摘要
比较研究了Fe^(2+)、Co^(2+)和Ag^+活化Na_2S_2O_8及KHSO_5对土壤中芘的氧化降解效果,并对上述反应过程进行动力学研究及芘降解产物成分分析。在土水质量比为1∶5,氧化剂和过渡金属离子添加摩尔比为10∶1,30℃恒温水浴磁力搅拌及反应时间5~120 min条件下开展了系列实验。结果表明,3种离子中Fe^(2+)活化Na_2S_2O_8氧化降解芘的去除效果最优,反应120 min后芘去除率为93.4%;Co^(2+)是活化KHSO_5的最佳过渡金属离子,反应5 min后芘去除率达94.5%,在反应120 min后芘去除率增高至97.0%。此外,降解动力学拟合结果表明Fe^(2+)、Co^(2+)和Ag^+活化Na_2S_2O_8和KHSO_5降解芘的过程符合准一级反应动力学,且土壤中绝大部分芘可被活化过硫酸盐体系氧化降解。
The degradation efficiency of pyrene in soil by Fe2+-,Co2+-,and Ag+-activated Na2S2O8 and KHSO5was investigated comparatively,and the kinetics of the reaction process and by-products of pyrene were analyzed. The experiments were carried out with a soil-to-water weight ratio of 1 ∶ 5,oxidant-to-transition-metal-ion molar ratio of 10 ∶ 1,constant water bath temperature of 30 ℃ with magnetic stirring,and reaction time of 5 to 120 min. The results showed that Na2S2O8 activated by Fe2+performed better in the removal of pyrene than the other two types of metal ions,and the obtained maximum removal yield of pyrene was 93. 4% in the case of a reaction time of 120 min. In contrast,Co2+was revealed to be the best transition metal ion for activating KHSO5 among the three types of metal ions,displaying a pyrene removal yield of 94. 5% with a reaction time of 5 min,which increased to 97. 0% at 120 min. Furthermore,the fitting results of degradation kinetics demonstrated that the pyrene degradation process by Fe2+-,Co2+-,and Ag+-activated Na2S2O8 and KHSO5follows pseudo-first-order reaction kinetics,and the pyrene in soil was almost completely degraded by the activated persulfate system.
出处
《环境工程学报》
CAS
CSCD
北大核心
2016年第10期6009-6014,共6页
Chinese Journal of Environmental Engineering
基金
2014上海市科委土壤专项(14231200502)
关键词
过硫酸钠
过硫酸氢钾
过渡金属离子
芘污染土壤
芘
sodium persulfate
potassium peroxymonosulfate
transition metal ions
pyrene contaminated soil
pyrene
作者简介
张宏玲(1986-),女,硕士,工程师,研究方向:污染土壤修复技术。E-mail:hll1521@126.com
通讯联系人,E—mail:lsjb2008@163.com
