2008
DOI: 10.1016/j.seppur.2008.08.011
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Isolation of dissolved organic matter in effluents from sewage treatment plant and evaluation of the influences on its DBPs formation

Abstract: a b s t r a c tDissolved organic matter (DOM) in reclaimed water from a conventional sewage treatment plant was isolated using resin adsorption chromatography technique into six classes: hydrophobic bases (HoB), hydrophobic acids (HoA), hydrophobic neutrals (HoN), hydrophilic bases (HiB), hydrophilic acids (HiA) and hydrophilic neutrals (HiN). It was found that organic acids dominated in reclaimed water and the ratios of UV 254 (absorbance at 254 nm) to dissolved organic carbon (DOC) (SUVA 254 ) ratio exhibite… Show more

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Cited by 22 publications
(9 citation statements)
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“…The one-way ANOVA test displayed a decreasing tendency for EC50 at any considered experiment time with the increase of Cl 2 /NH 4 -N ratios. This fact would suggest a higher DBPs formation, as previously reported by Zhang et al [20]. With the increasing of Cl 2 /NH 4 -N ratios, chlorine or chloramines previously formed would hydrolyze to form hypochlorous acid (HOCl), which would clearly increase DBP formation.…”
Section: Effect Of Different Parameters On Toxicity Formationsupporting
confidence: 63%
See 1 more Smart Citation
“…The one-way ANOVA test displayed a decreasing tendency for EC50 at any considered experiment time with the increase of Cl 2 /NH 4 -N ratios. This fact would suggest a higher DBPs formation, as previously reported by Zhang et al [20]. With the increasing of Cl 2 /NH 4 -N ratios, chlorine or chloramines previously formed would hydrolyze to form hypochlorous acid (HOCl), which would clearly increase DBP formation.…”
Section: Effect Of Different Parameters On Toxicity Formationsupporting
confidence: 63%
“…At low pH values, HOCl is the predominant specie, which is responsible for the formation of DBPs because a higher oxidative capacity than OCl -anion. On the other hand, an increase in pH also enhances the degradation of these DBPs [20,22]. Diehl et al [21] reported similar results, showing a decrease on different DBP formation with an increase in the pH from 6 to 10, and Yang et al [22] found a marked difference in DBP formation in Suwannee river water, as judged by the range in pH from 4 to 9; the maximum yields of DBPs occurred at pH 5-6. For all these reasons, a pH control would contribute to a significant reduction of DBPs formation [23].…”
Section: Environmental Health Risk V 335mentioning
confidence: 86%
“…EC50 for 5, 10, and 15 min exhibited a similar decreasing tendency as Cl 2 to NH 4 + increased. This means that more DBPs are formed at greater Cl 2 :NH 4 + ratios, as also suggested by Zhang et al [27] and Diehl et al [28]. In these conditions, chlorine to chloramines previously formed would hydrolyze to form hypochlorous acid (HOCl) in equilibrium with free chlorine released by this hydrolysis, which would increase DBP formation.…”
Section: Relationships Between Chemical Characteristics and Toxicitymentioning
confidence: 60%
“…At low pH values, HOCl is the predominant species, responsible for the formation of DBPs because it has a greater oxidative capacity than the OCl − anion found at greater pH. An increase in pH also enhances the degradation of these DBPs [27,30]. Diehl et al [28] reported similar results, showing a decrease of DBP formation with an increase in the pH from 6 to 10.…”
Section: Relationships Between Chemical Characteristics and Toxicitymentioning
confidence: 90%
“…The raw water had DOC values <3 mg/L which could be regarded as water with low concentration of OM. Based on the SUVA measurements (less than 3 L/(mg m)), the NOM in the raw water was hydrophilic, with low molecular weight [27,28].…”
Section: Raw Watermentioning
confidence: 99%