K市某给水工程初步设计(含CAD图)
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K市某给水工程初步设计(含CAD图)(任务书,开题报告,论文计算书21000字,CAD图11张)
摘要:
随着人口增长、经济发展及人类生活水平的提高,人类对水的需求日益增长,对水质、水量的要求越来越高。
本设计为K市给水工程初步设计。
水源采用地表水,取水方式:岸边合建式取水构筑物取水。
净水厂规划产水能力15万吨/天。净水工艺流程为:原水→取水泵站→管式混合器→往复式隔板絮凝池→平流沉淀池→生物接触氧化池→V型滤池→液氯消毒→清水池→送水泵站→城市管网。根据原水水质及水温,絮凝剂选用碱式氯化铝,最高投药量为16.4mg/L。选液氯消毒剂,采用滤后加氯,最大加氯量为3.0mg/L。水厂绿化面积占水厂总面积的35%。出水水质符合《生活饮用水卫生标准》(GB5749-2006)。
关键词:岸边式取水构筑物;往复式隔板絮凝池;平流沉淀池;V型滤池
Absteract:
With the population growth, economic development and the improving of living standards , human not only demands for more and more water, but also increases their demands on water quality .
This design is about the water supply project for the K area of China which called city.
According to the original information, the raw water comes from the surface water by the type of semi-underground-shore.
The Design-scale of the water purification plants is about 150000 t/d,Process for the water purification: raw water →first pumping station →tube type mixer→Reciprocating baffled flocculation tank → stratospheric sedimentation tanks →Biological contact oxidation pond→V-filterBiological contact oxidation pondclearwell →secondary pumping station → Pipeline Network of city. According to the original water water quality andthe water temperature, Flocculant for PAC, the maximum dosage of 16.4 mg/L. Chooses the liquid chlorine disinfectant, after filtration chlorination design uses 3.0mg/L. Waterworks total area of green plants total area of 35%. Waterworks water quality conforms to the "standard of drinking water" requirement.
According to the distribution of users and the water quality, the water supply networks for the city using the way of district water supply.Both the water quality, According to the design results, all of the water Pressure,water quality and water storage can meet the uses’demands. (GB5749-2006)
Keywords : Shore-water structures; Reciprocating baffled flocculation tank; Stratospheric sedimentation tanks; V-filter
目录
第1章 背景资料_____________________________________________ 7
1.1设计资料_________________________________________________7
1.2设计水质_________________________________________________9
1.3水质分析_________________________________________________9
1.4设计水量_________________________________________________9
第2章 水厂设计概况_________________________________________ 9
2.1水厂厂址选择_____________________________________________9
2.2工艺流程选择_____________________________________________10
2.3取水构筑物_______________________________________________11
第3章 进水间设计计算________________________________________11
3.1 格栅计算_________________________________________________12
3.2 格网计算_________________________________________________12
3.3 格栅的起重设备___________________________________________13
3.4 进水间尺寸_______________________________________________13
第4章 取水泵房设计计算______________________________________14
4.1 设计流量_________________________________________________14
4.2 设计扬程_________________________________________________14
4.3 初选水泵与电动机_________________________________________15
4.4 吸水管路与压水管路计算___________________________________15
4.5 机组与管道布置___________________________________________15
4.6 吸水管路与压水管路水头损失_______________________________17
4.7水泵的安装高度___________________________________________ 17
4.8 附属设备的选择___________________________________________17
4.9 泵房建设高度的确定_______________________________________18
第5章 溶解池与溶液池设计计算________________________________19
5.1 溶液池___________________________________________________19
5.2 溶解池___________________________________________________19
5.3 投药管___________________________________________________20
5.4 计量投加设计计算_________________________________________20
5.5 药剂仓库计算_____________________________________________21
5.6 混合器设计计算___________________________________________21
第6章 絮凝池设计计算________________________________________22
6.1 设计要点_________________________________________________22
6.2 絮凝池具体计算___________________________________________22
第7章 沉淀池设计计算________________________________________27
7.1 设计要点_________________________________________________27
7.2 沉淀池具体计算___________________________________________27
第8章 生物接触氧化池设计计算________________________________30
8.1 设计资料_________________________________________________30
8.2 生物接触氧化池的有效容积_________________________________31
8.3 水力停留时间_____________________________________________31
8.4 生物氧化池总面积_________________________________________31
8.5 氧化池格数_______________________________________________31
8.6 氧化池总高度_____________________________________________31
8.7 需氧量及空气量计算_______________________________________32
8.8 穿孔布气空气管道计算_____________________________________32
8.9 剩余污泥计算_____________________________________________33
第9章 V型滤池设计计算_______________________________________33
9.1 设计要点_________________________________________________34
9.2 滤池设计参数_____________________________________________34
9.3 平面尺寸计算_____________________________________________34
9.4 水封井设计_______________________________________________35
9.5 反冲洗管渠计算___________________________________________36
9.6 反冲洗管渠布置___________________________________________38
9.7 V型槽的设计______________________________________________40
9.8 反冲洗水的供给___________________________________________41
9.9 反冲洗气的供给___________________________________________44
9.10 设备选型________________________________________________47
第10章 消毒设计计算_________________________________________47
10.1 加氯量__________________________________________________47
10.2 加氯间、氯库____________________________________________48
第11章 清水池设计计算_______________________________________49
11.1 清水池的有效容积________________________________________49
11.2 清水池的管道系统________________________________________49
11.3 清水池的布置____________________________________________50
第12章 排泥工艺设计计算_____________________________________51
12.1 排泥工艺________________________________________________51
12.2 构筑物计算______________________________________________51
12.3 脱水机房________________________________________________52
12.4 加药系统________________________________________________52
第13章 二泵房设计计算_______________________________________53
13.1 设计要求________________________________________________53
13.2 水泵机组的初步选择______________________________________53
13.3 机组基础尺寸的确定______________________________________53
13.4 吸水管路和压水管路的计算________________________________53
13.5 机组与管道布置__________________________________________53
13.6 泵房形式的选择__________________________________________54
13.7 吸水管路和压水管路水头损失______________________________54
13.8 复合水泵________________________________________________55
13.9 水泵的安装高度__________________________________________55
13.10 附属设备的选择_________________________________________55
13.11 泵房的建设高度_________________________________________56
第14章 水厂平面和高程布置___________________________________57
14.1 平面布置________________________________________________57
14.2 高程布置________________________________________________58
14.3 管渠水力计算____________________________________________59
14.4 给水构筑物高程计算_____________________________________61
第15章 自动检测控制系统____________________________________62
15.1 控制系统和要求_________________________________________62
15.2 控制方式_______________________________________________62
15.3 控制内容_______________________________________________62
15.4 数据的计算和处理_______________________________________65
第16章 工程造价估算________________________________________66
16.1 建筑工程造价___________________________________________66
16.2 常年运转费_____________________________________________67
总结致谢____________________________________________________69
参考文献____________________________________________________69