摘要:水体中存在的微量持久性有机污染物对人类的正常生命活动构成了严重威胁。电催化氧化技术因具有适应性广，氧化性强，无二次污染，反应迅速，设备及其操作简单等优点而日益成为难降解有机废水处理领域的研究热点[1]。本实验采用电催化氧化法对高浓度有机制药废水进行处理, 探究了废水的状态、种类、PH 值、电压、时间、无机盐的投加等因素对COD、吸光度去除率的影响。 结果表明, 这种方法能有效去除废水中的COD, 特别是时间、无机盐的投加、废水的种类这三个因素对COD 的去除率影响较大。同时也采用了物理吸附法与电催化组合的方法，实验结果表明，在适宜的条件下，COD的去除率可以达到80%以上，由此可见，开展电催化氧化法处理难生物降解有机废水的研究开发工作很有必要。21096
关键字：电催化;制药废水;阳极氧化;难生物降解有机废水
Abstract
The presence of trace water POPs  pose a serious threat to human normal life activities. Electro catalytic oxidation technology has wide adaptability, strong oxidation, no two pollution, rapid response, the advantage of equipment and simple operation and become refractory organic wastewater treatment field. This experiment adopts the electro catalytic oxidation method for treatment of high concentration organic wastewater, researched the influence of state, types, PH values of voltage, time, water, inorganic salt dosage and other factors on the removal rate of COD. The results show that, this method can effectively remove COD in wastewater, especially time, inorganic salt type, investment and waste of these three factors on the removal rate of COD influence. At the same time, the method of physical adsorption and catalytic combination is also used, the experimental results show that, under appropriate conditions, the removal rate of COD can reach more than 80%,, electro catalytic oxidation process to carry out research and development work on biodegradation of organic wastewater is necessary.
Key Words: electro catalysis, pharmaceutical wastewater, anodic oxidation, refractory organic wastewater
目录
1、绪论    1
1.1序言    1
1.2近代我国制药废水的概况    1
1.2.1我国制药废水的现状    1
1.2.2制药工业废水的特征分析    2
1.3制药工业废水的处理技术    3
1.3.1物化处理    3
1.3.2化学处理    3
1.3.3生化处理    4
1.3.4多种方法的组合处理    5
1.4电催化氧化技术    5
1.3.1电催化氧化法概述    5
1.3.2电催化氧化法原理    6
1.3.3影响电催化降解率的因素    8
1.5研究的目的及内容    9
1.5.1电催化氧化技术应用概况    9
1.5.2立题的意义及主要研究内容    10
2、实验仪器、材料、及实验方法    10
2.1主要实验试剂和仪器.    10
2.2实验方法    11
2.2.1重铬酸钾法测CODcr    11
2.2.2紫外分光光度计测吸光度    12
2.2.3COD测试仪测CODcr    12
3、结果与讨论    13
3.1电催化静态实验    13
3.1.1实验方案    13
3.1.2数据分析    13
3.2电催化动态实验（一）    17
3.1.1实验方案    17
3.1.2数据分析    17
3.3电催化动态实验（二）    22
3.1.1实验方案    22
3.1.2数据分析    22
结论    28 难降解废水处理研究与设计+文献综述:http://www.751com.cn/huaxue/lunwen_13161.html