4.7 Article

Chromophoric dissolved organic compounds in urban watershed and conventional water treatment process: evidence from fluorescence spectroscopy and PARAFAC

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ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
卷 30, 期 13, 页码 37248-37262

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SPRINGER HEIDELBERG
DOI: 10.1007/s11356-022-24787-8

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Chromophoric dissolved organic matter; DOM compound; Raw water; Conventional water treatment plant; PARAFAC; Removal efficiency

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This study investigated CDOM in two urbanized watersheds, examined its changes in two different conventional WTPs, and identified potential surrogate parameters for CDOM compounds. The results showed the presence of tryptophan-like and humic-like compounds. CDOM quantity correlated with FI and BIX, indicating pollution. WTP Dago had the best CDOM removal, while high tryptophan-like concentrations impaired the capability of WTPs to reduce CDOM.
This study aimed to investigate the origin, quantity, and composition of chromophoric dissolved organic matter (CDOM) from two urbanized watersheds (Cikapundung and Cimahi River), examine how CDOM compounds and absorbances change along the process of two different conventional WTPs (WTP Dago and Cimahi) using PARAFAC, and identify absorbance as potential surrogate parameters for CDOM compounds. Samples were collected from intake, secondary treatment, and filter outlets. PARAFAC was conducted based on two data scenarios: (1) from rainy and dry seasons in Cikapundung river and WTP Dago and (2) from the two rivers and two WTPs during rainy season. Tryptophan-like (C1A) and humic-like (C2A) compounds were identified based on scenario-1 analysis. For scenario-2, humic-like (C1B), peak-M (C2B), and tryptophan-like (C3B) were the main compounds. CDOM compound quantity is consistent with the fluorescence index (FI) and biological index (BIX) which confirmed sewage and animal manure pollution in both watersheds. The best overall removal of CDOM compound occurred in WTP Dago in rainy season. The high concentration of tryptophan-like in Cikapundung River in dry season and in Cimahi River in rainy season has worsen the WTP capability to reduce CDOM. Scenario-1 has shown that in WTP Dago, the potential surrogate parameter for C1A was A(240) in rainy season (r = 0.60; p < 0.01) and A(410) in dry season (r = - 0.43, p < 0.05). Based on scenario-2, for the WTP Dago in rainy season, C1B strongly correlated with A(254) (r = 0.86; p < 0.01), C2B has the strongest correlation with A(298) (r = 0.93; p < 0.01), and C3B correlated well with A(240) (r = 0.59; p < 0.01). In WTP Cimahi, during rainy season, all compounds correlated well with all measured absorbances, with the strongest correlation with A(298).

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