Photoassisted fenton oxidation of refractory organics in UASB-pretreated leachate 被引量：8

Photoassisted fenton oxidation of refractory organics in UASB-pretreated leachate

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摘要 Nearly 91% of organic pollutants in Hong Kong leachate could be effectively removed by the UASB(upflow anaerobic sludge blanket) process followed by the fenton coagulation. The COD (chemical oxygen demand) of leachate was lowered from an average of 5620 mg/L to 1910 mg/L after the UASB treatment at 37℃, and was further lowered to 513 mg/L after fenton coagulation. The remaining refractory residues could be further removed by photochemical oxidation with the addition of H 2O 2. The BOD/COD ratio was greatly increased from 0.062 to 0.142, indicating the biodegradability of organic residues was improved. The photochemical oxidation for the fenton\|coagulation supernatant was most effective at pH 3\_4, with the addition of 800 mg/L of H 2O 2, and UV radiation time of 30 minutes. The final effluent contained only 148 mg/L of COD, 21 mg/L of BOD(biochemical oxygen demand) and 56 mg/L of TOC (total organic carbon). Nearly 91% of organic pollutants in Hong Kong leachate could be effectively removed by the UASB(upflow anaerobic sludge blanket) process followed by the fenton coagulation. The COD (chemical oxygen demand) of leachate was lowered from an average of 5620 mg/L to 1910 mg/L after the UASB treatment at 37℃, and was further lowered to 513 mg/L after fenton coagulation. The remaining refractory residues could be further removed by photochemical oxidation with the addition of H 2O 2. The BOD/COD ratio was greatly increased from 0.062 to 0.142, indicating the biodegradability of organic residues was improved. The photochemical oxidation for the fenton\|coagulation supernatant was most effective at pH 3\_4, with the addition of 800 mg/L of H 2O 2, and UV radiation time of 30 minutes. The final effluent contained only 148 mg/L of COD, 21 mg/L of BOD(biochemical oxygen demand) and 56 mg/L of TOC (total organic carbon).

作者 LauIWC WangP

机构地区 CentreforEnvironmentalEngineeringResearch DepartmentofEnvironmentalSci

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2002年第3期388-392,共5页 环境科学学报（英文版）

基金 TheHongKongResearchGrantsCouncil

关键词 BIODEGRADABILITY FENTON landfill leachate photochemical oxidation UASB biodegradability fenton landfill leachate photochemical oxidation UASB

分类号 X703 [环境科学与工程—环境工程]

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参考文献18

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Photoassisted fenton oxidation of refractory organics in UASB-pretreated leachate 被引量：8

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