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探究UVH2O2对水中啶虫脒的降解

时间:2018-08-02 20:50来源:毕业论文
针对水环境中啶虫脒难以通过传统工艺去除的问题,采用高级氧化技术紫外激活过氧化氢( UV/H2O2) 去除水中啶虫脒 。比较了 UV/H2O2 系统与UV 系统和H2O2系统对啶虫脒的降解效果

摘要:针对水环境中啶虫脒难以通过传统工艺去除的问题,采用高级氧化技术紫外激活过氧化氢( UV/H2O2) 去除水中啶虫脒 。比较了 UV/H2O2 系统与UV 系统和H2O2系统对啶虫脒的降解效果,并分别考察了底物浓度、过氧化氢浓度、pH值、阴离子和不同水体对啶虫脒在UV/H2O2系统下降解效果的影响。实验的结果表明: UV/H2O2 会产生羟基自由基,大大提高了水中啶虫脒的降解速率; 啶虫脒降解过程符合准一级动力学模型; 较低的啶虫脒浓度和较高的过氧化氢浓度有利于啶虫脒降解; pH=5时,啶虫脒降解速率较快; 氯离子浓度在5mmol/L时啶虫脒降解速率较快;碳酸氢根离子浓度在5mmol/L时啶虫脒降解速率较快;硝酸根离子浓度在10mmol/L时啶虫脒降解速率较快;在工业废水中啶虫脒降解速率较慢。26639
毕业论文关键词:啶虫脒;紫外;过氧化氢;高级氧化工艺
Study on UV/H2O2 degradation of acetamiprid in water
Abstract: As traditional technologies were ineffective in removal of acetamiprid in water,one of the advanced oxidation processes ( AOPs) ,UV-activated perhydrol ( UV / H2O2) was used for degradation of  acetamiprid in water. The efficiencies of UV / H2O2, UV and H2O2 were compared. The effects of initial acetamiprid concentration,H2O2 concentration,p H value , negative ions  ,and different waters on UV / H2O2 degradation of acetamiprid  were studied. The results revealed that the UV/H2O2 could generates hydroxyl radicals to help decompose acetamiprid in water more quickly. The acetamiprid degradation process was in line with the pseudo-first-order kinetic model. Lower initial acetamiprid concentration and higher H2O2 concentration could enhance the reaction. The degradation of acetamiprid by UV /H2O2 was faster when the pH value was 5.The degradation of acetamiprid by UV / H2O2 was faster when the chloride ions concentration was 5mmol/L.The degradation of acetamiprid by UV / H2O2 was faster when the bicarbonate ions concentration was 5mmol/L.The degradation of acetamiprid by UV / H2O2 was faster when the nitrate ions concentration was 10mmol/L.The degradation of acetamiprid by UV / H2O2 was slower when the industrial waste water was used.
Key words: Acetamiprid;ultraviolet;perhydrol;advanced oxidation processes
目  录

摘要1
关键词1
Abstract1
Key words1
引言1
材料与方法2
1.1  材料 2
1.2  方法 2
2  结果与分析2
2.1  UV、H2O2、UV/H2O2降解啶虫脒的比较2
2.2  底物浓度对UV/H2O2光解解啶虫脒的影响3
2.3  过氧化氢浓度对UV/H2O2光解啶虫脒的影响4
2.4  pH对UV/H2O2光解啶虫脒的影响5
2.5  阴离子浓度对UV/H2O2光解啶虫脒的影响6
2.5.1  氯离子浓度对UV/H2O2光解啶虫脒的影响6
2.5.2  碳酸氢根离子浓度对UV/H2O2光解啶虫脒的影响7
2.5.3  硝酸根离子浓度对UV/H2O2光解啶虫脒的影响8
2.6  不同水体对UV/H2O2光解啶虫脒的影响9
3  讨论10
致谢11
参考文献11
探究UV/H2O2对水中啶虫脒的降解  引言:农药在减少农田的病虫草害、提高农产品产量等方面有着极其重要的作用。中国能够用世界上7%的耕地养活世界上22%的人口,农药起到了很大的作用。农药一般可以分为生物农药和化学农药两大类[1]。化学农药由于其成本低廉方便快捷、起效快、作用时间长、应用成熟等特点,在农业生产中起到了不可替代的作用。然而,由于化学农药在中国长期、大范围、大量地被使用,并且许多化学农药自身难以被降解,稳定性高,造成了化学农药对土壤、水体、空气造成了严重的污染,甚至破坏了自然界的生态平衡[1]。由于化学农药通过食物链的富集作用,最终给人类自身健康带来危害。农药在降解速率取决于环境因素(如温度、pH、光照、微生物、土壤性质等)和农药自身的性质(如溶解度、蒸汽压、熔点、化学结构、浓度等)。在近几十年来,关于农药光降解方面的研究进展迅速,其中对光敏剂和光活化产物的研究成果,对于环境污染治理尤其是农药污染治理,显示出了重要的应用前景。农药的光解对于农药在环境中的归趋非常重要。农药的光化学降解是农药环境安全性评价的重要内容,许多国家规定农药在进行登记时,必须提供该农药的光解研究资料[2]。 探究UVH2O2对水中啶虫脒的降解:http://www.youerw.com/huaxue/lunwen_20873.html
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