20000吨D城市污水处理设计方案

20000t/d高效沉淀池方案设计二零**年**月第一章概述1.1总则***人一贯奉行“一次做对、顾客满意”的质量方针，严格贯彻ISO9001质量管理体系和ISO14001环境管理体系，健全“顾客全程星级体系”，为顾客提供一流的服务。

卓越的品质，完美的服务，使得通用产品畅销全球。

公司注册资金10800万元，占地面积60000余平米，拥有各类生产检测设备60余套，高、中级工程师20多名，一级建造师7名，二级建造师10名。

公司还与国内外相关行业设计院所及大专院校进行项目合作，不断研发制造适合市场需求的技术和产品，先后获得14项国家技术专利。

公司先后获得“江苏省环保产业骨干企业”，“江苏省高新技术企业”，“重合同守信用企业”，“AAA级资信企业”等荣誉称号；通过了ISO9001质量管理体系认证，ISO14001环境管理体系认证及GB/T28001职业健康安全管理体系认证；拥有环保工程专业承包壹级资质，建筑机电安装工程专业承包贰级资质，市政公用工程施工总承包叁级资质。

公司业务涉及项目合作、运营（BT/BOT/PPP项目），工程总承包及水处理设备制造。

公司现拥有三大不同板块产品，分别为城市（生活）污水处理设备、工业废水处理设备、自来水处理设备。

公司在“清污净水，保护环境，优质美观，诚信服务”的企业宗旨下，不断拓展自己的环保治理之路，已成为具有较强综合实力和影响力的品牌：投资运营多个污水处理厂，总承包20多个污水处理厂工程，产品销售网络已覆盖全国各大中城市并出口韩国、伊拉克、古巴、毛里求斯等国家和地区。

产权驱动创新，创新引领发展。

通用人承载着保护环境的责任与使命，正迈向全球的舞台，向世界发出中国的声音：清污净水，智慧环保，************集团!1.2方案说明该项目为市政污水，处理水量为830m3/h。

第二章方案基础2.1设计依据➢《室外给水设计规范》（GB50013-2006）➢《室外排水设计规范》（GB50014-2006）➢《水处理设备技术条件》（JB/T2932-1999）➢《给水排水工程构筑物结构设计规范》（GB50069-2002）➢《给水排水构筑物施工工程及验收规范》（GB50141-2008）➢《城镇给水厂附属建筑和附属设备设计标准》（CJJ41-91）➢《给水排水工程管道结构设计规范》（GB50332-2002）➢《给水排水设计手册》（第二版）➢《城镇污水处理厂污染物排放标准》（GB18918-2002）➢《工业自动化仪表工程施工及验收规范》（GBT50093-2002）➢《供配电系统设计规范》（GB50052-2009）➢建设方提供的原始水质、水量等基础资料2.2设计原则（1）针对本工程的具体情况和特点，采用简单、成熟、稳定、实用、经济合理的处理工艺，以达到节省投资和运行管理费用的目的；（2）平面布置应合理紧凑，减少占地面积；（3）处理系统运行有一定的灵活性和调节余地，以适应水质水量的变化；（4）管理、运行、维修方便，尽量考虑操作自动化，减少操作劳动强度。

2万吨/天城市污水处理项目设计方案设计人：殷娇娇二零一一年一月目录第一章工程概述 (1)1.1项目概况 (1)1.2设计依据、原则和范围 (1)第二章污水处理厂工艺方案 (5)2.1进、出水水质水量 ....... 错误！未定义书签。

2.2 污水处理工艺 (5)2.3 污泥处理工艺 (6)2.4 设备优选 (8)第三章工程设计 (9)3.1 工艺流程 (9)3.2 总平面布置 (9)3.3 高程设计 (10)3.4 污水处理构、建筑物 (10)第一章工程概述1.1项目概况项目名称：某城市污水处理工程1.2设计依据、原则和范围1.2.1设计依据1.2.1.1项目的基础资料：1)污水进水水质、水量2)污水处理工程出水水质要求3)雨污合流4）厂区征地面积25亩，预留深度处理单元。

1.2.1.2我国现行的有关水污染防治的政策、法规：1)《中华人民共和国环境保护法》（1989年12月）2)《中华人民共和国环境防治法》（1984年5月）3)《中华人民共和国水污染防治法》（1989年7月）4)《建设项目环境保护管理法》（1986年3月）5)《污染物排放许可证管理暂行办法》（1986年3月）6)《污水处理设施环境保护、监督管理办法》（1989年5月）7)《饮用水源保护区污染防治管理规定》（1989年11月）8)《中华人民共和国海洋环境保护法》（1983年3月）9)《关于防治水污染技术政策的规定》（1986年11月）10)1989年12月26日颁发的《中华人民共和国环境保护法》是各项有关环境保护法规的基础和依据，其要点如下：a）环境监督和管理规定了各级政府在制定环境质量标准和环境监督大纲方面的职责，由中央政府制定国家环境标准，各省、市级政府可根据地方条件补充项目和指针。

b）环境保护和污染防治各级政府必须制定工业排污的程序和制度，并提供各种环境保护措施。

c）法律责任授权给各级环保部门采取适当的法律程序来警告和惩罚污染者。

成都电子机械高等专科学校成都电子机械高等专科学校小型城市生活污水理设计方案课程设计系别：机电工程系专业: 环境监测与治理技术班级: 08471学号: 29姓名：郑来军指导老师:彭明江老师绪论随着我过社会主义现代化建设的深入进行、城市化进程的加快以及人民生活水平的不断提高，不仅用水量将迅速增加,而且对水质的要求也会越来越高。

从水质角度考虑，人类社会上的水大致可以分为三大类，即天然水（地表水和地下水)、使用水(生活与生产用水）和污染水(生活和生产使用过的水)。

水处理则是这三种水质类型转化的重要的手段，从而构成了水的社会循环，这种关系可以如下图所示。

天然水回用水达标排放水城市化进程使原本脆弱的水域受到了更为严重污染和破坏，城市生活污水中高浓度的有机物使水体富营养化，严重影响城市生活生产用水的供应和生态系统的破坏，对城市生活污水的处理迫在眉睫。

水处理是对水质成分的变革，亦采用各种必要的物理、化学或生物化学的工艺技术，将水中的污染物质分离分解,使水质达到国家水质标准的一种加工净化过程.按照受纳水体的具体类别、地形地貌、气候及要求的排放标准设置不同的工艺进行处理。

国家提出“可持续发展战略”，坚持走中国特色社会主义道路，水资源的保护和合理应用是一个最基础、最重要的环节，水就像人体的血液，没有优质的水资源保证，就没有生产和生活的正常进行，国家就无法健康、可持续发展。

关键词:城市生活污水、水处理、水质.目录绪论 ..................................................................................................... 1课程设计的目的和任务 . 01.1课程设计的目的 01。

2课程设计的任务 01.2。

1进水水质指标 01.2。

2出水水质指标 (1)2污水处理方式的确定 (1)2.1影响处理方式的因素 (1)2.2污水处理工艺比较 (2)2.3污水处理工艺的确定 03工艺过程的设计 (1)3。

水污染控制工程课程设计题目2万吨/日城市污水处理厂的初步设计摘要本次课程设计的题目为某城市污水处理厂初步设计，主要任务是完成该污水处理厂的一平平面布置、高程布置和各处理构筑物的初步设计。

初步设计要完成设计说明书一份，污水处理厂平面布置图一张、污水处理构筑物高程布置图一张。

该污水处理厂工程规模为2万吨/日，进水水质为：COD Cr=300mg/L,BOD5=250mg/L,SS=180mg/L,TN=28mg/L,TP=5mg/L。

本次设计所选择的A2O工艺，具有一良好的脱氮除磷功能。

该污水处理厂的污水处理流程为:污水从粗格栅到污水提升泵房，再从泵房到细格栅，然后到沉砂池，进入初沉池再进入生物池(即A2O反应池)，再从生物池进入二沉池，污水再经过接触消毒池后排入自然水体;污水处理厂处理后的出水水质执行《城镇污水处理厂污染物排放标准》（GB18918—2002）一级标准的A标准。

关键词:A2O工艺；脱氮除磷；污水处理目录水污染控制工程课程设计 (1)摘要 (2)正文 (6)第一章设计概况 (6)1.1设计依据 (6)1.1.1原始依据 (6)1.1.2设计原则 (6)1.1.3采用规范和执行标准 (7)1.2设计任务书 (7)1.2.1工程设计资料 (7)1.2.2设计任务 (8)1.2.3基本要求 (9)1.2.4图纸要求 (9)第二章设计说明书 (10)2.1城市污水来源、水量及水质特点分析 (10)2.1.1城市污水来源 (10)2.1.2城市污水水量 (11)2.1.3城市污水水质特点 (11)2.2污水处理方案的选择 (12)2.2.1城市污水主要处理方法 (12)2.2.2污水处理方案的选择 (14)2.3污水处理工艺原理及工程说明 (16)2.3.1粗格栅 (16)2.3.2泵房和集水池 (17)2.3.3细格栅 (18)2.3.4沉砂池 (19)2.3.5配水井 (20)2.3.6初沉池 (21)2.3.7生化池 (22)2.3.8二沉池 (24)2.3.9接触消毒池 (25)第三章设计计算书 (26)3.1粗格栅间 (26)3.1.1设计参数 (26)3.1.2设计计算 (26)3.2泵房和集水池 (7)3.2.1设计参数 (7)3.2.2 集水池设计计算 (5)3.2.3水泵扬程计算 (5)3.3细格栅 (6)3.3.1设计参数 (6)3.3. 2设计计算 (6)3.4沉砂池 (7)3.4.1 设计参数 (7)3.4.2设计计算 (6)3.5配水井 (7)3.5.1设计参数： (7)3.5.2设计计算 (7)3.6初沉池 (3)3.6.1设计参数： (3)3.6.2 设计计算 (3)3.7生化池 (4)3.7.1 设计参数 (4)3.7.2设计计算 (5)3.8二沉池 (10)3.8.1设计参数： (10)3.8.2 设计计算 (10)3.9 消毒池 (12)3.9.1设计参数 (12)3.9.2设计计算 (12)3.10高程计算 (13)结论 (16)参考文献 (16)附录 (17)正文第一章设计概况1.1设计依据1.1.1原始依据（1）依据资料国家及地方有关环境保护法律法规和技术政策；《给水排水设计手册》（中国建筑工业出版社，2003年）;《环境工程设计手册》（魏先勋主编，湖南科学技术出版社，2002年）《环境工程手册水污染防治卷》（张自杰主编，高等教育出版社，1996年）；中华人民共和国《给排水设计规范》2000年版;同类污水工程实践经验。

污水厂设计计算书第一章污水处理构筑物设计计算一、粗格栅1. 设计流量Q=20000n/d ，选取流量系数K z =1.5贝最大流量 Qax = 1.5 x 20000m/d=30000m7d = 0.347m 3/s2. 栅条的间隙数（n ）设:栅前水深h=0.4m,过栅流速v=0.9m/s,格栅条间隙宽度b=0.02m,格栅倾 角a=60°i贝U ：栅条间隙数 n 二Q l Sin： .0.34A sin60=44.85（取 n=45）bhv 20.02 況 0.4 x 0.93. 栅槽宽度（B ）设：栅条宽度s=0.01m贝U: B=s （n-1 ） +bn=0.01 x （ 45-1） +0.02 x 45=1.34m4. 进水渠道渐宽部分长度设：进水渠宽B=0.90m,其渐宽部分展开角a 1=20° （进水渠道前的流速为0.6m/s ）5. 栅槽与出水渠道连接处的渐窄部分长度（L 2）6. 过格栅的水头损失（h 1）设：栅条断面为矩形断面，所以 k 取3k —格栅受污物堵塞时水头损失增大倍数，一般为 3h 0--计算水头损失，m则:B -B 1 2ta1.34-0.90 2 tan 20=0.60m L2L^ 0.602 2=0.30m贝0 = kho = k ；也sin ：40.01 飞 ^3 2.4 ( )30.02 0.922 9.81sin 60 = 0.102m 其中& =B (s/b )4/3将B值代入B与&关系式即可得到阻力系数&的值7.栅后槽总高度(H)设：栅前渠道超高h2=0.3m贝U：栅前槽总高度H=h+b=0.4+0.3=0.7m栅后槽总高度H=h+h+h2=0.4+0.102+0.3=0.802m8.格栅总长度(L)L=L I+I_2+0.5+1.0+ H i/tan a =0.6+0.3+0.5+1.0+0.7/tan60 ° =2.8 9.每日栅渣量(W)设：单位栅渣量W=0.05m3栅渣/103m污水贝U: W=CW=Qmax W1-30000 10 色 0.05=1.0m3/d1000 汉K z 1.5因为W>0.2 m/d,所以宜采用机械格栅清渣10.计算草图：£—/ / 4 ____________ ^1f i.a图1-1粗格栅计算草图、集水池a1其中& = B( s/b )4/3设计集水池的有效水深为6m,根据设计规范，集水池的容积应大于污水泵5min 的出水量,即:V >0.347m 3/s x 5X 60=104.1m 3,可将其设计为矩形，其尺寸为3 mx5m 池高为7m 则池容为105用。

第一章原始资料分析1.1 城市概况该城市地处东南沿海，北回归线横贯市区中部，该市在经济发展的同时，城市基础设施的建设未能与经济协调发展，城市的污水处理率仅仅为30%，大量的污水未经处理直接排入河流，使该城市的生态环境受到严重的破坏。

为了建设良好优美的现代化城市，必须把环境问题处理好，筹建该城市的污水处理厂已经迫在眉睫了。

该市人口17万人，规划１０年后发展到24万人。

该市是一个以轻工业、冶金、家电、外贸为主题的新兴现代化城市。

1.2 自然条件该市具有中低山、丘陵、盆地和平原等多种地貌类型，地势西北高，东南低；历年最高气温38oC，最低气温4 oC，年平均温度为24 oC，常年主导风向为南风；该市内河流最高洪水位+2.5米，最低水位-0.5米，平均水位为+0.5米，地下水位为离地面2.0米，厂区内设计地面标高为+5.0米1.3 污水量1.3.1 生活污水量该市地处亚热带，夏季气候炎热，由于气候和生活习惯，该市在国内一向排水量较高的，据统计和预测，该市近期水量210L/人﹒d。

远期水量260L/人﹒d。

1.3.2 工业污水量市内工企业的生活污水和生产污水总量2.0万m3/d1.3.3 污水总量市政公共设施及未预见污水量以4%计，总污水量为生活污水量、工业污水量及市政公共设施与未预见水量的总和。

1.4 污水水质进水水量:生活污水BOD5为130mg/L；SS为180mg/L；工业废水BOD5为190mg/L；SS为200mg/L；出水水质：BOD5≤20mg/L，SS≤20mg/L。

混合污水温度：夏季28OC，冬季10 OC，平均温度20 OC。

1.5 工程设计规模污水处理厂的设计规模主要按远期需要考虑，以便预留空地以备城市的发展。

1.6 方案选择1.6.1 工艺的确定由于该污水处理只需去除BOD5与SS,不考虑脱氮与除磷方面,所以选择两个比较好的方案.方案一. 传统活性污泥法,其流程为:污水→中格栅→提升泵房→细格栅→沉砂池→初沉池→曝气池→二沉池→接触池→处理水排放方案二. 厌氧池+氧化沟,其流程为:污水→中格栅→提升泵房→细格栅→沉砂池→厌氧池→氧化沟→二沉池→接触池→处理水排放1.6.1.1 工艺流程方案的比较和选择两个方案都能达到处理水质的要求,BOD5,SS去除都能达到出水水质,工艺都是比较简单的,在技术上都是可行的.最终选择厌氧池+氧化沟处理工艺是因为:氧化沟是活性污泥系统的新工艺,与传统活性污法比较,期暴气系具有以下各项效益:1.对水温水质,水量的变动有较强的适应性2.污污龄一般可达15-30d,为传统活性污泥系统的3-6倍. 可以存活,繁殖世代时间长,增殖速度慢的微生物,如硝化菌,在氧化沟内可能产生硝化反应.如运行得当能够具有反硝化脱氮的效应.3.污泥产率低,且已达到稳定的程度,不需要再进行肖化处理.这一点可以少了硝化池,在运行费用方面又可以省下一部份。

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）。

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）。