日处理量为2万吨的城市生活污水的设计

2万吨污水课程设计一、课程目标知识目标：1. 学生能理解污水的基本概念，掌握污水处理的重要性和必要性。

2. 学生能够掌握2万吨污水的具体数据，了解其相当于日常生活中的哪些事物，形成直观的认识。

3. 学生能够了解并描述至少两种常见的污水处理方法及其工作原理。

技能目标：1. 学生能够运用数学计算方法，计算出2万吨污水与实际生活案例的关系，提升数据分析和处理能力。

2. 学生能够通过小组合作，设计出简单的污水处理模型，培养动手操作和团队协作能力。

3. 学生能够运用所学知识，对生活中的污水处理问题提出自己的见解和建议。

情感态度价值观目标：1. 学生通过学习，认识到环境保护的重要性，树立环保意识，积极参与保护水资源的行动。

2. 学生在学习过程中，能够体会科学家在解决环境问题中的责任和担当，培养勇于探究、积极创新的精神。

3. 学生通过小组合作，学会尊重他人意见，培养团队协作精神，增强集体荣誉感。

本课程针对的学生特点为：好奇心强，对实际案例感兴趣，有一定的数学基础和动手能力。

教学要求注重实践与理论相结合，充分调动学生的主观能动性，培养他们的创新思维和解决问题的能力。

通过本课程的学习，期望学生能够掌握污水处理的相关知识，提升自身技能，形成正确的环保观念。

二、教学内容本章节教学内容主要包括以下三个方面：1. 污水基本概念及其对环境的影响- 污水的定义、来源和分类- 污水对自然水体、生态和人类生活的影响- 教材章节：第二章“水污染及其危害”2. 污水处理方法与技术- 物理处理方法：沉淀、过滤等- 化学处理方法：中和、氧化还原等- 生物处理方法：活性污泥、生物膜等- 教材章节：第三章“污水处理技术”3. 2万吨污水案例分析与实践- 2万吨污水的数据解读及其与实际生活的关联- 案例分析：某地污水处理厂的处理工艺及效果- 实践活动：设计简单的污水处理模型- 教材章节：第四章“污水处理工程实例”教学内容安排和进度：第一课时：污水基本概念及其对环境的影响第二课时：污水处理方法与技术（一）第三课时：污水处理方法与技术（二）第四课时：2万吨污水案例分析与实践教学内容确保科学性和系统性，结合课程目标，注重理论与实践相结合，旨在帮助学生全面了解污水处理的相关知识，培养其解决实际问题的能力。

西安都市区生活垃圾处理场选址规划作者：吕楠周卫玉来源：《城市建设理论研究》2013年第10期摘要：随着人口的增长与城市用地规模的扩张，西安市生活垃圾日产量飞速增长。

城市生活垃圾是指人们生活活动场所产生的固体废物，主要有居民生活垃圾、商业垃圾和清扫垃圾及污水厂污泥。

生活垃圾处理的最终方式为集中废物处置，即填埋处理。

目前西安市唯一的生活垃圾填埋场所——江村沟垃圾填埋场已不能满足现代生活垃圾处理的需要，规划兴建新的生活垃圾处理场已成为城市发展急需解决的重要课题，具有紧迫性和必要性。

关键词：生活垃圾；处理场；选址规划中图分类号：R124.3 文献标识码：A 文章编号：生活垃圾处理的总原则为有限考虑减量化、资源化。

生活垃圾资源化是指从固体废物中回收有用物质和能源，以减少资源消耗，保护环境，这是利于城市可持续发展的。

生活垃圾减量化是指从源头尽量回收利用无法回收利用的生活垃圾，回收后剩余部分进行处理，处理时尽量采用低耗能的处理方式缩小体积，处理后产生的残留物再进行最终无害化处理。

生活垃圾处理和处置有自然堆存、土地填埋、堆肥、焚烧、热解等，其中土地填埋是解决生活垃圾的最终宗旨。

根据生活垃圾处理的实用性和可达性，本次规划中，生活垃圾处理的方式选取三种：填埋、堆肥、焚烧，后两者可合并称为综合处理。

一、规划构思：生活垃圾处理场建设的总平面布局和建设用地选取，应按照合理节约用地的原则，在城市功能分区布局指导下，满足生产和生活的需求。

考虑到生活垃圾收运路线的经济性和不同区域服务人口的规模量，拟在西安市各方向共选址规划六处生活垃圾综合处理场，五处生活垃圾填埋场（备用）。

二、处理场选址要求：垃圾处理场选址是建设项目中一个重要环节，一个城市生活垃圾处理场如果选址不当，将会给城市垃圾处理带来种种困难。

垃圾处理场场址的选择涉及到当地经济、交通、运距、服务人口、服务半径、地理地形、气候、环境地质、水文地质及工程地质条件等，是一项十分复杂的工作，作为设计单位在工作的前期就应详细核实其资料的准确性，实地踏勘现场，并在此基础上做出场址是否合适的准确判断。

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）。

佛山市高明区第二污水处理厂二期工程（2万吨/天）环境影响报告书（简本）第一章总则1.1 任务由来佛山市高明区地处广东省中南部，珠江三角洲西北部，佛山市西部，水陆交通方便，是广东省重要的工贸城市。

荷城街道位于高明区东部，西江之滨，被西江、沧江二水环抱，素有“西江明珠”之称。

本世纪初，随着荷城街道（原三洲街道）经济迅速发展，城区规模不断扩大，在经济迅速发展的同时，城市环保设施的建设未能与经济协同发展，致使大量的城市污水未经处理直接排入高明河，造成水体污染严重。

为保护高明区境内水资源，提高城市环境质量，改善投资环境和居民生活条件，原高明区三洲街道办于2003年组织建设了高明区第二污水处理厂一期工程，一定程度上缓解了区内水体污染问题。

但由于区内管网建设仍不完善，高明区第二污水处理厂一期工程服务范围仅限于三洲碧桂园一期以及海天大道以东、高明大道以北、三和路以南工业企业的生活污水及工业废水，其他区域污水仍就近排入河涌，致使三洲大涌水体环境质量未达到治理要求，现状水质多为劣Ⅴ类，水体污染仍然严重。

针对以上环境问题，同时考虑三洲旧城改造、碧桂园二期、海天二期建设等项目的基础设施配套需要，荷城街道现已加快区内污水管网建设，并拟开展高明区第二污水处理厂二期工程建设工作。

建设佛山市高明区明第二水处理厂二期工程对保护环境，保护水体质量和生态环境十分必要。

通过污水处理厂工程的建设可以基本改变三洲片区的环境状况，提高人民生活水平，保护生命健康，增强地区竞争力，促进三洲片区的更大发展，对保持三洲片区的经济可持续发展也具有十分重要的意义。

通过污水量预测佛山市高明区明第二水处理厂远景（2020年后）控制规模为12万m3/d，远期（2020年）建设规模为10万m3/d，近期（2012年）建设规模为4万m3/d。

佛山市高明区明第二水处理厂一期已建规模为2万m3/d，二期增建规模为2万m3/d（其中细格栅及沉砂池、二次沉淀池、生物除臭系统按4万m3/d规模建设，污泥脱水间按远期规模建设，鼓风机房及提升泵房按4万m3/d规模更换设备）。

1工程概述1.1 DAT-IAT工艺概述DAT-IAT法是SBR工艺中继ICEAS、CASS、CAST、IDEA法之后不断完善发展的一种新方法，它的反应机理以及污染物质的去除机制和CFS、传统SBR 相同，仅是构筑物的构成方式和运行操作不一样。

原污水首先经DA T池的初步生物处理后再进IAT池，由于连续曝气起到了水力均衡作用，提高整个工艺的稳定性，进水工序只发生在DAT池，排水工序只发生在IAT池，使整个生物处理系统的可调节性进一步增强，有利于有机物的去除。

一部分剩余污泥由IAT池回流到DAT池。

与CASS和ICEAS工艺相比，DAT池是一种更加灵活、完备的预反应池，从而使DAT池和IAT池能够保持较长的污泥龄和很高的MLSS浓度，对有机负荷及毒物有较强的抗冲击能力。

该污水处理系统主要包括互相串联的连续曝气反应池和间歇曝气反应池以及原污水进水装置、处理出水装置和污泥装置。

连续曝气反应池和间歇曝气反应池是本工艺系统的主要构筑物，生化反应、沉淀等主要工序都在这里进行。

为此，连续曝气反应池和间歇曝气反应池分别安装有连续曝气装置和间歇曝气装置，间歇曝气反应池中还安装有污泥泵和滗水器。

由于原污水是连续进入连续曝气反应池的，因而原污水进水装置比较简单，只要利用普通的污水泵即可将原污水经污水管线和沉砂池及计量槽泵入连续曝气反应池。

处理出水装置主要包括出水泵和加氯间，处理出水加氯后由出水泵和出水管线送出。

污泥装置主要包括贮泥池和脱水机。

间歇曝气反应池中的剩余污泥利用污泥泵送入贮泥池在送入脱水机后制成泥饼运出。

该处理工艺主要包括进水、连续曝气、间歇曝气、沉淀、出水和闲置等工序，即首先使原污水经原污水进水装置连续进入连续曝气反应池与池中的活性污泥混合并进行连续曝气，然后再连续进入间歇曝气反应池进行间歇曝气和沉淀，泥水分离后的上清液即为处理出水并利用出水装置送出，间歇曝气反应池中的一部分沉降污泥泵入连续曝气反应池作为回流污泥，剩余污泥经污泥装置排出[1]。

陕西省人民政府办公厅关于印发“十二五”全省城镇污水处理及再生利用设施建设规划的通知文章属性•【制定机关】陕西省人民政府•【公布日期】2012.11.21•【字号】陕政办发[2012]110号•【施行日期】2012.11.21•【效力等级】地方规范性文件•【时效性】现行有效•【主题分类】村镇建设正文陕西省人民政府办公厅关于印发“十二五”全省城镇污水处理及再生利用设施建设规划的通知（陕政办发〔2012〕110号）各市、县、区人民政府，省人民政府各工作部门、各直属机构：《陕西省“十二五”城镇污水处理及再生利用设施建设规划》已经省政府同意，现印发给你们，请认真贯彻执行。

陕西省人民政府办公厅2012年11月21日陕西省“十二五”城镇污水处理及再生利用设施建设规划为加快城镇污水处理及再生利用设施建设，有效控制污染物排放，改善水环境质量，促进经济社会可持续发展，根据《国务院办公厅关于印发“十二五”全国城镇污水处理及再生利用设施建设规划的通知》，结合我省《陕西省城镇污水处理及再生利用设施建设“十二五”规划（2011-2015年）》及我省城镇污水处理设施建设工作现状，省发展改革委会同省住房城乡建设厅、省环境保护厅重新编制了《陕西省“十二五”城镇污水处理及再生利用设施建设规划》（以下简称《规划》）。

《规划》以提升城镇生活污水处理及再生利用能力和水平为总体目标，明确了“十二五”期间的建设目标和任务。

规划范围为陕西省行政区内设市城市、杨凌示范区、西咸新区、县城、重点流域范围内的建制镇、常住人口在3万以上的建制镇，包括省级重点示范镇31个。

规划现状年为2010年，规划期为2011-2015年。

一、现状及问题（一）水污染治理取得的成效。

“十一五”以来，全省各级党委、政府按照科学发展观要求，紧紧围绕建设西部强省的奋斗目标，高度重视城镇污水处理设施等环境公共基础设施建设，将其作为提升基本环境公共服务、改善水环境质量的重大环保民生工程和建设资源节约型、环境友好型社会的重要工作任务，强化措施，落实责任，污染减排工作成效显著。

某城市污水处理厂工艺设计日处理2万立方米污水水污染控制工程课程设计课程题目：某城市污水处理厂工艺设计目录第一章总论 (1)1.1处理水量的设计规模 (1)1.2进水水质与处理目标的确定 (1)1.3气象与水文资料 (1)1.4厂区地形 (1)第二章污水处理工艺流程说明 (2)2.1城市污水处理厂工艺流程方案的提出 (2)2.2方案的确定 (2)第三章污水处理构筑物设计 (3)33.1.1设计参数.....................................................33.2.2设计计算.....................................................3.2平流沉砂池 (6)63.2.1设计参数.....................................................63.2.2设计计算.....................................................3.3平流式初沉池 (8)93.3.1设计参数.....................................................93.3.2设计计算.....................................................3.4曝气池 (13)133.4.1设计参数...................................................133.4.2设计计算....................................................3.5二沉池 (17)183.5.1设计说明...................................................183.5.2设计参数...................................................183.5.3设计计算...................................................第四章主要设备说明 (21)第五章污水厂总体布置 (22)第六章人员编制 (27)第七章设计总结及体会 (28)参考文献 (29)第一章 总论1.1处理水量的设计规模污水处理厂的日进水量为12万3/m d 。

第一章 污水处理构筑物设计计算一、粗格栅1.设计流量Q=20000m 3/d ，选取流量系数K z =1.5则： 最大流量Q max ＝1.5×20000m 3/d=30000m 3/d ＝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α=60° 则：栅条间隙数85.449.04.002.060sin 347.0sin 21=⨯⨯︒==bhv Q n α(取n=45)3.栅槽宽度(B)设：栅条宽度s=0.01m则：B=s （n-1）+bn=0.01×（45-1）+0.02×45=1.34m 4.进水渠道渐宽部分长度设：进水渠宽B 1=0.90m,其渐宽部分展开角α1=20°（进水渠道前的流速为0.6m/s ） 则：m B B L 60.020tan 290.034.1tan 2111=︒-=-=α5.栅槽与出水渠道连接处的渐窄部分长度(L 2)m L L 30.0260.0212===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3则：m g v k kh h 102.060sin 81.929.0)02.001.0(4.23sin 2234201=︒⨯⨯⨯⨯===αε其中ε=β（s/b ）4/3k —格栅受污物堵塞时水头损失增大倍数，一般为3 h 0--计算水头损失，mε--阻力系数，与栅条断面形状有关，当为矩形断面时形状系数β=2.4将β值代入β与ε关系式即可得到阻力系数ε的值7.栅后槽总高度(H)设：栅前渠道超高h 2=0.3m则：栅前槽总高度H 1=h+h 2=0.4+0.3=0.7m栅后槽总高度H=h+h 1+h 2=0.4+0.102+0.3=0.802m 8.格栅总长度(L)L=L 1+L 2+0.5+1.0+ H 1/tan α=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 1=0.05m 3栅渣/103m 3污水则：W=Q W 1=05.0105.130000100031max ⨯⨯=⨯⨯-Z K W Q =1.0m 3/d 因为W>0.2 m 3/d,所以宜采用机械格栅清渣 10.计算草图：图1-1 粗格栅计算草图二、集水池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 ×5×60=104.1m 3,可将其设计为矩形，其尺寸为3m ×5m ，池高为7m ，则池容为105m 3。

2万吨每日污水处理项目初步设计说明书2万吨/日污水处理项目初步设计文本及图纸二○一一年五月1概述1.1.1水污染治理的政策法规我国现行的有关水污染防治的政策、法规及江苏省现行的有关水污染防治地方法规主要有：1)《中华人民共和国环境保护法》2)《城市污水处理及污染防治技术政策》3)《中华人民共和国水法》4)《中华人民共和国水污染防治法》5)《中华人民共和国水污染防治法实施细则》6)《建设项目环境保护管理条例》7)《城市污水处理及污染防治技术政策》8)《建设项目环境保护设计规定》9)《水污染物排放许可证管理暂行办法》10)《污水处理设施环境保护监督管理办法》1.1.2主要标准及规范1)《城市污水处理工程项目建设标准》(2001修订)2)《市政公用工程设计文件编制深度规定》(2004.4)3)《化学工业主要水污染物排放标准》（DB32/939-2006）4)《地表水环境质量标准》(GB3838-2002)5)《污水排入城市下水道水质标准》(CJ3082-1999)6)《污水综合排放标准》(GB8978-1996)7)《城镇污水处理厂污染物排放标准》(GB18918-2002)8)《室外排水设计规范》(GB50014-2006)9)《建筑给水排水设计规范》(GB50015-2009)10)《泵站设计规范》(GB/T50265-97)11)《城镇污水处理厂附属建筑和附属设备设计标准》(CJJ31-89)12)《给水排水工程建构筑物结构设计规范》(GB50069-2002)13)《给水排水工程管道结构设计规范》(GB50332-2002)14)《建筑地基基础设计规范》(GB50007-2002)15)《混凝土结构设计规范》(GB50010-2002)16)《砌体结构设计规范》(GB50003-2001)17)《建筑结构荷载规范》 (GB50009-2001)18)《民用建筑设计通则》(GB50352-2005)19)《建筑抗震设计规范》(GB50011-2001)20)《建筑设计防火规范》(GB50016-2006)21)《工业企业设计卫生标准》(GBZ1-2010)22)《采暖通风与空气调节设计规范》(GB50019-2003)23)《工业企业照明设计标准》(GB50034—92)24)《10KV及以下变电所设计规范》(GB50053-94)25)《供配电系统设计规范》(GB50052-95)26)《低压配电设计规范》(GB50054-95)27)《电力工程电缆设计规范》(GB50217-2007)28)《仪表供电设计规定》(HG/T20509-2000)29)《电子计算机机房设计规范》(GB50174-93)30)《控制室设计规定》(HG/T20508-2000)以上标准规范如有更新，以新标准为准。

污水厂设计说明书一、污水厂的设计规模设计规模:污水厂的处理水量按最高日最高时流量，污水厂的日处理量为:该厂按远期2010年一期2。

6万吨/天建设完成,污水厂主要处理构筑物拟分为二组，每组处理规模为1。

3万吨/天.这样既可满足近期处理水量要求，有留有空地以三期扩建之用.远期2。

6万吨,一期建设,计算主要按远期计算，由于没有工业废水的变化系数，所以按生活污水量来取其时变化系数。

二、进出水水质该水经处理以后，水质应符合国家《污水综合排放标准》（GB8978－1996）中的一级标准,由于进水不但含有BOD5,还含有大量的N，P所以不仅要求去BOD5除还应去除不中的N，P达到排放标准。

三、处理程度的计算1。

溶解性BOD5的去除率活泩污泥处理系统处理水中的BOD5值是由残存的溶解性BOD5和非溶解性BOD5二者组成，而后者主要是以生物污泥的残屑为主体。

活性污泥的净化功能，是去除溶解性BOD5。

因此从活性污泥的净化功能来考虑，应将非溶解性的BOD5从处理水的总BOD5值中减去。

处理水中非溶解性BOD5值可用下列公式求得:（此公式仅适用于氧化沟)处理水中溶解性BOD5为20－13。

6＝6.4mg/L溶解性BOD5的去除率为：2 .CODcr的去除率3.SS的去除率4。

总氮的去除率出水标准中的总氮为15mg/L，处理水中的总氮设计值取15mg/L,总氮的去除率为：5.磷酸盐的去除率进水中磷酸盐的浓度为4.9mg/L计.如磷酸盐以最大可能成Na3PO4计,则磷的含量为4.9×0。

189=0.93mg/L.注意:Na3PO4中P的含量在可能存在的磷酸盐(溶解性）中是含量最大的，这样计算出来的进水水质中的磷含量偏大，对整个设计来说是偏安全的。

磷的去除率为四、城市污水处理设计1、工艺流程的比较城市污水处理厂的方案,既要考虑有效去除BOD5又要适当去除N，P故可采用SBR或氧化沟法，或A/A/O法，以及一体化反应池即三沟式氧化沟得改良设计.A SBR法工艺流程：污水→一级处理→曝气池→处理水工作原理：1）流入工序：废水注入，注满后进行反应,方式有单纯注水，曝气，缓速搅拌三种，2)曝气反应工序:当污水注满后即开始曝气操作，这是最重要的工序,根据污水处理的目的，除P脱N应进行相应的处理工作。

环境工程课程设计题目 2万吨/日城市污水处理厂的初步设计院系材料科学与工程学院专业环境工程姓名陈强年级大四上学期指导教师廖润华、成岳、苏小丽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1张、污水处理构筑物高程布置图1张。

该污水处理厂工程规模为2万吨/日，进水水质为：COD Cr=200mg/L，BOD5=150mg/L，SS=200mg/L，氨氮=30mg/L，磷酸盐（以P计）=L。

本次设计所选择的A2O工艺，具有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；污水处理目录摘要 (2)1设计任务书 (3)工程设计资料 (3)设计任务 (3)基本要求 (3)毕业设计图纸内容及张数 (3)2 设计说明书 (3)城市污水来源、水量及水质特点分析 (3)城市污水来源 (3)城市污水水量 (3)城市污水水质特点 (3)污水处理方案的选择 (3)城市污水主要处理方法 (3)污水处理方案的选择 (3)污水处理工艺原理及工程说明 (3)粗格栅 (3)泵房和集水池 (3)泵房 (3)集水池 (3)细格栅 (3)沉砂池 (3)配水井 (3)初沉池 (3)生化池 (3)二沉池 (3)接触消毒池 (3)3设计计算书 (3)粗格栅间 (3)设计参数 (3)设计计算 (3)集水池和泵房 (3)设计参数 (3)集水池设计计算 (3)水泵扬程计算 (3)细格栅 (3)设计参数 (3). 2设计计算 (3)沉砂池 (3)设计计算 (3)配水井 (3)设计参数 (3)设计计算 (3)初沉池 (3)设计参数 (3)设计计算 (3)厌氧池 (3)设计参数 (3)设计计算 (3)缺氧池 (3)设计参数 (3)设计计算 (3)曝气池 (3)污水处理程度的计算 (3)曝气池的计算与各部位尺寸的确定 (3)配水井 (3)设计参数 (3)设计计算 (3)二沉池 (3)设计参数 (3)设计计算 (3)消毒池 (3)设计参数 (3)设计计算 (3)高程计算 (3)结论 (3)参考文献 (3)附录 (3)1设计任务书工程设计资料（1）工程概况某城市拟筹建城市污水处理厂，废水量为2万吨/日。

2万吨污水处理A2O设计方案目录第一章总论.................................................................................................. . (3)1.1概况................................................................................................(3)1.2设计原则及依据................................................................................................(3)1.3工程规模及水质特征................................................................................................(4)1.4工艺设计参数................................................................................................(5)第二章废水处理工艺.................................................................................................. .. (5)2.1工艺技术选择................................................................................................(5)2.2废水处理工艺流程图................................................................................................(8)2.3工艺流程说明................................................................................................(8)第三章主要构筑物.................................................................................................. . (11)1、粗格栅................................................................................................(11)2、细格栅................................................................................................(11)3、沉砂池................................................................................................(11)4．初沉池................................................................................................(11)5、厌氧池................................................................................................(11)6、缺氧池................................................................................................(12)7、好氧池................................................................................................(12)8．二沉池................................................................................................(12)9、污泥浓缩池................................................................................................(13)第四章主要设备选型及其参数 (14)1、格栅................................................................................................2、进水泵................................................................................................(14)3、污泥泵................................................................................................(14)4、浓浆泵................................................................................................(14)5、鼓风机................................................................................................(15)6、压滤机................................................................................................(15)7、旋混曝气器................................................................................................(15)8、软性组合填料................................................................................................(15)9、软性组合填料支架................................................................................................(15)10、弹性填料................................................................................................(15)11、弹性填料支架................................................................................................12、斜管填料................................................................................................(16)13、斜管填料支架................................................................................................(16)第五章A2/O脱氮除磷工艺运行管理 (16)5.1活性污泥的培养................................................................................................(16)5.2活性污泥的训化................................................................................................(17)5.3厌氧缺氧挂膜处理................................................................................................(17)5.4厌氧缺氧的开启................................................................................................(18)5.5运行管理中的常见问题及解决方案 (18)第一章总论1.5概况本工程为处理20000m3/d的污水处理项目，废水中主要污染物为COD、BOD5、SS等污染物。

某公司生活废水处理工程设计方案######环境工程公司目录第一章公司概况 (4)第二章建设规模及处理程度 (4)2.1废水水量 (4)2.2进水水质 (4)2.3出水水质 (5)第三章设计依据、原则和范围 (5)3.1设计依据 (5)3.2设计原则 (6)3.3设计范围 (6)第四章废水处理工艺 (7)4.1处理工艺的选择 (7)4.1.1污水处理方案选择考虑的因素 (7)4.1.2污水处理方案的确定 (8)4.2工艺流程图 (9)4.3工艺流程说明 (9)4.4污泥处理工艺 (12)第五章工程设计 (12)5.1废水处理部分 (13)5.2污泥处理部分 (19)5.3综合车间 (21)第六章工程投资估算 (21)第七章劳动定员 (24)第八章运行费用 (24)8.1人工费 (24)8.2电费 (24)8.3药剂费 (25)第九章服务承诺 (26)第一章公司概况###环境工程有限公司成立于2008年，是从事污水治理的专业公司，注册资金叁佰万元。

公司设有总工办、设计部、工程部、等业务部门，既可以对设备制作安装到调试、培训和运营的一条龙服务，也可以根据用户需要进行单项服务。

公司现有工程技术人员6人，其中高级职称2名，中级职称4名。

我公司利用现有技术，射流曝气活性污泥法、IC-射流曝气活性污泥法、两段A/O缺氧法、水解-好氧法等工艺，并实施于玉米淀粉生产废水综合治理、地瓜淀粉生产废水综合治理、制浆造纸生产废水综合治理和油脂生产废水综合治理等工程实践中去，取得了良好的处理效果。

公司以其先进的技术，健全的科研体系，高素质的工程科技人员，可靠的经济实力，良好的信用，得到了用户的信赖和支持。

新世纪的宜家公司将本着“以市场为导向，以质量求生存，以技术求发展，以服务求信誉”的经营理念，积极开拓省内外市场，创造新的辉煌！宜家愿与您携手共保碧水蓝天！第二章建设规模及处理程度2.1废水水量根据建设方提供的资料，每日废水排放量20000m3/d。

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。