| 纳米与微米级零价铁降解2,4,6-三氯酚动力学比较 |
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| 引用本文: | 金盛杨,王玉军,李连祯,周东美,王慎强.纳米与微米级零价铁降解2,4,6-三氯酚动力学比较[J].中国环境科学,2010,30(1):82-87. |
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| 作者姓名: | 金盛杨 王玉军 李连祯 周东美 王慎强 |
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| 作者单位: | 1. 中国科学院南京土壤研究所土壤与农业可持续发展国家重点实验室,江苏南京210008;中国科学院研究生院,北京100049
2. 中国科学院南京土壤研究所土壤与农业可持续发展国家重点实验室,江苏南京,210008 |
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| 基金项目: | 国家"863"项目,国家"973"项目 |
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| 摘 要: | 研究了在反应表面积相近条件下,纳米与微米级零价铁(Fe0)降解水相中2,4,6-三氯酚(TCP)的动力学差异.结果表明,纳米与微米级Fe0降解TCP过程均符合准一级反应动力学,表观反应速率常数Kobs分别为0.0165h-1和0.0046h-1,其比值(3.6)接近纳米与微米级Fe0对TCP的初始吸附量比值(2.9).造成2种Fe0降解与吸附效率差异的主要原因在于颗粒表面点位单元活性不同.Fe0对TCP的作用可分为2个阶段:前一阶段非反应点位主导的吸附作用高于反应点位主导的降解作用,后一阶段刚好相反.反应过程中,纳米与微米级Fe0反应组体系pH值从初始的5.7分别升至10.5和8.2,体系pH值处于酸性范围时可提高TCP降解速率.纳米Fe0在反应过程中表面氧化不断增加,其中大部分铁氧化物沉积在颗粒表面,少量以离子态存在于水相中.
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| 关 键 词: | 2 4 6-三氯酚 纳米级Fe0 微米级Fe0 动力学 |
| 收稿时间: | 2009-06-16; |
Comparison of degradation kinetics of 2,4,6-trichlorophenol using nanometer-and micrometer-sized Fe~0 |
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| JIN Sheng-yang,WANG Yu-Jun,LI Lian-zhen,ZHOU Dong-mei,WANG Shen-qiang.Comparison of degradation kinetics of 2,4,6-trichlorophenol using nanometer-and micrometer-sized Fe~0[J].China Environmental Science,2010,30(1):82-87. |
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| Authors: | JIN Sheng-yang WANG Yu-Jun LI Lian-zhen ZHOU Dong-mei WANG Shen-qiang |
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| Institution: | JIN Sheng-yang1,2,WANG Yu-Jun1,LI Lian-zhen1,ZHOU Dong-mei1,WANG Shen-qiang1(1.State Key Laboratory of Soil , Sustainable Agriculture,Institute of Soil Science,Chinese Academy of Sciences,Nanjing 210008,China,2.Graduate University of Chinese Academy of Sciences,Beijing 100049,China). |
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| Abstract: | The differences of degradation kinetics of 2,4,6-trichlorophenol(TCP) by nanometer-and micrometer-sized zero-valent iron(Fe0) with approximate surface area in aqueous solution were studied.The results showed that both degradation equations of TCP by nanometer-and micrometer-sized Fe0 were fitted well to the pseudo first-order kinetics.The observed reaction rate constant(Kobs) values were 0.0165 h-1 and 0.0046 h-1,respectively.The ratio of initial adsorption of TCP on the nanometer-to micrometer-sized Fe0 wa... |
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| Keywords: | 2 4 6-TCP nanometersized Fe~0 micrometersized Fe~0 kinetics |
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