Kinetics of oxidation of dimethyl trisulfide by potassium permanganate in drinking water 被引量：3

Kinetics of oxidation of dimethyl trisulfide by potassium permanganate in drinking water

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摘要 Metabolites of algae such as geosmin, 2- methylisoborneol etc. are reported to induce pungent odors into drinking water and attract additional scientifc attention. Recently, in China, taste and odor outbreaks in drinking water supply have become increasingly common. In source water affected by eutrophication, dimethyl trisulfide, speculated to be produced by decayed algae, was found to be the source of taste and odor issues and can be removed effectively by usual oxidation agents. In this experimental study, batch scale tests were carried out focusing on the removal of dimethyl trisulfide. Reaction kinetics of dimethyl trisulfide oxidized by potassium permanganate in water had been studied; influence factors such as pH, organic substrate, other existed taste, and odor contaminant in equivalent concentration were also dis- cussed. Results showed that dimethyl trisulfide can be removed by potassium permanganate efficiently; the ratio can reach more than 70% with oxidant dosage of 4 mg. L~ and contact time prolonged to 120 min. The dimethyl trisulfide decomposition followed a second-order kinetics pattern with a rate constant k -- 0.00213 L.（min.mg）-1. Typically, the degradation rate of dimethyl trisulfide was increased with the increasing KMnO4 dosage, but dramatically dropped with the increasing levels of humic acid （1.8-4.5 mg. L-1） and other odor-causing compounds （e.g. fl-cyclocitral, 0-1886.0 pg.L-1）. Solution pH （5.2- 9.0） and initial dimethyl trisulfide concentration did not significantly affected the degradation. This study demon- strates that KMnO4 oxidation is an effective option to remove dimethyl trisulfide from water.

作者 Xiaoyan MA Shifei HU Hongyu WANG Jun LI Jing HUANG Yun ZHANG Weigang LU Qingsong LI

机构地区 Municipal Department of Architecture Engineering College National Water Quality Monitoring Net of City Water Supply Hangzhou Station Water Resources and Environmental Institute

出处《Frontiers of Environmental Science & Engineering》 SCIE EI CAS CSCD 2012年第2期171-176,共6页 环境科学与工程前沿（英文）

关键词 odor and taste oxidation reaction reactionkinetics water treatment odor and taste, oxidation reaction, reactionkinetics, water treatment

分类号 T [一般工业技术]

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