Effect of ferric and bromide ions on the formation and speciation of disinfection byproducts during chlorination 被引量：9

Effect of ferric and bromide ions on the formation and speciation of disinfection byproducts during chlorination

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摘要 The effects of ferric ion, pH, and bromide on the formation and distribution of disinfection byproducts （DBPs） during chlorination were studied. Two raw water samples from Huangpu River and Yangtze River, two typical drinking water sources of Shanghai, were used for the investigation. Compared with the samples from Huangpu River, the raw water samples from Yangtze River had lower content of total organic carbon （TOC） and ferric ions, but higher bromide concentrations. Under controlled chlorination conditions, four trihalomethanes （THMs）, nine haloacetic acids （HAAs）, total organic halogen （TOX） and its halogen species fractions, including total organic chlorine （TOC1） and total organic bromide （TOBr）, were determined. The results showed that co-existent ferric and bromide ions significantly promoted the formation of total THMs and HAAs for both raw water samples. Higher concentration of bromide ions significantly changed the speciation of the formed THMs and HAAs. There was an obvious shift to brominated species, which might result in a more adverse influence on the safety of drinking water. The results also indicated that high levels of bromide ions in raw water samples produced higher percentages of unknown TOBr. The effects of ferric ion, pH, and bromide on the formation and distribution of disinfection byproducts （DBPs） during chlorination were studied. Two raw water samples from Huangpu River and Yangtze River, two typical drinking water sources of Shanghai, were used for the investigation. Compared with the samples from Huangpu River, the raw water samples from Yangtze River had lower content of total organic carbon （TOC） and ferric ions, but higher bromide concentrations. Under controlled chlorination conditions, four trihalomethanes （THMs）, nine haloacetic acids （HAAs）, total organic halogen （TOX） and its halogen species fractions, including total organic chlorine （TOC1） and total organic bromide （TOBr）, were determined. The results showed that co-existent ferric and bromide ions significantly promoted the formation of total THMs and HAAs for both raw water samples. Higher concentration of bromide ions significantly changed the speciation of the formed THMs and HAAs. There was an obvious shift to brominated species, which might result in a more adverse influence on the safety of drinking water. The results also indicated that high levels of bromide ions in raw water samples produced higher percentages of unknown TOBr.

作者 Shaogang Liu Zhiliang Zhu Yanling Qiu Jianfu Zhao

机构地区 State Key Laboratory of Pollution Control and Resource Reuse Department of Chemical and Ecological Engineering

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2011年第5期765-772,共8页 环境科学学报（英文版）

基金 supported by the National Mega-Project of Science and Technology of China (No.2008ZX07421-002) the National Eleventh Five-Year Pillar Program of Science the Technology of China (No.2006BAJ04A07)

关键词 disinfection byproducts total organic halogen CHLORINATION ferric ion bromide ion disinfection byproducts total organic halogen chlorination ferric ion bromide ion

分类号 X592 [环境科学与工程—环境工程] O614.811 [理学—无机化学]

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