水资源与水工程学报

王琼，陈维芳，潘玲，晏长成，张小毛.纳米零价铁/活性炭复合材料去除水中六氯苯的影响因素研究水资源与水工程学报[J].,2015,26(1):91-95

纳米零价铁/活性炭复合材料去除水中六氯苯的影响因素研究

Study on factors that affect hexachlorobenzene removal in water by nano zero-valent iron/activated carbon composite

DOI：10.11705/j.issn.1672-643X.2015.01.018

英文关键词:nano zero valent iron activated carbon hexachlorobenzene water treatment

基金项目:上海市自然科学基金项目 (14ZR1428900);上海市科委能力建设项目 (13230502300);教育部留学回国科研启动基金(SEM2013)

作者	单位
王琼，陈维芳，潘玲，晏长成，张小毛	（上海理工大学环境与建筑学院，上海 200093）

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中文摘要:

本文主要研究纳米零价铁/活性炭材料对水中六氯苯(HCB)的去除能力和影响因素。吸附等温研究结果表明该材料对六氯苯的去除符合Langmuir吸附即化学吸附机理。对水中六氯苯和脱氯产物的分析证明纳米零价铁/活性炭对六氯苯的去除包括吸附和脱氯。溶液pH，水中常见阴阳离子的存在等因素都会影响六氯苯去除。低pH对去除有利，这主要是由于低pH对纳米零价铁的氧化过程有利，导致脱氯反应加快。低浓度的HCO^-₃ 、Cl^-和SO₄^2-能促进六氯苯的去除。这些离子在低浓度时能加快零价铁的腐蚀，对六氯苯的去除有利。而高浓度时则由于铁氧化物沉积会产生抑制作用。NO^-₃则与六氯苯发生竞争反应，导致六氯苯的去除随硝酸盐的浓度增加而降低。常见的阳离子如Mg²⁺对六氯苯的去除没有影响。Cu²⁺和Fe²⁺的存在不仅改变了溶液的pH，还对纳米零价铁的氧化还原特性有影响。但总体而言，Cu²⁺和Fe²⁺的存在对六氯苯的去除是有利的。

英文摘要:

The paper mainly investigated the hexachlorobenzene (HCB) removal capability from water by nano zero valent iron/activated carbon and factors that affect removal capability. Results revealed that HCB removal fit Langmuir model well indicating chemical sorption. Monitoring of HCB and its potential dechlorination products confirmed that HCB removal include both adsorption and dechlorination. Solution pH and co-present anions and cations both affected HCB removal. HCB removal was favored at acidic pH since zero-valent iron oxidation was facilitated while pH was low. Bicarbonate, chloride and sulfate at low concentration could improve HCB removal through corrosion facilitation while the effect leveled off at high concentration. In contrast, nitrate competed with HCB for zero-valent iron can result in inhibition. HCB removal decreased with the increase of nitrate concentration. Cation such as magnesium has no effect on removal. However, presence of copper and ferrous enhanced removal by changing the solution pH and zero-valent iron's redox characteristics.

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