期刊
ENVIRONMENTAL TECHNOLOGY
卷 33, 期 15, 页码 1747-1753出版社
TAYLOR & FRANCIS LTD
DOI: 10.1080/09593330.2011.644586
关键词
bromate; chlorine-ammonia; ozone; peroxone; pH depression
This study compared several pretreatment methods for inhibiting BrO3- formation during ozonation of tap water, from the DTU (Technical University of Denmark) campus, including H2O2 addition (peroxone), pH depression, and NH4+ and Cl-2/NH4+ addition. At the same time, the inhibition of atrazine and carbamazepine removal was evaluated for each pretreatment. The required delivered O-3 dose to achieve 90% removal of atrazine in the tap water from the DTU campus was 3.5 mg/L, which produced 130-170 mu g/L BrO3-. Peroxone did not reduce the required O-3 dose for contaminant removal; however, it limited BrO3- formation to below the drinking water limit of 10 mu g/L. Depression of solution pH to 6.0, reduced BrO3- formation to half, but it was still well above the water limit. Pretreatment with NH4+ also reduced BrO3- formation by approximately 50%, though it reduced atrazine degradation to 65%. Pretreatment with Cl-2/NH4+ reduced BrO3- formation close to the 10 mu g/L limit; however, atrazine removal did not exceed 75%. Carbamazepine was completely removed under all the tested experimental conditions with the 3.5 mg/L O-3 dose.
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