AI Article Synopsis
- Sulfate radical based oxidation is considered as a viable alternative to hydroxyl radical based oxidation for treating pollutants in water, but concerns about forming unwanted by-products, like bromate, are not thoroughly explored in current research.
- Bromate formation, similar to that seen with hydroxyl radicals, is shown to occur when sulfate radicals react quickly with bromide, and mechanisms for this reaction—including the role of hypobromous acid—are detailed in the paper.
- Experiments reveal that the presence of organic matter effectively suppresses bromate formation by sulfate radicals, likely due to the reduction of hypobromous acid by superoxide, suggesting that bromate formation is minimal under standard water treatment conditions.
Article Abstract
Sulfate radical based oxidation is discussed being a potential alternative to hydroxyl radical based oxidation for pollutant control in water treatment. However, formation of undesired by-products, has hardly been addressed in the current literature, which is an issue in other oxidative processes such as bromate formation in ozonation of bromide containing water (US-EPA and EU drinking water standard of bromate: 10 μg L(-1)). Sulfate radicals react fast with bromide (k = 3.5 × 10(9) M(-1) s(-1)) which could also yield bromate as final product. The mechanism of bromate formation in aqueous solution in presence of sulfate radicals has been investigated in the present paper. Further experiments were performed in presence of humic acids and in surface water for investigating the relevance of bromate formation in context of pollutant control. The formation of bromate by sulfate radicals resembles the well described mechanism of the hydroxyl radical based bromate formation. In both cases hypobromous acid is a requisite intermediate. In presence of organic matter formation of bromate is effectively suppressed. That can be explained by formation of superoxide formed in the reaction of sulfate radicals plus aromatic moieties of organic matter, since superoxide reduces hypobromous acid yielding bromine atoms and bromide. Hence formation of bromate can be neglected in sulfate radical based oxidation at typical conditions of water treatment.
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| http://dx.doi.org/10.1016/j.watres.2014.01.001 | DOI Listing |
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