生活污水全套设计图纸

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年终整理污水处理厂设计图纸(共4套图纸)

年终整理污水处理厂设计图纸(共4套图纸)
正门红y=497613.0000x=3502899.7740A1 1:1000厂外管线平面布置图1:1000梅 山 西 路污水处理厂侧门集中绿地溪流幽径假山21112M1x=3502899.7740y=497780.0000上3梅山D820X10-CS-WW-535.56.301个个厂外管线平面布置图设计阶段米单位1:1000比 例图号或标准号1序号直缝卷焊钢管名称32174%%d弯头90%%d弯头材 料 明 细 表规 格D820X10碳钢材 料DN800DN800碳钢碳钢施工重量(公斤)单重536数量199.8107092.8总重备 注124.0路6.30路接自市政污水管网D1020X10-CS-WW南提升泵站2.0旗8.302.063x=3503119.7740y=497613.0000会 签 栏专 业日 期姓 名1071348541364493y=497780.0000x=3503119.7740浮渣井13N污泥回流泵站维修及仓库121011门卫污泥脱水间综合楼6798风机房配电间出水泵站A/A/O微曝氧化沟粗格栅池.提升泵站(厂外)名 称4 53二沉池接触消毒池21序号细格栅池.沉砂池构(建)筑物一览表说 明: \P1.本图是依据建设单位提供的总平面图绘制的1:1000总平面布置图。\P2.本图标高以m计,管径、尺寸以mm计。\P3.本工程采用黄海高程系统。厂区平整地面设计标高为8.50m。\P4.污水处理厂总处理规模为4万m³/d。一、二期各2万m³/d。\P5.压力管为管中心标高,重力管为管内底标高。\P6.管材:污水管采用直缝焊接钢管,焊接。\P7.所有钢管及钢零件加工后均应除锈后防腐,做法详见工艺给排水设计总说明。\P8.本图管道材料统计的是厂外泵站至厂区围墙处之间的管材,进入泵站的市政排水管不在本次工程范围内。\P9.本图统计的材料为本期改造所需的材料,包括泵房之后的改造所需

水污染课程设计----污水处理厂AAO工艺设计(含全套图纸)

水污染课程设计----污水处理厂AAO工艺设计(含全套图纸)

《水污染控制工程》课程设计学院:专业:XX:学号:指导老师:目录引言41设计任务及设计资料5 1.1设计任务与内容51.2设计原始资料51.2.1城市气象资料51.2.2地质资料51.2.3设计规模51.2.4进出水水质62、设计说明书6 2.1去除率的计算62.1.1溶解性BOD的去除率65的去除率:72.1.2 CODr2.1.3.SS的去除率:72.1.4.总氮的去除率:72.1.5.磷酸盐的去除率82.2城市污水处理工艺选择82.3、污水厂总平面图的布置92.4、处理构筑物设计流量(二级)92.5、污水处理构筑物设计92.5.1.中格栅和提升泵房(两者合建在一起)9 2.5.2、沉沙池102.5.3、厌氧池112.5.4、缺氧池112.5.5、好氧曝气池112.5.6、二沉池122.6、污泥处理构筑物的设计计算122.6.1污泥泵房122.6.2污泥浓缩池122.7、污水厂平面,高程布置132.7.1平面布置132.7.2管线布置132.7.3 高程布置143 污水厂设计计算书14 3.1污水处理构筑物设计计算143.1.1泵前中格栅143.1.2污水提升泵房163.1.3、泵后细格栅173.1.3、沉砂池183.1.4、厌氧池203.1.5、缺氧池计算203.1.6、好氧曝气池的设计计算213.1.8、二沉池283.2 污泥处理部分构筑物计算313.2.1污泥浓缩池设计计算:313.3、高程计算363.3.1污水处理部分高程计算:363.3.2高程图见CAD图363.3.3污水处理厂工艺流程图与总平面布置图36参考文献37XX市污水处理厂A/A/O工艺设计作者:闫赛红,指导教师:孙丰霞(XX农业大学资源与环境学院)【摘要】随着社会进步,人们对于城市污水的处理的要求愈加严格。

除了基本的去除污水中BOD和SS的要求外,通常还要求脱氮除磷,以保护水体环境。

本设计即采用了众多脱氮除磷工艺中较为经济合理的AAO工艺对进入污水厂的污水进行处理。

某公寓全套给排水系统cad施工设计图纸

某公寓全套给排水系统cad施工设计图纸
工程编号校对审核工程负责人图号日期程客房给排水详图3600公寓公寓3600三层给排水平面图 1:10036003900720010500健身房51002700276004200360400排立-0会议室200开水间服务办公给立-04800039003900-3洗立390039003900-3排立客房-5洗立客房排立-5消火栓开门方向热立消立-1200230-1给立-3给立100200100M1-1-2消立-2给立M1排立洗立-1-1-2洗立热立-3M1热立-2-0热立M1热立-5-5给立M1给立-4热立-4走廊-2排立洗立-4排立-48100720066003600390072001050048000390039003900390039003900客房3900二层给排水平面图 1:1003900480003900客房39003900 套 间-1-13605100小会议室2700276004200大堂上空给立排立200电热水器400-0给立服务办公-0洗立360081003600330039003300200消火栓开门方向-1消立-1100热立230100100200-3洗立-3排立给立-3给立-2-2消立-2-3热立热立-1排立洗立-2-2排立 套 间客房-5洗立-0热立走廊给立-4-5给立-5排立客房热立-4-5热立-4洗立客房排立-4客房3900390039004800039003900DNDN编号设复计核任主室工科总总程长体师三层给排水平面图 (施工设计)日 期图 号第4设计编号0412水张张共360036003600-6洗立公寓洗立-7男厕甲级证书等级36006900-4给立-6洗脸间消立-3100消立200排立-7排立-6给立-7公寓公寓公寓2100276003606900DNDNDNDN%%p0.000接电热水器进水管DNDNDNDNDNDNDN-0.15DNDN3.900DNDN

生活污水处理CASS工艺整套工艺部分图纸

生活污水处理CASS工艺整套工艺部分图纸
鼓风机房二期二期预留二期鼓风机鼓风机房侧立面图二期鼓风机鼓风机%%p0.000-0.800%%p0.000鼓风机房正立面图管道沟-0.700阀门井+0.300%%p0.000-0.400管道沟大样图%%p0.000-0.800+0.420-3.000-1.200%%p0.000+0.300A-A剖面图B-B剖面图BBAA机组地脚螺栓尺寸鼓风机基础平面图M16×220100×100预留地脚螺栓孔混凝土鼓风机侧立面图鼓风机正立面图M16×220混凝土+5.000+5.000设 计 说 明 3、鼓风机与输气管道连接处采用柔性连接,并采取消声措施。\P四、施工说明:\P 1、输气管采用焊接钢管。室外管道防腐采用刷樟丹二道,灰色调和漆二道;室外埋地管道做加强级防腐,三布四油,水泥砂浆做内防腐。\P 2、输气管道要有耐热处理,敷设管道时应考虑温度补偿,当管道置于管廊或室内时,在管外敷设隔热材料或加做隔热层。\P 3、输气管道穿过现浇板、墙等处,均应预埋管套,套管详国家标准图集02S404。\P 4、阀门井和排水检查井参照国家现行有关规范和标准执行。\P五、其他:\P 1、图中尺寸除标高以米计外,其余均以毫米计。图中±0.00标高相当于绝对标高见总平图。\P 2、图中未参处参照国家现行有关规范和标准执行。\P 3、图中所有设备材料订货时要求适应当地气候条件。\P 4、设备基础和预埋待设备厂家确定后,由施工中标方自行设计。\P六、本工程采用国家现行标准图集:\P 1、《防水套管》 02S404;\P 2、《钢制管件》 02S403;CASS}池中好氧区提供氧气,满足污水需氧量、混合和处理效率等要求。\P 设计规模远期Q=20000m3/d;一期工程设计规模Q=10000m3/d。\P 本单体包括鼓风机房,内设罗茨鼓风机5台,4用1备,一期安装3台,2用1备,预留二期位置

20000m3d城市污水处理厂综合设计(含11个CAD作图图纸)--优秀毕业设计{修}

20000m3d城市污水处理厂综合设计(含11个CAD作图图纸)--优秀毕业设计{修}

本设计污水处理厂综合设计包括15个图纸,十分全面,具体详见报告后附图。

本报告附图全面详细。

图纸内容如下:A2O池,初沉池,幅流式二沉池,隔栅,工艺简单图,工艺流程图(高程图),回转耙式格栅除污机图,平面布置图,污泥浓缩池,厌氧消化池,钟式沉砂池等。

全为CAD制图。

下载后复制放大或打印可看清!题目20000m3/d城市污水处理厂综合设计专业: 环境工程年级: 2005级学号: 3105001286姓名: 莫笑伟指导教师:2008年12 月摘要我国水体污染主要来自两方面,一是工业发展超标排放工业废水,二是城市化中由于城市污水排放和集中处理设施严重缺乏,大量生活污水未经处理直接进入水体造成环境污染。

工业废水近年来经过治理虽有所减少,但城市生活污水有增无减,占水质污染的51%以上。

我国水体污染主要来自两方面,一是工业发展超标排放工业废水,二是城市化中由于城市污水排放和集中处理设施严重缺乏,大量生活污水未经处理直接进入水体造成环境污染。

工业废水近年来经过治理虽有所减少,但城市生活污水有增无减,占水质污染的51%以上。

本设计要求处理水量为20000m3/d的城市生活污水,设计方案针对已运行稳定有效的A2/O活性污泥法工艺处理城市生活污水。

A2O工艺由于不同环境条件,不同功能的微)能生物群落的有机配合,加之厌氧、缺氧条件下,部分不可生物降解的有机物(CODNB被开环或断链,使得N、P、有机碳被同时去除,并提高对COD的去除效果。

它可以同NB--时完成有机物的去除,硝化脱氮、磷的过量摄取而被去除等功能,脱氮的前提是NH3N应完全硝化,好氧池能完成这一功能,缺氧池则完成脱氮功能。

厌氧池和好氧池联合完成除磷功能。

关键词:城市生活污水,活性污泥,A2/O目录摘要 (III)目录 (IV)第一章设计概述 ······································································- 7 -1设计任务 ······································································- 7 - 2设计原则 ······································································- 7 - 3设计依据 ······································································- 8 - 第二章工艺流程及说明 ·····························································- 8 -1工艺方案分析 ································································- 8 - 2工艺流程 ······································································- 9 - 3流程各结构介绍 ·····························································- 9 -3.1格栅······························································································· - 9 -3.2沉砂池··························································································- 10 -3.3初沉池··························································································- 10 -3.4生物化反应池··············································································- 10 -3.5二沉池··························································································- 12 -3.6浓缩池··························································································- 12 - 第三章构筑物设计计算 ··························································· - 12 -1格栅 ·········································································· - 12 -1.1设计说明······················································································- 12 -1.2设计计算······················································································- 13 -2沉砂池 ······································································· - 16 -2.1设计说明······················································································- 16 - 3初沉池 ······································································· - 17 -3.1设计说明······················································································- 17 -3.2设计计算······················································································- 17 - 4生化池 ······································································· - 19 -4.1设计说明······················································································- 19 -4.2设计计算······················································································- 19 - 5二沉池 ······································································· - 26 -5.1设计说明······················································································- 26 -5.2设计计算······················································································- 26 - 6液氯消毒 ···································································· - 29 -6.1设计说明······················································································- 29 -6.2设计计算······················································································- 29 - 7污泥浓缩池 ································································· - 30 -7.1设计说明······················································································- 30 -7.2设计计算······················································································- 30 -8 污泥消化池 ································································· - 31 -8.1设计说明······················································································- 31 -8.2设计计算······················································································- 32 - 9浓缩污泥提升泵房 ························································ - 38 -9.1设计选型······················································································- 38 -9.2提升泵房······················································································- 38 -9.3污泥回流泵站··············································································- 38 -10污泥脱水间 ······························································· - 39 -10.1设计说明······················································································- 39 -11鼓风机房 ·································································· - 39 - 12恶臭处理系统 ···························································· - 39 -12.1设计说明······················································································- 39 -12.2设计计算······················································································- 39 -12.3风机选型······················································································- 40 - 第四章污水处理厂总体布置 ····················································· - 41 -1总平面布置 ································································· - 41 -1.1总平面布置原则··········································································- 41 -1.2总平面布置结果··········································································- 41 -2高程布置································································································- 42 -2.1高程布置原则··············································································- 42 - 第五章参考文献 ···································································· - 42 -第一章设计概述1设计任务本次课程设计的主要任务是完成某城市污水厂的A2/O工艺设计处理生活污水,处理水量为20000m3/d,按近期规划人口10万人计算(自定)。

20000m3d城市污水处理厂综合设计(含11个CAD作图图纸)--优秀毕业设计

20000m3d城市污水处理厂综合设计(含11个CAD作图图纸)--优秀毕业设计

本设计污水处理厂综合设计包括15个图纸,十分全面,具体详见报告后附图。

本报告附图全面详细。

图纸内容如下:A2O池,初沉池,幅流式二沉池,隔栅,工艺简单图,工艺流程图(高程图),回转耙式格栅除污机图,平面布置图,污泥浓缩池,厌氧消化池,钟式沉砂池等。

全为CAD制图。

下载后复制放大或打印可看清!题目20000m3/d城市污水处理厂综合设计专业: 环境工程年级: 2005级学号: 3105001286姓名: 莫笑伟指导教师:2008年12 月摘要我国水体污染主要来自两方面,一是工业发展超标排放工业废水,二是城市化中由于城市污水排放和集中处理设施严重缺乏,大量生活污水未经处理直接进入水体造成环境污染。

工业废水近年来经过治理虽有所减少,但城市生活污水有增无减,占水质污染的51%以上。

我国水体污染主要来自两方面,一是工业发展超标排放工业废水,二是城市化中由于城市污水排放和集中处理设施严重缺乏,大量生活污水未经处理直接进入水体造成环境污染。

工业废水近年来经过治理虽有所减少,但城市生活污水有增无减,占水质污染的51%以上。

本设计要求处理水量为20000m3/d的城市生活污水,设计方案针对已运行稳定有效的A2/O活性污泥法工艺处理城市生活污水。

A2O工艺由于不同环境条件,不同功能的微)能生物群落的有机配合,加之厌氧、缺氧条件下,部分不可生物降解的有机物(CODNB被开环或断链,使得N、P、有机碳被同时去除,并提高对COD的去除效果。

它可以同NB--时完成有机物的去除,硝化脱氮、磷的过量摄取而被去除等功能,脱氮的前提是NH3N应完全硝化,好氧池能完成这一功能,缺氧池则完成脱氮功能。

厌氧池和好氧池联合完成除磷功能。

关键词:城市生活污水,活性污泥,A2/O目录摘要 (III)目录 (IV)第一章设计概述 ······································································- 7 -1设计任务 ······································································- 7 - 2设计原则 ······································································- 7 - 3设计依据 ······································································- 8 - 第二章工艺流程及说明 ·····························································- 8 -1工艺方案分析 ································································- 8 - 2工艺流程 ······································································- 9 - 3流程各结构介绍 ·····························································- 9 -3.1格栅······························································································· - 9 -3.2沉砂池··························································································- 10 -3.3初沉池··························································································- 10 -3.4生物化反应池··············································································- 10 -3.5二沉池··························································································- 12 -3.6浓缩池··························································································- 12 - 第三章构筑物设计计算 ··························································· - 12 -1格栅 ·········································································· - 12 -1.1设计说明······················································································- 12 -1.2设计计算······················································································- 13 -2沉砂池 ······································································· - 16 -2.1设计说明······················································································- 16 - 3初沉池 ······································································· - 17 -3.1设计说明······················································································- 17 -3.2设计计算······················································································- 17 - 4生化池 ······································································· - 19 -4.1设计说明······················································································- 19 -4.2设计计算······················································································- 19 - 5二沉池 ······································································· - 26 -5.1设计说明······················································································- 26 -5.2设计计算······················································································- 26 - 6液氯消毒 ···································································· - 29 -6.1设计说明······················································································- 29 -6.2设计计算······················································································- 29 - 7污泥浓缩池 ································································· - 30 -7.1设计说明······················································································- 30 -7.2设计计算······················································································- 30 -8 污泥消化池 ································································· - 31 -8.1设计说明······················································································- 31 -8.2设计计算······················································································- 32 - 9浓缩污泥提升泵房 ························································ - 38 -9.1设计选型······················································································- 38 -9.2提升泵房······················································································- 38 -9.3污泥回流泵站··············································································- 38 -10污泥脱水间 ······························································· - 39 -10.1设计说明······················································································- 39 -11鼓风机房 ·································································· - 39 - 12恶臭处理系统 ···························································· - 39 -12.1设计说明······················································································- 39 -12.2设计计算······················································································- 39 -12.3风机选型······················································································- 40 - 第四章污水处理厂总体布置 ····················································· - 41 -1总平面布置 ································································· - 41 -1.1总平面布置原则··········································································- 41 -1.2总平面布置结果··········································································- 41 -2高程布置································································································- 42 -2.1高程布置原则··············································································- 42 - 第五章参考文献 ···································································· - 42 -第一章设计概述1设计任务本次课程设计的主要任务是完成某城市污水厂的A2/O工艺设计处理生活污水,处理水量为20000m3/d,按近期规划人口10万人计算(自定)。

某地五层浴室建筑全套给排水设计图纸

某地五层浴室建筑全套给排水设计图纸
一层给排水及消防平面图1:100仓库女洗浴区女厕所女更衣湿蒸大厅干蒸发美上男洗浴区美 容蒸房大厅管理温水池热水池上二层给排水及消防平面图1:100上干蒸上温水池热水池包间包间包间包间洗衣熨烫服务包间包间三,四层给排水及消防平面图1:100包间包间上包间包间包间包间包间包间包间包间包间包间包间包间按摩间按摩间按摩间五层给排水及消防平面图1:100客人房上客厅卧室卧室卧室卧室卧室厨房食品仓库餐厅衣帽间上人屋面下%%P0.000-0.0504.3004.500上人屋面屋顶给排水及消防平面图1:100电梯间上下2%2%2%2%2%2%2%1%1%1%1%1%1%1-10.51.1.1.51.59.14.1%1%1%上下上下甲方根据情况装修时定甲方根据情况装修时定水池大小甲方根据情况装修时定北8.00011.00014.00017.000%%P0.0004.5008.00011.00014.00017.000单柄单孔龙头台上式洗脸盆安装图自闭式冲洗阀蹲式大便器安装图(二)单柄单孔龙头背挂式洗脸盆安装图坐箱式坐便器安装图(一)建筑排水用硬聚氯乙烯 管道安装管道支架及吊架通气帽安装图国 标 图 纸 目 录图纸目录图 纸 目 录 图 纸 名 称浴池排水口配件及安装图带网筐地漏构造图(甲型)砖砌室外毛发集污井1序号23给排水设计施工说明国标图纸目录999S3041112131004S51992S22092S220序21436875号99S30499S30499S30499S30496S40603S40292S220编 号S-01S-03S-02图 号图例2AA2规 格2A463233国 标 图 纸 目 录(PVC-U)38628428页 次检查口存水弯通气帽 圆形地漏清扫口名 称热水管道排水管道给水管道符 号图 例消火栓系统图WL-01RL-01JL-01WL-02RL-02WL-03JL-02WL-04WL-

17DLHX生活污水系统图

17DLHX生活污水系统图
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(完整版)水污染课程设计----污水处理厂AAO工艺设计(含全套图纸)

(完整版)水污染课程设计----污水处理厂AAO工艺设计(含全套图纸)

《水污染控制工程》课程设计学院:专业:姓名:学号:指导老师:目录引言 (4)1设计任务及设计资料 (5)1.1设计任务与内容 (5)1.2设计原始资料 (5)1.2.1城市气象资料 (5)1.2.2地质资料 (5)1.2.3设计规模 (5)1.2.4进出水水质 (6)2、设计说明书 (6)2.1去除率的计算 (6)2.1.1溶解性BOD的去除率 (6)5的去除率: (7)2.1.2 CODr2.1.3.SS的去除率: (7)2.1.4.总氮的去除率: (7)2.1.5.磷酸盐的去除率 (8)2.2城市污水处理工艺选择 (8)2.3、污水厂总平面图的布置 (9)2.4、处理构筑物设计流量(二级) (9)2.5、污水处理构筑物设计 (9)2.5.1.中格栅和提升泵房(两者合建在一起) (9)2.5.2、沉沙池 (10)2.5.3、厌氧池 (11)2.5.4、缺氧池 (11)2.5.5、好氧曝气池 (11)2.5.6、二沉池 (12)2.6、污泥处理构筑物的设计计算 (12)2.6.1污泥泵房 (12)2.6.2污泥浓缩池 (12)2.7、污水厂平面,高程布置 (13)2.7.1平面布置 (13)2.7.2管线布置 (13)2.7.3 高程布置 (14)3 污水厂设计计算书 (14)3.1污水处理构筑物设计计算 (14)3.1.1泵前中格栅 (14)3.1.2污水提升泵房 (16)3.1.3、泵后细格栅 (17)3.1.3、沉砂池 (18)3.1.4、厌氧池 (20)3.1.5、缺氧池计算 (20)3.1.6、好氧曝气池的设计计算 (21)3.1.8、二沉池 (28)3.2 污泥处理部分构筑物计算 (31)3.2.1污泥浓缩池设计计算: (31)3.3、高程计算 (36)3.3.1污水处理部分高程计算: (36)3.3.2高程图见CAD图 (36)3.3.3污水处理厂工艺流程图与总平面布置图 (36)参考文献 (37)泰安市污水处理厂A/A/O工艺设计作者:闫赛红,指导教师:孙丰霞(山东农业大学资源与环境学院)【摘要】随着社会进步,人们对于城市污水的处理的要求愈加严格。

水污染课程设计污水处理厂AAO工艺设计含全套图纸

水污染课程设计污水处理厂AAO工艺设计含全套图纸

《水污染控制工程》课程设计学院:专业:姓名:学号:指导老师:目录引言 (4)1设计任务及设计资料 (5)1.1设计任务与内容 (5)1.2设计原始资料 (5)1.2。

1城市气象资料 (5)1.2.2地质资料 (5)1.2.3设计规模 (5)1.2。

4进出水水质 (6)2、设计说明书 (6)2.1去除率的计算 (6)2。

1.1溶解性BOD的去除率 (6)5的去除率: (7)2.1.2 CODr2.1。

3.SS的去除率: (7)2。

1.4.总氮的去除率: (7)2。

1.5。

磷酸盐的去除率 (8)2.2城市污水处理工艺选择 (8)2.3、污水厂总平面图的布置 (9)2.4、处理构筑物设计流量(二级) (9)2。

5、污水处理构筑物设计 (9)2.5。

1。

中格栅和提升泵房(两者合建在一起) (9)2。

5。

2、沉沙池 (10)2.5.3、厌氧池 (11)2.5。

4、缺氧池 (11)2。

5。

5、好氧曝气池 (11)2.5.6、二沉池 (12)2.6、污泥处理构筑物的设计计算 (12)2。

6。

1污泥泵房 (12)2。

6.2污泥浓缩池 (12)2。

7、污水厂平面,高程布置 (13)2.7.1平面布置 (13)2。

7.2管线布置 (13)2。

7.3 高程布置 (14)3 污水厂设计计算书 (14)3。

1污水处理构筑物设计计算 (14)3。

1.1泵前中格栅 (14)3.1.2污水提升泵房 (16)3.1.3、泵后细格栅 (17)3.1.3、沉砂池 (18)3.1.4、厌氧池 (20)3。

1。

5、缺氧池计算 (20)3。

1.6、好氧曝气池的设计计算 (21)3.1。

8、二沉池 (28)3。

2 污泥处理部分构筑物计算 (31)3。

2。

1污泥浓缩池设计计算: (31)3.3、高程计算 (36)3.3.1污水处理部分高程计算: (36)3.3。

2高程图见CAD图 (36)3。

3。

3污水处理厂工艺流程图与总平面布置图 (36)参考文献 (37)泰安市污水处理厂A/A/O工艺设计作者:闫赛红,指导教师:孙丰霞(山东农业大学资源与环境学院)【摘要】随着社会进步,人们对于城市污水的处理的要求愈加严格。

某生活污水处理工艺流程和平面布置图

某生活污水处理工艺流程和平面布置图
水解酸化池风机房电控室接触氧化池接触氧化池调节池污泥池加药间格栅渠沉淀池管廊设备吊装口楼梯口THE ARCHITECTURAL DESIGN & RESEARCH INSTITUTE OF GUANGDONG PROVINCE院审 核电子文件名:校 对工种负责东审 定广设主持人建省筑总 负 责研计究图 别设计号图 号图纸版权属设计单位所有,未经许可,外人及外单位不得翻印复制作为其他工程之用。图 名制 图工程名称兴建单位市政工程甲级设计证书号:A144013739设 计日 期签会日 期日 期姓 名专 业给排水建 筑结 构姓 名专 业工艺机械空 调电 气风机房电控室接触氧化池调节池污泥池加药间沉淀池格栅渠接触氧化池水解酸化池THE ARCHITECTURAL DESIGN & RESEARCH INSTITUTE OF GUANGDONG PROVINCE院审 核电子文件名:校 对工种负责东审 定广设主持人建省筑总 负 责研计究图 别设计号图 号图纸版权属设计单位所有,未经许可,外人及外单位不得翻印复制作为其他工程之用。图 名制 图工程名称兴建单位市政工程甲级设计证书号:A144013739设 计日 期签会日 期日 期姓 名专 业给排水建 筑结 构姓 名专 业工艺机械空 调电 气404504040300上清液排入调节池絮凝剂加药装置助凝剂加药装置污泥池除臭风管接触氧化池污泥管药管空气管污水管图例:格栅井调节池水解酸化池混凝反应池沉淀池絮凝剂助凝剂絮凝剂助凝剂生活污水TOPBTMTOPBTMTOPBTMTOPBTMD426X8-CS-WW-BOP-4.60%%C225-UPVC-WW顶板平面布置图2012.0111-254(7-2)水施子项污水处理站W04标高-5.30m以上池内平面布置图2012.0111-254(7-2)水施子项污水处理站W05工艺流程图2012.0111-254

农村生活污水工艺施工全套施工图纸

农村生活污水工艺施工全套施工图纸
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一套生活污水处理流程图及平面布置图

一套生活污水处理流程图及平面布置图
%%p0.00 说明: 6.施工过程中在基坑没回填时应做好雨季的排水措施2y2y3.本工程选用C25殆,S6,垫层为C15殆100mm4.钢筋选用HPB235,f=210N/mm;HRB335,2.标高为相对标高,以施工现场边的水泥路面标高为±0.001.本图尺寸除标高以米为单位外,其余均为毫米5.池底板附加%%C14纵横@1000构造凳筋,可布置成梅花型 说 明:3.外池壁的内,外侧均用1:2水泥防水砂浆批面20mm厚4.图中新建构筑物的位置可根据现场实际情况做调整2.标高为相对标高,以施工现场边的水泥道路标高为±0.001.本图尺寸除高程以米为单位外,其余均以毫米为单位f=300N/mm7.在每个格池里都设置铁爬梯,由顶至底,间隔200mm。8.砖墙用M7.5混合砂浆砌筑,砖砌水池转角处均做构造柱。36730430308108010010020024024024020018003000300018003000180030001800兴隆二桥2-2剖面图%%c}50的预留孔,间距为3000{\fArial|b0|i0|c0|p32%%c}50的预留孔,间距为3000{\fArial|b0|i0|c0|p32① 区}② 区}%%c}110的预留孔,间距为3000{\fArial|b0|i0|c0|p32%%c}110的预留孔,间距为3000{\fArial|b0|i0|c0|p32-}0.20-}0.90 说明: 5.施工过程中在基坑没回填时应做好雨季的排水措施。2yy3.本工程底板选用C25殆,S6,垫层为C15殆100mm。4.钢筋选用HPB235,f=210N/mm;HRB335,2.标高为相对标高,以兴隆二桥附近的+20.00标高为±0.00。1.本图尺寸除标高以米为单位外,其余均为毫米。f=300N/mm。6.湿地外墙的内,外侧均用1:2水泥防水砂浆批面20mm厚。2-}1.

水污染课程设计污水处理厂aao工艺设计含全套图纸

水污染课程设计污水处理厂aao工艺设计含全套图纸

《水污染控制工程》课程设计学院:专业:姓名:学号:指导老师:目录引言...........................................................1设计任务及设计资料...........................................1.1设计任务与内容 ...................................................................................................1.2设计原始资料 .......................................................................................................1.2.1城市气象资料 ................................................................................................1.2.2地质资料 ........................................................................................................1.2.3设计规模 ........................................................................................................1.2.4进出水水质 ....................................................................................................2、设计说明书..................................................2.1去除率的计算 .......................................................................................................2.1.1溶解性BOD的去除率....................................................................................5的去除率:............................................................................................2.1.2 CODr的去除率: ............................................................................................................... 总氮的去除率: ....................................................................................................... 磷酸盐的去除率 .......................................................................................................2.2城市污水处理工艺选择 .......................................................................................2.3、污水厂总平面图的布置 ....................................................................................2.4、处理构筑物设计流量(二级) ............................................................................2.5、污水处理构筑物设计 ........................................................................................ 中格栅和提升泵房(两者合建在一起) ............................................................... 2.5.2、沉沙池 .........................................................................................................2.5.3、厌氧池 .........................................................................................................2.5.4、缺氧池 .........................................................................................................2.5.5、好氧曝气池 .................................................................................................2.5.6、二沉池 .........................................................................................................2.6、污泥处理构筑物的设计计算 ............................................................................2.6.1污泥泵房 ........................................................................................................2.6.2污泥浓缩池 ....................................................................................................2.7、污水厂平面,高程布置 ....................................................................................2.7.1平面布置 ........................................................................................................2.7.2管线布置 ........................................................................................................2.7.3 高程布置 .......................................................................................................3 污水厂设计计算书.............................................3.1污水处理构筑物设计计算 ...................................................................................3.1.1泵前中格栅 ....................................................................................................3.1.2污水提升泵房 ................................................................................................3.1.3、泵后细格栅 .................................................................................................3.1.3、沉砂池 .........................................................................................................3.1.4、厌氧池 .........................................................................................................3.1.5、缺氧池计算 .................................................................................................3.1.6、好氧曝气池的设计计算 .............................................................................3.1.8、二沉池 .........................................................................................................3.2 污泥处理部分构筑物计算 ..................................................................................3.2.1污泥浓缩池设计计算: ................................................................................3.3、高程计算 ............................................................................................................3.3.1污水处理部分高程计算: ..............................................................................3.3.2高程图见CAD图 ............................................................................................3.3.3污水处理厂工艺流程图与总平面布置图 ....................................................参考文献.......................................................泰安市污水处理厂A/A/O工艺设计作者:闫赛红,指导教师:孙丰霞(山东农业大学资源与环境学院)【摘要】随着社会进步,人们对于城市污水的处理的要求愈加严格。

水污染课程设计----污水处理厂AAO工艺设计(含全套图纸)

水污染课程设计----污水处理厂AAO工艺设计(含全套图纸)

《水污染控制工程》课程设计学院:专业:XX:学号:指导老师:目录引言41设计任务及设计资料5 1.1设计任务与内容51.2设计原始资料51.2.1城市气象资料51.2.2地质资料51.2.3设计规模51.2.4进出水水质62、设计说明书6 2.1去除率的计算62.1.1溶解性BOD的去除率65的去除率:72.1.2 CODr2.1.3.SS的去除率:72.1.4.总氮的去除率:72.1.5.磷酸盐的去除率82.2城市污水处理工艺选择82.3、污水厂总平面图的布置92.4、处理构筑物设计流量(二级)92.5、污水处理构筑物设计92.5.1.中格栅和提升泵房(两者合建在一起)9 2.5.2、沉沙池102.5.3、厌氧池112.5.4、缺氧池112.5.5、好氧曝气池112.5.6、二沉池122.6、污泥处理构筑物的设计计算122.6.1污泥泵房122.6.2污泥浓缩池122.7、污水厂平面,高程布置132.7.1平面布置132.7.2管线布置132.7.3 高程布置143 污水厂设计计算书14 3.1污水处理构筑物设计计算143.1.1泵前中格栅143.1.2污水提升泵房163.1.3、泵后细格栅173.1.3、沉砂池183.1.4、厌氧池203.1.5、缺氧池计算203.1.6、好氧曝气池的设计计算213.1.8、二沉池283.2 污泥处理部分构筑物计算313.2.1污泥浓缩池设计计算:313.3、高程计算363.3.1污水处理部分高程计算:363.3.2高程图见CAD图363.3.3污水处理厂工艺流程图与总平面布置图36参考文献37XX市污水处理厂A/A/O工艺设计作者:闫赛红,指导教师:孙丰霞(XX农业大学资源与环境学院)【摘要】随着社会进步,人们对于城市污水的处理的要求愈加严格。

除了基本的去除污水中BOD和SS的要求外,通常还要求脱氮除磷,以保护水体环境。

本设计即采用了众多脱氮除磷工艺中较为经济合理的AAO工艺对进入污水厂的污水进行处理。

小区污水池设计图纸

小区污水池设计图纸
污水池沉井壁配筋图1:502%%1306环筋%%1308@200检修孔配筋图200200150150%%13020@250检修孔爬梯详图1-10.51.1.1.51.59.14.550X550%%13010@15012%%13118AZ-1余同%%145污水池设计说明:%%1451、本工程为xxxxx小区污水池,定位详见设备专业图纸。%%1452、本工程基础设计根据xx市xx建筑设计院提供的《xx前应路1#地块岩土工程勘查报告》,取2-2淤泥质粘土层作为基%%145础持力层,承载力特征值f%%144%%142ak%%145%%143=55KP%%144%%142a%%145%%143。%%1453、本工程为全埋式地下水池,水池顶板考虑汽-10级汽车荷载,人群荷载3KN/M%%144%%1402%%145%%141。%%1454、本工程采用沉井方式施工,沉井必须在混凝土强度达到100%%%后方能开始下沉,下沉前作好以下准备工作:%%145 %%2001%%201井壁外画观测标志,在沉井四角设水准观测点,观测下沉量及平衡情况;%%145 %%2002%%201在中轴线处设垂直线,观测沉井位移及平衡;%%145 %%2003%%201拆除模块;%%1455、施工时应注意控制下沉速度,保证沉井均衡下沉,防止产生突沉、偏沉滑移、井内涌水、涌泥和超沉不止等现象,必%%145要时可在沉井刃脚下预打粉喷桩;如遇沉井下沉困难可在沉井外侧用高压水枪冲泥帮助下沉。%%1456、沉井下沉至设计标高后即用C20素混凝土封底,并浇筑水池底板。%%1457、沉井下沉完毕,其偏差应符合规范规定:%%145 %%2001%%201轴线位移不大于井深1%%%;%%145 %%2002%%201高程:+40mm,-60mm;%%145 %%2003%%201倾斜度≯井深0.7%%%。%%1458、混凝土强度等级C30,内掺10%%%水泥用量的UEA微膨胀剂,要求抗渗等级S8;%%130表示HPB235钢筋,%%131表示HRB335钢筋;%%145锚固长度%%130:25d,%%131:30d;搭接长度%%130:30d,%%131:36d。%%1459、混凝土保护层厚度:除水池顶板为25mm外,其余部分均为50mm。%%14510、沉井侧壁圆孔直径小于等于300mm时,板内钢筋绕过,不必截断;直径大于300mm按详图配置补强钢筋。%%14511、本图纸应与其它专业图纸配合施工,浇筑混凝土前,洞口及预埋件对照相关图纸预先埋设牢固,防止浇筑混凝土时松DK-1加固配筋图搭接长度4508%%131208%%131202%%13112上下各一根-0.1202%%131202%%13120%%1308@100AL1:20图纸无效未盖图章专业签名专业日期日期签名宁波高专建筑设计研究院有限公司子工程负责人审 定审 核项目负责人总 师甲级122090-sj出图日期图 号专业负责人设 计制 图校 对阶 段比 例工程编号专 业注册师签名注册师执业章出图章4%%131204%%131184%%13120%%1308@100孔中心标高-4.300DK-1,D=450DK-2,D=250孔中心标高-1.1001-11:50-6.820DK-2,D=200-1.100-7.220-0.120-0.300预留插筋%%13116@1505602%%13118%%13114@150%%13112@150%%13114@150ALALH=200-0.120%%13112@150检修孔1000x1000污水池顶板配筋图1:50凸缝浇铸新混凝土时凿毛刷净余同%%13116@150%%13010@600X60011%%13116@150%%13116@1502%%13120封闭%%13120@150%%13120@150%%13120@150%%13010@300X300%%13116@150100100AZ-1AZ-1AZ-1%%13116@150%%13116@150%%13116@150%%13116@150%%13116@150%%13116@150%%13116@150%%13116@150%%13114@150%%13114@150%%13114@150C20水下混凝土封底%%13114@150%%13112@150%%13114@150%%13112@1501:20%%13116@400角度45%%d10L140X90X10污水池设计污水池配筋图施工图1:50结构污水池底板配筋图%%13114@150H=400%%13114@150%%13114@1501:50%%13114@150-6.820455027565503050275450215025025075025025027527545504550655012001675655010001500100012001675150300200200污水池剖面及设计说明污水池设计1:50结构施工图%%145动,预留孔洞也应事先留出,严禁事后开凿。%%14512、浇筑混凝土时,必须切实捣固以防渗水,在不能使用震动器的部位,必须用插扦仔细捣实;在混凝土达到规定强度前应%%145严格控制连续保持表面湿润,避免拆模后产生干缩裂缝。%%14513、水池池壁内侧用20厚1:2水泥砂浆抹平。%%14514、水池顶板检修孔上安装成品盖板,防止人员跌落。%%14515、本工程安全等级二级,合理使用年限50年。270027002700100100400600200655035050020010002700200175ห้องสมุดไป่ตู้7510010014001002002752752275270020010001500侧壁设置检修爬梯-8.220%%13010@300X3002-2C20水下混凝土封底1:50%%13114@150预留插筋%%13116@1502%%13120封闭%%13120@150%%13120@150浇铸新混凝土时凿毛刷净凸缝余同-6.820%%13010@600X600%%13114@150%%13114@150%%13120@150560%%13116@150%%13114@150%%13112@150%%13112@150%%13114@150%%13116@150%%13116@150-0.120-0.300-8.220-7.220北京探索者软件技术有限公司工程名称子项设计单位所别结构所专业负责人所长设计号审定设计主持人图号审核工种负责人比例校核设计日期专业实名签名日期221001401000100100550550450450550550150010004002006001001002700455050035020020020010010027002700175175200140010027527527002700编辑部:shuigong@ 水利网易 NetEase水利人的网络家园,打造水利人技术商务第一平台==网易 本图纸由浩辰ICAD软件提供技术支持本图纸由浩辰ICAD软件提供技术支持本图纸由浩辰ICAD软件提供技术支持本图纸采用浩辰ICAD软件整理}土木工程}本店域名:/旺旺号:会飞的小猪y
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