sub(3) > FeSO sub(4) > Na sub(2)SO sub(4) approximately NZVI alone, and the highest NDMA removal was 87.3 % in the presence of Al sub(2)(SO sub(4)) sub(3). NDMA removal varied with the addition of Al sub(2)(SO sub(4)) sub(3), NZVI dosage, initial NDMA concentration, solution pH, and temperature. The reduction of NDMA increased with the dosage of Al sub(2)(SO sub(4)) sub(3) and NZVI, which follows a pseudo-first-order kinetics model. The removal of NDMA by NZVI was higher in acidic pHs than in alkaline ones, and the highest removal was found at pH 5. Higher reaction temperature can improve the removal of NDMA and reduce the reaction time. 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title	Reduction of N-Nitrosodimethylamine (NDMA) in Aqueous Solution by Nanoscale Fe/Al sub(2)(SO sub(4)) sub(3)
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