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作 者:乐晨[1] 吴锦华[1] 李平[1] 王向德[1] 杨渡[2]
机构地区:[1]污染控制与生态修复广东省普通高等学校重点实验室,工业聚集区污染控制与生态修复教育部重点实验室,华南理工大学环境科学与工程学院,广州510006 [2]深圳大学化学与化工学院,广东深圳518060
出 处:《安全与环境学报》2011年第4期64-67,共4页Journal of Safety and Environment
基 金:国家自然科学基金项目(50708039);国家863项目(2009AA063902);中央高校基本科研业务费资助项目(2009zm0202);教育部新教师基金项目(20070561011);广东省自然科学基金项目(05300188)
摘 要:采用间歇试验考察零价铁去除对氯硝基苯的效果,研究初始pH值、零价铁粒径、零价铁投加量和氧对反应过程的影响。结果表明,在中性和弱酸性条件下零价铁能有效去除对氯硝基苯,反应过程符合准一级动力学,反应终产物为对氯苯胺;降低零价铁粒径和增加零价铁投加量可提高对氯硝基苯的去除率。当零价铁粒径为0.05mm、投加量为0.5 g/L、对氯硝基苯初始质量浓度为25 mg/L,反应6 h后,对氯硝基苯去除率可达100%。氧对零价铁还原对氯硝基苯具有竞争性抑制作用,但零价铁能消耗水中溶解氧并维持对氯硝基苯还原反应进行,与厌氧反应过程相比,空气-水体系对氯硝基苯去除率下降19.18%。研究表明,采用零价铁还原法可有效去除地下水中的对氯硝基苯。para-chloronitrobenzene (p-CNB) is a toxic contaminant commonly found in ground water. Its existence in ground water threatens the safety of drinking-water source. In this paper, the re- duction of p-CNB by zero-valent iron (ZVI) was investigated with batch tests to assess the feasibility of ZVI for the removal of p-CNB from ground water. The effects of initial pH, iron diameter, iron dosage and oxygen were studied. The results showed that p-CNB could be effectively reduced and the end product of the reaction was para-chloroaniline (p-CAN). The reaction could be described by using pseudo first-order kinetics. High removal efficiency could be achieved when initial pH value at 7 and below. It is because acidic condition promotes the corrosion of iron, which could produce suffi- cient hydrogen donor from H ~ reduction for the transformation of p- CNB. Moreover, lower pH may eliminate ferrous hydroxide and other protective layers accumulating on the surface of ZVI and generate more fresh active sites. The decrease of iron diameter and the in- crease of iron dosage have enhanced p-CNB removal rate. In this work, fine iron powders possessed higher reaction efficiency for p- CNB removal due to its higher surface area when compared with the bigger iron particles, p-CNB removal rate increased with iron dosage because more active sites were available for the reduction of p-CNB. p-CNB removal rate reached 100% in 6 h when iron diameter, iron dosage and initial p-CNB concentration were 0.05 ram, 0.5 g/L and 25 mg/L, respectively. Oxygen inhibited p-CNB reduction due to its competition with ZVI for electrons. Anyway, ZVI were able to deplete oxygen dissolved in water and maintained p-CNB reduction process. When compared with anaerobic system, p-CNB removal rate of air-water system decreased about 19%. The results in this study indicat- ed that ZVI reduction is an effective way to remove p-CNB from ground water.
分 类 号:X523[环境科学与工程—环境工程]
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