6万吨污水处理a2o工艺毕业设计b1f40af59e3143323968938d

整理文档很辛苦,赏杯茶钱您下走!

免费阅读已结束,点击下载阅读编辑剩下 ...

阅读已结束,您可以下载文档离线阅读编辑

资源描述

目录摘要..........................................................................................3Abstract.......................................................................................4第一章设计概论........................................................................61.1设计依据和任务....................................................61.2设计目的...........................................................7第二章工艺流程的确定............................................................82.1工艺流程的比较....................................................82.2工艺流程的选择...................................................11第三章工艺流程设计计算.......................................................123.1设计流量的计算...................................................123.2设备设计计算.....................................................123.2.1格栅.........................................................123.2.2提升泵房......................................................133.2.3沉砂池........................................................143.2.4初沉池........................................................153.2.5A2/O.........................................................163.2.6二沉池........................................................213.2.7接触池和加氯间................................................243.2.8污泥处理构筑物的计算..........................................243.3构建筑物和设备一览表............................................27第四章平面布置.......................................................................294.1污水处理厂平面布置..............................................294.1.1平面布置原则..................................................294.1.2具体平面布置..................................................314.2污水处理厂高程布置...............................................324.2.1主要任务......................................................324.2.2高程布置原则..................................................324.2.3高程布置结果..................................................33第五章供电仪表与供热系统设计........................................385.1变配电系统..........................................................385.2监测仪表的设计......................................................38第六章劳动定员.....................................................................396.1定员原则............................................................396.2污水厂人数定员......................................................39第七章参考文献.......................................................................40致谢.............................................................................................41英文原文与文献..................................................42摘要以作为某开发区污水处理厂的初步设计和施工图设计。该处理厂处理城市污水,且水质较复杂:五日生化需氧量(BOD5):140mg/L;悬浮物(SS):200mg/L;化学需氧量(crCOD):260mg/L;NH3-N:30mg/L;处理后的水质要求;BOD5≤20mg/L;SS≤20mg/L;crCOD≤60mg/L;NH3-N≤15mg/L;根据设计要求和求新的思想,该污水处理工程进水中氮含量均偏高,在去除BOD5和SS的同时,还需要进行脱氮处理,故采用当代水处理工艺中较流行的2/AO工艺。2/AO工艺由于不同环境条件,不同功能的微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能被开环或断链,使得N、P、有机碳被同时去除,并提高对不可降解有机物的去除效果。它可以同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NH3-N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。此外该工艺还具有高效、节能的特点,且耐冲击负荷较高,出水水质好。因此,更具有广泛的适应性,完全适合本设计的实际要求。本工艺的主要构筑物包括格栅、污水泵房、平流沉砂池、好氧池、厌氧池、缺氧池、二沉池、接触消毒池、浓缩池、污泥脱水机房等。本设计采用了2/AO为主体工艺,工艺流程相对简单,省去了污泥消化系统,节省了基建投资和运行费用,该工艺处理污水运行稳定,易于管理,出水水质达到设计要求,真正做到了污水的综合利用。关键词:2/AO格栅泵房新工艺二沉池AbstractItisapreliminarydesignandconstructiondrawingforthesewagetreatmentplantdevelopmentzone.Thisplanttreatsmunicipalsewagemainly.Itswaterqualityismorecomplicated:Suspendedsubstance(SS):200mg/L;Thebiochemicaloxygendemandoffivedays(5BOD):140mg/L;Thechemicaloxygendemand(crCOD):260mg/L;NH3-N:30mg/L;Treatedwaterqualityisrequired:5BOD≤20mg/L;SS≤20mg/L;crCOD≤60mg/L;NH3-N≤15mg/L;Accordingtothedesigningrequirementandthoughtoflookingfornovelty:thecontentofnitrogeninthemunicipalsewageisonthehighsideinthisproject.sowhilegettingridof5BODandSS,itshouldbetreatedwithaproperprocess.Weadoptanduseakindofcraft,whichisacomparativelypopularcraftatpresentnamedAnaerobic-Anoxic-Oxic.Theadvantageofthiscomprehensivecraftisextensiveadaptability,totallysuitableforrealityoriginallydesignedpurpose.Itsmainstructuresincludesgatewell,grid,sewagepumpinghouse,earateandsinkingsandpool,oxidizingditch,thesecondsinkingpool,contactingpool,concentrationtank,mudtodehydrateinthecomputerlabetc.Processduetodifferentenvironmentalconditions,differentfunctionsofmicrobialcommunitiesintheorganic,combinedwithanaerobic,anoxiccondition,somenon-biodegradableorganicmattercanbeopenorbrokenchain,makingN,P,organiccarbonisalsoremoved,andtoenhancenon-degradableorganicremoval.Itcansimultaneouslyremoveorganicmatter,nitrificationanddenitrification,excessiveintakeofphosphoruswasremovedandotherfunctions,providedthatremovalofNH3-Nshouldbefullynitrification,aerobictanktocompletethefunction,oxygentankiscompleteremovalfunction.AnaerobictankandaerobicphosphorusremovalcapabilitiestocompletethejointpoolThisdesignhaveadoptedthepracticalcraftandequipmentofgoodperformance,andtheprocedureissimple,managementisconvenient,donotneedtoaddthefirstsinkingpool,digestivesystem.reducingbuildingandoperatingexpenses,realizingautomationtotallyatthesametime,easytomanage,maki

1 / 59
下载文档,编辑使用

©2015-2020 m.777doc.com 三七文档.

备案号:鲁ICP备2024069028号-1 客服联系 QQ:2149211541

×
保存成功