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安徽工业大学工商学院毕业设计(论文)说明书共页第1页┊┊┊┊┊┊┊┊┊┊┊┊┊装┊┊┊┊┊订┊┊┊┊┊线┊┊┊┊┊┊┊┊┊┊┊┊┊安徽工业大学工商学院毕业设计(论文)说明书专业给水排水工程班级09级1班姓名孙光兵学号091843023指导教师孟冠华二○一三年六月九日安徽工业大学工商学院毕业设计(论文)说明书共页第2页┊┊┊┊┊┊┊┊┊┊┊┊┊装┊┊┊┊┊订┊┊┊┊┊线┊┊┊┊┊┊┊┊┊┊┊┊┊安徽工业大学工商学院毕业设计(论文)任务书课题名称焦化厂生产废水处理工程设计系别建筑工程系专业班级水0941班姓名孙光兵学号091843023毕业设计(论文)的主要内容及要求:内容:1.根据设计资料和设计要求,采用BAF污水处理工艺方案;2.主要构筑物设计计算;3.辅助构筑物的设计计算,包括:大小尺寸、面积、体积等;4.各构筑物之间管道系统布置、水力计算;5.各种设备的选型、布置及计算;6.绘制构筑物施工图;7.工程概算与技术经济指标(效益评价);8.编制设计计算说明书。要求:1.检索和收集文献资料(10篇以上,英文至少2篇),撰写文献综述;2.绘制图纸,折合成10张A2;3.翻译5000个汉字以上的相关外文文献资料;完成论文。摘要本毕业设计以焦化厂生产废水处理工程设计为题,焦化厂产生的废水,含有大安徽工业大学工商学院毕业设计(论文)说明书共页第3页┊┊┊┊┊┊┊┊┊┊┊┊┊装┊┊┊┊┊订┊┊┊┊┊线┊┊┊┊┊┊┊┊┊┊┊┊┊量的氨氮、油类、氰离子、苯和苯的副产物、烃类以及较高浓度的悬浮污染物,同时水中的生物需氧量(BOD)和化学需氧量(COD)较高。题设的水质条件中氨氮浓度200mg/L,油类的浓度为250mg/L,悬浮物浓度为220mg/L,CODcr的浓度为2000mg/L,BOD5的浓度为600mg/L。在本焦化厂废水处理工程设计中,根据焦化废水的特性,选择生物膜法结合物理化学方法,选择的构筑物流程为隔油池、气浮池、吹脱塔、曝气生物滤池、消毒池等。隔油池运用颗粒比重与水不同的原理,去除含有的油类;气浮池通过溶气水释放气泡,与水中的细小颗粒附着,实现分离;吹脱塔利用氨氮在气液两相中存在的不同形式,改变氨氮平衡的方向,实现氨氮的去除(游离氨向氨离子方向移动);最终通过曝气生物滤池的生物降解作用以及过滤的效果,最终实现达到《污水综合排放标准》(GB8978-1996)一级标准的水处理出水标准。关键词:焦化废水,气浮法,吹脱塔,曝气生物滤池,工程设计AbstractThegraduationdesigncokingplantwastewatertreatmentengineeringdesignproblems,安徽工业大学工商学院毕业设计(论文)说明书共页第4页┊┊┊┊┊┊┊┊┊┊┊┊┊装┊┊┊┊┊订┊┊┊┊┊线┊┊┊┊┊┊┊┊┊┊┊┊┊cokingplantwastewatergenerated,containslargeamountsofammonia,oils,cyanide,benzeneandbenzene-products,hydrocarbons,andhigherconcentrationsofairbornecontaminants,whilewaterqualityhighbiologicaloxygendemandandchemicaloxygendemand.Questionssetwaterqualityconditionsinammoniaconcentration200mg/L,theconcentrationofoil250mg/L,suspendedsolidsconcentrationof220mg/L,CODcrconcentrationof2000mg/L,BOD5concentrationof600mg/LInthecokingplantwastewatertreatmentprojectdesign,accordingtothecharacteristicsofcokingwastewater,selectbiofilmcombinedphysicalandchemicalmethods,selectionprocessforthegreasetrapstructures,flotationtank,strippingtower,BAF,disinfectiontanks,etc.Greasetrapparticlesusingdifferentprinciplesproportionwithwatertoremoveoilscontaining;dissolvedairflotationtankthroughthereleaseofwaterbubblesandtinywaterparticlesattached,toachieveseparation;strippingTullywithammoniainthepresenceofgas-liquidtwophasedifferentforms,changingthedirectionofnitrogenbalance,toachieveammoniaremoval(freeammoniatoammoniumiondirection);ultimatelythroughBAFbiodegradationandfiltrationeffect,andultimatelyachieveintegratedWastewaterDischargeStandard(GB8978-1996)astandardwatertreatmenteffluentstandards.Keywords:CokingWastewater,Flotation,StrippingTower,BAF,EngineeringDesign安徽工业大学工商学院毕业设计(论文)说明书共页第5页┊┊┊┊┊┊┊┊┊┊┊┊┊装┊┊┊┊┊订┊┊┊┊┊线┊┊┊┊┊┊┊┊┊┊┊┊┊目录摘要....................................................................................................................................................2Abstract............................................................................................................................................31文献综述......................................................................................................................................81.1生物处理方式......................................................................................................................81.1.1A-A-O法介绍...............................................................................................................81.1.2曝气生物滤池法..........................................................................................................91.1.3上流式厌氧式污泥床(UASB).................................................................................91.2物理方式..........................................................................................................................101.3化学方式..........................................................................................................................101.3.1Fonten法...................................................................................................................101.3.2臭氧法结合二氧化氯法............................................................................................111.4焦化废水的预处理..........................................................................................................111.5焦化废水的深度处理......................................................................................................111.6焦化废水的循环回用......................................................................................................122方案选择及依据........................................................................................................................132.1方案一................................................................................................................................132.2方案二................................................................................................................................143废水处理构筑物的设计计算..................................................................................................153.1格栅计算............................................................................................................................153.1.1格栅计算说明......................................................................