Brominated trihalamines in chlorinated seawaters: Quantification of tribromamine and identification of bromochloramines by Membrane Introduction Mass Spectrometry

During chlorination of seawater, the presence of bromide and ammonia alters the speciation of the oxidant and lead to the formation of chlorinated and brominated amines. This can affect the effectiveness of the disinfection treatment and the formation of disinfection by-products released to the envi...

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Published in:The Science of the total environment 2022-07, Vol.830, p.154667-154667, Article 154667
Main Authors: Mensah, Anette T., Allard, Sébastien, Berne, Florence, Soreau, Sylvie, Gallard, Hervé
Format: Article
Language:English
Subjects:
Amines
Bromide
Chlorination
Decomposition
Disinfectants
Disinfection - methods
Halogenation
Hydrocarbons, Halogenated - analysis
Kinetic
Mass Spectrometry
MIMS
Organic matter
Seawater
Tribromamine
Water Pollutants, Chemical - analysis
Water Purification - methods
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Soreau, Sylvie
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description During chlorination of seawater, the presence of bromide and ammonia alters the speciation of the oxidant and lead to the formation of chlorinated and brominated amines. This can affect the effectiveness of the disinfection treatment and the formation of disinfection by-products released to the environment. In this study, a Membrane Introduction Mass Spectrometry (MIMS) analytical method was developed to differentiate brominated trihalamines (i.e. tribromamine NBr3, dibromochloramine NBr2Cl and bromodichloramine NBrCl2) in synthetic and natural chlorinated seawater. A mass-to-charge ratio of m/z = 253 corresponding to the parent ion was used for the quantification of NBr3 in absence of organic matter and the signal of the fragment at m/z = 177 was chosen in presence of high concentration of organic matter. Limits of detection were 0.23 μM (49 μg Cl2/L) and 0.18 μM (38 μg Cl2/L) for m/z 253 and m/z 177, respectively. Both NBr2Cl and NBrCl2 were monitored in chlorinated seawaters with their respective parent ion at m/z = 207 and m/z = 163 but were not quantified. MIMS results also showed that reaction of brominated trihalamines with natural organic matter (NOM) was a minor pathway for 1–2 mg C/L compared to their auto-decomposition in natural or synthetic seawater. Overall, MIMS was able to unambiguously differentiate and monitor brominated trihalamines for the first time in chlorinated seawater, which was not possible by using UV measurement, titration and colorimetric methods. [Display omitted] •Membrane Introduction Mass Spectrometry (MIMS) was used to selectively monitor the brominated trihalamines NBr3, NBr2Cl and NBrCl2 during chlorination of synthetic and natural seawaters•NBr3 was accurately quantified and LOD and LOQ were obtained•The reactivity of NBr3 with a hydrophobic NOM extract was evaluated•Reactivity of NBr3, NBr2Cl and NBrCl2 with NOM would be a minor pathway compared to their self-decomposition during seawater chlorination
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MIMS results also showed that reaction of brominated trihalamines with natural organic matter (NOM) was a minor pathway for 1–2 mg C/L compared to their auto-decomposition in natural or synthetic seawater. Overall, MIMS was able to unambiguously differentiate and monitor brominated trihalamines for the first time in chlorinated seawater, which was not possible by using UV measurement, titration and colorimetric methods. 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subjects Amines
Bromide
Chlorination
Decomposition
Disinfectants
Disinfection - methods
Halogenation
Hydrocarbons, Halogenated - analysis
Kinetic
Mass Spectrometry
MIMS
Organic matter
Seawater
Tribromamine
Water Pollutants, Chemical - analysis
Water Purification - methods
title Brominated trihalamines in chlorinated seawaters: Quantification of tribromamine and identification of bromochloramines by Membrane Introduction Mass Spectrometry
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