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[1]陶辉,顾颖,林涛,等.Fe2+/PMS同步处理锰和有机物复合污染原水[J].中国给水排水,2023,39(15):64-69.
　TAOHui,GUYing,LINTao,et al.Fe2+/PMS System for Simultaneous Removal of Manganese and Organic Matter from Combined Polluted Raw Water[J].China Water & Wastewater,2023,39(15):64-69.

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Fe²⁺/PMS同步处理锰和有机物复合污染原水

中国给水排水[ISSN:1000-4062/CN:12-1073/TU] 卷: 第39卷期数: 2023年第15期页码: 64-69 栏目: 出版日期: 2023-08-01

Title:: Fe²⁺/PMS System for Simultaneous Removal of Manganese and Organic Matter from Combined Polluted Raw Water

作者:: 陶辉^1,2，顾颖^2,3，林涛^1,2，蒋福春⁴，张雪⁴; （1.河海大学浅水湖泊综合治理与资源开发教育部重点实验室，江苏南京 210098；2.河海大学环境学院，江苏南京 210098；3.南京水务集团有限公司，江苏南京 210002；4.苏州市自来水有限公司，江苏苏州 215124）

Author(s):: TAO　Hui^1，2， GU　Ying^2，3， LIN　Tao^1，2， JIANG　Fu-chun⁴， ZHANG　Xue⁴; （1. Key Laboratory of Integrated Regulation and Resource Development on Shallow Lakers ， Hohai University， Nanjing 210098， China； 2. College of Environment， Hohai University， Nanjing 210098， China； 3. Nanjing Water Group， Nanjing 210002， China； 4. Suzhou Water Supply Co. Ltd.， Suzhou 215124， China）

关键词:: 亚铁; 过氧单硫酸盐; 复合污染; 锰; 天然有机物; 同步去除

Keywords:: ferrous; peroxymonosulfate; combined pollution; manganese; natural organic matter; simultaneous removal

摘要:: 针对复合污染原水中锰和天然有机物的同步去除问题，研究了亚铁/过氧单硫酸盐（Fe²⁺/PMS）体系的去除途径和效果。结果表明：在复合污染条件下，当原水中Mn2+由0增加至1.0 mg/L时，Fe²⁺/PMS体系对DOC和UV₂₅₄的去除率分别提高了7.39%和3.58%，而出水锰浓度为0.01~0.79 μg/L，表明Fe²⁺/PMS体系可以同步去除复合污染原水中的锰和天然有机物。机理分析表明，Mn²⁺的存在促进了Fe²⁺/Fe³⁺循环，强化自由基产生的同时促进了Fe³⁺的生成，且其氧化产物MnO₂具有较好的助凝作用。动力学分析表明，Mn²⁺对Fe²⁺/PMS体系的强化作用主要在慢速反应阶段，提高了对有机物的去除效果。

Abstract:: To achieve simultaneous removal of manganese and natural organic matter from combined polluted raw water, the removal pathway and performance of ferrous/peroxymonosulfate (Fe²⁺/PMS) system were investigated. When the Mn²⁺ concentration in combined polluted raw water increased from 0 to 1.0 mg/L, the removal rates of DOC and UV254 in the Fe²⁺/PMS system increased by 7.39% and 3.58%, respectively, and the manganese concentration in effluent ranged from 0.01 μg/L to 0.79 μg/L, indicating that the system could be used for simultaneous removal of manganese and natural organic matter from combined polluted raw water. The mechanism analysis showed that the presence of Mn²⁺ promoted the Fe²⁺/Fe³⁺ cycle, enhanced the formation of free radicals and promoted the formation of Fe³⁺, and its oxidation product MnO₂ had a good coagulation performance. The kinetic analysis showed that Mn²⁺ enhanced the coagulation of Fe²⁺/PMS system mainly at the slow reaction stage, thus improved the removal efficiency of organic matter.

更新日期/Last Update: 2023-08-01