Yield of trihalomethanes and haloacetic acids upon chlorinating algal cells, and its prediction via algal cellular biochemical composition

The major objective of the present study was to investigate the contribution of major biomolecules, including protein, carbohydrates and lipids, in predicting DBPs formation upon chlorination of algal cells. Three model compounds, including bovine serum albumin (BSA), starch and fish oil, as surroga...

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Bibliographic Details
Published in:Water research (Oxford) 2008-12, Vol.42 (20), p.4941-4948
Main Authors: Hong, Hua Chang, Mazumder, Asit, Wong, Ming Hung, Liang, Yan
Format: Article
Language:English
Subjects:
Algae
Animals
Applied sciences
Bacillariophyceae
bovine serum albumin
byproducts
Carbohydrates
chemical composition
Chlamydomonas
Chlamydomonas - physiology
Chlorination
chloroform
Chlorophyta - physiology
Cyanobacteria - physiology
Diatoms - physiology
dichloroacetic acid
Disinfectants - metabolism
disinfection
Exact sciences and technology
Fish Oils
Fluoroacetates - analysis
HAAs
haloacetic acids
Halogenation
laboratories
Lipids
Nitzschia
Oscillatoria
Other industrial wastes. Sewage sludge
plant proteins
Pollution
prediction
Proteins
Serum Albumin, Bovine
starch
THMs
trihalomethanes
Trihalomethanes - analysis
Wastes
water treatment
Water treatment and pollution
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Summary:The major objective of the present study was to investigate the contribution of major biomolecules, including protein, carbohydrates and lipids, in predicting DBPs formation upon chlorination of algal cells. Three model compounds, including bovine serum albumin (BSA), starch and fish oil, as surrogates of algal-derived proteins, carbohydrates and lipids, and cells of three algae species, representing blue-green algae, green algae, and diatoms, were chlorinated in the laboratory. The results showed that BSA (27 μg mg −1 C) and fish oil (50 μg mg −1 C) produced more than nine times higher levels of chloroform than starch (3 μg mg −1 C). For the formation of HAAs, BSA was shown to have higher reactivity (49 μg mg −1 C) than fish oil and starch (5 μg mg −1 C). For the algal cells, Nitzschia sp. (diatom) showed higher chloroform yields (48 μg mg −1 C) but lower HAA yields (43 μg mg −1 C) than Chlamydomonas sp. (green algae) (chloroform: 34 μg mg −1 C; HAA: 62 μg mg −1 C) and Oscillatoria sp. (blue-green algae) (chloroform: 26 μg mg −1 C; HAA: 72 μg mg −1 C). The calculated chloroform formation of cells from the three algal groups, based on their biochemical compositions, was generally consistent with the experimental data, while the predicted values for HAAs were significantly lower than the observed ones. As compared to humic substances, such as humic and fulvic acids, the algal cells appeared to be important precursors of dichloroacetic acid.
ISSN:0043-1354
1879-2448
DOI:10.1016/j.watres.2008.09.019