Despite the widespread occurrence of phenols in anthropogenic and natural compounds, their fate in reactions with hypochlorous acid(HOCl), one of the most common water treatment disinfectants, remains incompletely und...Despite the widespread occurrence of phenols in anthropogenic and natural compounds, their fate in reactions with hypochlorous acid(HOCl), one of the most common water treatment disinfectants, remains incompletely understood. To close this knowledge gap, this study investigated the formation of disinfection by-products(DBPs) in the reaction of free chlorine with seven para-substituted phenols. Based on the chemical structures of the DBPs and the reaction mechanisms leading to their formation, the DBPs were categorized into four groups: chlorophenols, coupling products, substituent reaction products, and ring cleavage products. In contrast to previous studies that investigated the formation of earlystage chlorophenols, the primary focus of this study was on the elucidation of novel ring cleavage products, in particular α, β-unsaturated C-dialdehydes, and C-dicarboxylic acids, which, for the first time, were identified and quantified in this study. The molar yields of 2-butene-1,4-dial(BDA), one of the identified α, β-unsaturated C-dialdehydes, varied among the different phenolic compounds, reaching a maximum value of 10.4% for bisphenol S. Molar yields of 2-chloromaleic acid(Cl-MA), one of the identified C-dicarboxylic acids, reached a maximum value of 30.5% for 4-hydroxy-phenylacetic acid under given conditions. 2,4,6-trichlorophenol(TCP) was shown to be an important intermediate of the parent phenols and the C-ring cleavage products. Based on the temporal trends of α, β-unsaturated C-dialdehydes and C-dicarboxylic acids, their formation is likely attributable to two separate ring cleavage pathways. Based on the obtained results, an overall transformation pathway for the reaction of para-substituted phenols with free chlorine leading to the formation of novel Cring cleavage products was proposed.展开更多
Regulatory and technological solutions to ensure safe drinking water are not keeping up with the scope and severity of drinking water quality problems. Drinking water resources are degrading as a result of agricultura...Regulatory and technological solutions to ensure safe drinking water are not keeping up with the scope and severity of drinking water quality problems. Drinking water resources are degrading as a result of agricultural runoff, wastewater effluents, illegal dumping of chemicals, atmospheric deposition as well as algae blooms.展开更多
基金supported by internal funding from Johns Hopkins University。
文摘Despite the widespread occurrence of phenols in anthropogenic and natural compounds, their fate in reactions with hypochlorous acid(HOCl), one of the most common water treatment disinfectants, remains incompletely understood. To close this knowledge gap, this study investigated the formation of disinfection by-products(DBPs) in the reaction of free chlorine with seven para-substituted phenols. Based on the chemical structures of the DBPs and the reaction mechanisms leading to their formation, the DBPs were categorized into four groups: chlorophenols, coupling products, substituent reaction products, and ring cleavage products. In contrast to previous studies that investigated the formation of earlystage chlorophenols, the primary focus of this study was on the elucidation of novel ring cleavage products, in particular α, β-unsaturated C-dialdehydes, and C-dicarboxylic acids, which, for the first time, were identified and quantified in this study. The molar yields of 2-butene-1,4-dial(BDA), one of the identified α, β-unsaturated C-dialdehydes, varied among the different phenolic compounds, reaching a maximum value of 10.4% for bisphenol S. Molar yields of 2-chloromaleic acid(Cl-MA), one of the identified C-dicarboxylic acids, reached a maximum value of 30.5% for 4-hydroxy-phenylacetic acid under given conditions. 2,4,6-trichlorophenol(TCP) was shown to be an important intermediate of the parent phenols and the C-ring cleavage products. Based on the temporal trends of α, β-unsaturated C-dialdehydes and C-dicarboxylic acids, their formation is likely attributable to two separate ring cleavage pathways. Based on the obtained results, an overall transformation pathway for the reaction of para-substituted phenols with free chlorine leading to the formation of novel Cring cleavage products was proposed.
文摘Regulatory and technological solutions to ensure safe drinking water are not keeping up with the scope and severity of drinking water quality problems. Drinking water resources are degrading as a result of agricultural runoff, wastewater effluents, illegal dumping of chemicals, atmospheric deposition as well as algae blooms.
