文件类型:DOC/Microsoft Word 文件大小:字节
毕业论文正文及装祯基本要求
1,论文装祯顺序及要求
(1)封面
(2)封二
(3)封三(封面,封二,封三利用前面已设计版面)
(4)目录
(5)内容摘要(其中英语摘要单词数量不少于500个)
(6)正文
(7)参考文献
(8)封底
(9)全部内容采取软包装形式进行装祯
2,论文打印要求
(1)统一A4纸打印
(2)论文主标题3#字黑体,居中
(3)副标题4#字黑体,居中
(4)论文内各标题4#黑体
(5)正文宋体小4#字
(6)参考文献楷体4#字
(7)注释一律采用脚注,宋体5#
毕 业 设 计 [论 文]
题目:
系 别:
专 业:
姓 名:
学 号:
指导教师:
平顶山工学院
年 月 日
目 录
1 文献综述…………………………………………………………………………1
1.1 氨氮废水的危害性及主要来源…………………………………………………1
1.2 氨氮废水处理技术现状…………………………………………………………3
1.2.1 氨吹脱,汽提法………………………………………………………………………4
1.2.2 离子交换法……………………………………………………………………………5
1.2.3 折点氯化法……………………………………………………………………………5
1.2.4 催化氧化法……………………………………………………………………………6
1.2.5 化学沉淀法……………………………………………………………………………7
1.2.6 生物法…………………………………………………………………………………8
1.3 化学沉淀法处理高浓度氨氮废水…………………………………………………11
1.3.1 化学沉淀法处理高浓度氨氮废水的原理及特点……………………………………11
1.3.2 化学沉淀法处理高浓度氨氮废水的影响因素………………………………………11
1.3.3 经济分析………………………………………………………………………………13
1.3.4 小结……………………………………………………………………………………14
1.4 本研究的选题意义及解决的主要内容………………………………………14
1.4.1 选题意义………………………………………………………………………………14
1.4.2 研究解决的主要内容…………………………………………………………………16
2 化学沉淀法处理高浓度氨氮废水…………………………………………………17
2.1 序言………………………………………………………………………………17
2.2 试验部分…………………………………………………………………………17
2.2.1 试验所用药剂…………………………………………………………………………17
2.2.2 试验所用仪器…………………………………………………………………………17
2.2.3 模拟高浓度氨氮废水的配备…………………………………………………………18
2.2.4 分析方法的选择………………………………………………………………………18
2.2.5 标准曲线的绘制………………………………………………………………………19
2.2.6 试验原理………………………………………………………………………………20
2.2.7 试验工艺流程及试验装置图…………………………………………………………20
2.3 试验结果及讨论…………………………………………………………………21
2.3.1药剂的选择……………………………………………………………………………21
致 谢………………………………………………………………………………56
参考文献……………………………………………………………………………57
摘 要
随着世界工农业的迅猛发展,氨氮废水的排放量也在逐年剧增,生活污水,动物排泄物,焦化废水,炼油废水,合金废水等大量的工业废水均是氨氮废水的重要来源,而氨氮是引起水体富营养化的重要原因之一,特别是高浓度氨氮废水对水体的污染更加严重.因此,探求经济有效的控制氨氮废水的污染问题,是当前摆在全球环境工作者面前的重大课题.
在人们继续致力于对废水生物脱氮技术深入研究的同时,化学沉淀法脱氮技术因其工艺简单,反应迅速,净化率高,尤其适用于高浓度氨氮废水的处理而受到各国研究者的青睐.用化学沉淀法处理高浓度氨氮废水,就是在氨氮废水中加入镁盐和磷酸盐,使其与氨氮在一定条件下发生反应,生成磷酸铵镁,其溶度积很小,在水中以沉淀物形式存在,同时,这种沉淀物含有氮,磷,镁等植物所需的营养元素,可以用作价值比较高的缓释复合肥料.
由于氨氮废水来源广泛,性质各异,本文先采用化学沉淀法处理模拟高浓度氨氮废水,以便在稳定的条件下初步确定适合的反应条件.通过试验选定固体氯化镁和固体磷酸氢二钠作为沉淀剂,同时对影响因素逐个分析,得出适合的反应条件:pH值为8~10之间,反应时间为10min左右,搅拌速度为100r/min左右,Mg2+∶NH4+∶PO43-的摩尔比应为(1.0~1.2)∶1∶(0.8~1.0)左右,在室温下进行即可,此时,废水氨氮的去除率均能达到比较理想的效果.另外,氨氮去除率随着初始氨氮浓度的增大有明显的提高.
关键词:氨氮废水;化学沉淀法;磷酸铵镁;晶析辅助;数学模型
Abstract
With the agriculture and industry development, the pollution sources of wastewater with ammonia-nitrogen become more and more, arid does the amount of discharges, which are from all types of industrial wastewaters, such as, metallurgical plant wastewater and petroleum refinery plant wastewater and landfill leachate, besides domestic wastewater and animal excrement. The key reason of eutrophication is ammonia nitrogen. How to remove ammonia-nitrogen from wastewater is an important problem for environment researchers.
When most researchers attach importance on biodenitrification, the chemical precipitation method with simple technology, fast reaction speed and high removal efficiency has been taken more and more attention. It is studied in this paper how to remove high strength ammonia nitrogen from wastewater by chemical precipitation, that is, magnesium salt and phosphate salt are added into this kind of wastewater, and precipitation occurs at an optimal condition, to produce magnesium-ammonium-phosphate which is an insoluble compound and contains only three nutrients of phosphorus, nitrogen and magnesium. These nutrients are valuable to plants.
Consider revising origin abroad and different in character of ammonia-nitrogen weastewater, It is introduced artificial wastewater with high strength ammonia nitrogen is treated by chemical precipitation. The effects of the factors are analyzed, ammonia-nitrogen removal rate of artificial wastewater is reach compare perfect effect at pH between 9 and 10, react time is about 10min,whisk speed is 100r/min, magnesium, ammonium and phosphate molar ratios of (1.1~1.2): 1: (0.8~1.0). However, there is residual phosphate in the treated wastewater. Aside, the heightener of ammonia-nitrogen removal follows ammonia-nitrogen original concentration.
Keywords: ammonia-nitrogen wastewater; chemical precipitation; MAP; crystallization-
combined; mathematical model
正文部分
致谢
学生:
参考文献
References
[1] 国家环保总局.中国环境状况公报.2000.
[2] 国家环保总局.中国环境状况公报.2005.
[3] 刘天齐.环境保护.第二版.化学工业出版社.2000:108.
[4] 沈耀良,王宝贞.废水生物处理新技术—理论与应用.北京:中国环境科学出版社,2000.
华中科技大学硕士学位论文
平顶山工学院学位论文(毕业设计)
1,论文装祯顺序及要求
(1)封面
(2)封二
(3)封三(封面,封二,封三利用前面已设计版面)
(4)目录
(5)内容摘要(其中英语摘要单词数量不少于500个)
(6)正文
(7)参考文献
(8)封底
(9)全部内容采取软包装形式进行装祯
2,论文打印要求
(1)统一A4纸打印
(2)论文主标题3#字黑体,居中
(3)副标题4#字黑体,居中
(4)论文内各标题4#黑体
(5)正文宋体小4#字
(6)参考文献楷体4#字
(7)注释一律采用脚注,宋体5#
毕 业 设 计 [论 文]
题目:
系 别:
专 业:
姓 名:
学 号:
指导教师:
平顶山工学院
年 月 日
目 录
1 文献综述…………………………………………………………………………1
1.1 氨氮废水的危害性及主要来源…………………………………………………1
1.2 氨氮废水处理技术现状…………………………………………………………3
1.2.1 氨吹脱,汽提法………………………………………………………………………4
1.2.2 离子交换法……………………………………………………………………………5
1.2.3 折点氯化法……………………………………………………………………………5
1.2.4 催化氧化法……………………………………………………………………………6
1.2.5 化学沉淀法……………………………………………………………………………7
1.2.6 生物法…………………………………………………………………………………8
1.3 化学沉淀法处理高浓度氨氮废水…………………………………………………11
1.3.1 化学沉淀法处理高浓度氨氮废水的原理及特点……………………………………11
1.3.2 化学沉淀法处理高浓度氨氮废水的影响因素………………………………………11
1.3.3 经济分析………………………………………………………………………………13
1.3.4 小结……………………………………………………………………………………14
1.4 本研究的选题意义及解决的主要内容………………………………………14
1.4.1 选题意义………………………………………………………………………………14
1.4.2 研究解决的主要内容…………………………………………………………………16
2 化学沉淀法处理高浓度氨氮废水…………………………………………………17
2.1 序言………………………………………………………………………………17
2.2 试验部分…………………………………………………………………………17
2.2.1 试验所用药剂…………………………………………………………………………17
2.2.2 试验所用仪器…………………………………………………………………………17
2.2.3 模拟高浓度氨氮废水的配备…………………………………………………………18
2.2.4 分析方法的选择………………………………………………………………………18
2.2.5 标准曲线的绘制………………………………………………………………………19
2.2.6 试验原理………………………………………………………………………………20
2.2.7 试验工艺流程及试验装置图…………………………………………………………20
2.3 试验结果及讨论…………………………………………………………………21
2.3.1药剂的选择……………………………………………………………………………21
致 谢………………………………………………………………………………56
参考文献……………………………………………………………………………57
摘 要
随着世界工农业的迅猛发展,氨氮废水的排放量也在逐年剧增,生活污水,动物排泄物,焦化废水,炼油废水,合金废水等大量的工业废水均是氨氮废水的重要来源,而氨氮是引起水体富营养化的重要原因之一,特别是高浓度氨氮废水对水体的污染更加严重.因此,探求经济有效的控制氨氮废水的污染问题,是当前摆在全球环境工作者面前的重大课题.
在人们继续致力于对废水生物脱氮技术深入研究的同时,化学沉淀法脱氮技术因其工艺简单,反应迅速,净化率高,尤其适用于高浓度氨氮废水的处理而受到各国研究者的青睐.用化学沉淀法处理高浓度氨氮废水,就是在氨氮废水中加入镁盐和磷酸盐,使其与氨氮在一定条件下发生反应,生成磷酸铵镁,其溶度积很小,在水中以沉淀物形式存在,同时,这种沉淀物含有氮,磷,镁等植物所需的营养元素,可以用作价值比较高的缓释复合肥料.
由于氨氮废水来源广泛,性质各异,本文先采用化学沉淀法处理模拟高浓度氨氮废水,以便在稳定的条件下初步确定适合的反应条件.通过试验选定固体氯化镁和固体磷酸氢二钠作为沉淀剂,同时对影响因素逐个分析,得出适合的反应条件:pH值为8~10之间,反应时间为10min左右,搅拌速度为100r/min左右,Mg2+∶NH4+∶PO43-的摩尔比应为(1.0~1.2)∶1∶(0.8~1.0)左右,在室温下进行即可,此时,废水氨氮的去除率均能达到比较理想的效果.另外,氨氮去除率随着初始氨氮浓度的增大有明显的提高.
关键词:氨氮废水;化学沉淀法;磷酸铵镁;晶析辅助;数学模型
Abstract
With the agriculture and industry development, the pollution sources of wastewater with ammonia-nitrogen become more and more, arid does the amount of discharges, which are from all types of industrial wastewaters, such as, metallurgical plant wastewater and petroleum refinery plant wastewater and landfill leachate, besides domestic wastewater and animal excrement. The key reason of eutrophication is ammonia nitrogen. How to remove ammonia-nitrogen from wastewater is an important problem for environment researchers.
When most researchers attach importance on biodenitrification, the chemical precipitation method with simple technology, fast reaction speed and high removal efficiency has been taken more and more attention. It is studied in this paper how to remove high strength ammonia nitrogen from wastewater by chemical precipitation, that is, magnesium salt and phosphate salt are added into this kind of wastewater, and precipitation occurs at an optimal condition, to produce magnesium-ammonium-phosphate which is an insoluble compound and contains only three nutrients of phosphorus, nitrogen and magnesium. These nutrients are valuable to plants.
Consider revising origin abroad and different in character of ammonia-nitrogen weastewater, It is introduced artificial wastewater with high strength ammonia nitrogen is treated by chemical precipitation. The effects of the factors are analyzed, ammonia-nitrogen removal rate of artificial wastewater is reach compare perfect effect at pH between 9 and 10, react time is about 10min,whisk speed is 100r/min, magnesium, ammonium and phosphate molar ratios of (1.1~1.2): 1: (0.8~1.0). However, there is residual phosphate in the treated wastewater. Aside, the heightener of ammonia-nitrogen removal follows ammonia-nitrogen original concentration.
Keywords: ammonia-nitrogen wastewater; chemical precipitation; MAP; crystallization-
combined; mathematical model
正文部分
致谢
学生:
参考文献
References
[1] 国家环保总局.中国环境状况公报.2000.
[2] 国家环保总局.中国环境状况公报.2005.
[3] 刘天齐.环境保护.第二版.化学工业出版社.2000:108.
[4] 沈耀良,王宝贞.废水生物处理新技术—理论与应用.北京:中国环境科学出版社,2000.
华中科技大学硕士学位论文
平顶山工学院学位论文(毕业设计)
·上一篇:毕业论文相关表格
·下一篇:毕业论文任务书