4.5 Article

Purification and removal of the low molecular weight fraction of polyDADMAC reducesN-nitrosodimethylamine formation during water treatment

Journal

ENVIRONMENTAL SCIENCE-WATER RESEARCH & TECHNOLOGY
Volume 6, Issue 9, Pages 2492-2498

Publisher

ROYAL SOC CHEMISTRY
DOI: 10.1039/d0ew00392a

Keywords

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Funding

  1. Water Research Foundation [4622]

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Cationic polymers are critical coagulant aids at drinking water plants, but the same polymers are simultaneouslyN-nitrosodimethylamine (NDMA) precursors upon chloramine exposure. We hypothesized the low-molecular fraction, which represents a small mass residual in polyDADMAC cationic polymer, reacts with chloramines, may not be well removed during coagulation, and is thus responsible for forming parts-per-trillion (ppt) concentrations of NDMA in finished water. To identify strategies capable of reducing post-coagulation residual polymer associated with NDMA formation, this study fractionated polyDADMAC by molecular weight, characterized reactivity of each fraction, and quantified precursor contributions to NDMA formation potential during bench-scale test and NDMA concentration due to formation during treatment during pilot tests. Diaultrafiltration of the cationic polymer produced a low molecular weight fraction (<10 kDa) and a purified polyDADMAC (>10 kDa). Native organic matter in bench- and pilot- tests contributed 19-38% of NDMA formed throughout treatment, while polymers were responsible for 62-81% of NDMA formed. The <10 kDa fraction of polyDADMAC was more reactive (450-540 ng NDMA per mg DOC) and formed >10x NDMA than non-purified polyDADMAC in jar tests. Purified polyDADMAC, with <10 kDa fraction removed, formed 54% less NDMA during pilot tests (and 63% less during jar tests) than non-purified polyDADMAC. There was no adverse effect on coagulation or subsequent filter performance by using purified polyDADMAC, but significantly (p< 0.05) less NDMA formed in filtered water when using diaultrafiltered cationic polymer. Thus, removing the low molecular weight impurities (<10 kDa) by polymer suppliers would lead to an equally-effective coagulant-aid that substantially lowers NDMA formation during drinking water treatment.

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