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AOR高俊发 高霞娥(,710054) AOR是传统活性污泥法与氧化沟结合的一种新型生化反应器。具有较高的脱氮除磷功能,同时独特的污泥恢复区的设计,使得回流污泥集中适当充氧,另外采用同心圆结构,使每个区形成循环流态,因此是一种高效、节能、适应性强的污水处理工艺。在对AOR反应器分析研究的基础上,提出满足生物脱氮除磷的动力学设计研究方法,并对其设计计算公式进行推导。 AOR 生物脱氮 设计计算1 AORAOR1。1 AOR2,AOR3,,2,(R),(A),(O)。R,,(A),,,。A,,。(),。2 AORAOR、、。AOOA,,3。,、,,。、、。3 2 、3。,,,。,,。、,,,。,AOR,。3 3.1 好氧区(O区)体积V1计算3.1.1 μo:μo=0.47×1.103(t-15) μo——— d-1;t———,10℃,11~12℃,10℃。7 20078254DOI:10.13205/j.hjgc.2007.04.0013.1.2 θdcN:θdcN=F1μo θdcN——— d;F———,1.5~2.5,2.3;1μo——— d。3.1.3 Y:Y=K×0.6NjS0+1-0.072×0.6θdcNFT1+0.08θdcNFT:FT=1.072(t-15) Y——— mgmg;Nj——— mgL;FT———;S0———BOD5 mgL;t———,;K———,K=0.8~0.9。3.1.4 HRT1:HRT1=θdcNY(S0-Se)Xv HRT1——— d;Xv——— mgL,3000~5000mgL,3000mgL;Se———BOD5 mgL。3.1.5 V1:V1=HRT1·Q V1——— m3;Q——— m3d。3.2 缺氧区体积V2计算3.2.1 qDT:qDT=qD20×θ(t-20) qDT———t℃ mg(mg·d);qD20———20℃,mg(mg·d),0.03~0.11,0.05;t;θ———,,1.06~1.15,θ=1.09。3.2.2 :=++:Q·TN=(r+R)QSNOX+0.05Q(S0-Se)+QSNOX:SNOX=TN-0.05(S0-Se)1+R+r SNOX——— mgL;TN——— mgL;R———,50%~100%;r———,200%~400%。3.2.3 HRT2:HRT2=SN-SNOXqDTXDN HRT2——— d;SN———NO-3-N mgL;SNOX———NO-3-N mgL;XDN——— mgL。3.2.4 V2:V2=HRT2·Q3.3 污泥活性恢复区(R区)体积V3的计算4 R(R),,,,,AOR,,。4。8 200782543.3.1 Xr:Xr=106SVI·f Xr——— mgL;SVI——— mLg;70~110,100;f———,f=MLVSSMLSS;0.7~0.8,0.75。3.3.2 Y:Y=K×0.6NjS0+1-0.072×0.6θdcNFT1+0.08θdcNFT:FT=1.072(t-15)(:3.1.3)3.3.3 Y0:Y0=Y1+Kd·θc Y0———,;Kd———,0.05 d-1;θc———, d,θc=F1μ0,(:3.1.1,3.1.2)。3.3.4 ΔX:ΔX=QY0(S0-Se) ΔX——— mgd;Q——— m3d;Y0———;S0———BOD5 mgL;Se———BOD5 mgL。3.3.5 R,:R:Xs=Xr+ΔXQR Xs——— mgL;ΔX——— mgd;R——— R=XcXs-Xc;Xc——— mgL,3000mgL。3.3.6 ,:RQXr-RQXs+YRQSe+YfQS0-VRKdXs=0 RQXr———R mg;RQXs———RAOR mg;YROSe———RMLVSS mg;YfQS0———RMLVSS mg;f———R,0.8;VRKdXs———BOD5MLVSS mg。,:VR=RQ(Xr-Xs+YSe)+YfQS0KdXs VR———(R) m3。4 ,、:Nj、S0、Se、t、TN、R、r、XDN、Xv、SVI。,R、r,。,AORfDN=R+rR+r+1。BOD5200mgL,TN40mgL,10℃,Nj200mgL;BOD520mgL,Q5000m3d,fDN=R+rR+r+1。(12)9 200782545 (1),,,,,。,。(2),,,,,。,;、。6 (1)++++,,,,,,。(2)、;,、,。[1] ..,2005,21(7):89-91.[2] ..,1999-05,19(3):5-8.[3] ,..,2006,22(5):40-42. 730000 211 100083 30 (010)62234821E-mail xingyi76@gmail.com2007-01-26(9)4.1 各区体积比计算fDN71.4%,R50%,r200%:V1∶V2∶VR=0.38Q∶0.49Q∶0.08Q;fDN83.3%,R100%,r400%:V1∶V2∶VR=0.38Q∶0.55Q∶0.11Q。4.2 各区体积比及污泥活性恢复区占总内圆的角度(θ)值的结论5 :V1∶V2∶VR=1∶(1.29~1.45)∶(0.21~0.29),VRV2,fDN83.3%,R100%,r400%,θ60°,(θ)60°,R,。5 ,,5∶1。BOD5200mgL,TN40mgL,10℃,Nj200mgL;BOD520mgL,Q5000m3d,AOR0.85,V1∶V2∶VR=0.38Q∶0.55Q∶0.11Q,5,:V1=0.38×5000=1900(m3);V2=0.55×5000=2750(m3);VR=0.11×5000=550(m3)。,R1=13.8m,R2=17.3m,θ=60°。[1] ..,2003,19.[2] ,..::156-158.[3] ,..,2001,17.[4] ,.A2O().,2003,29.[5] ,.A2O().,2003,29.[6] ..:,1993,7:119-123. 710054 416# (029)82339959E-mail gaoxiae6688@163.com;gaojf@chd.edu.cn2007-01-1712 20078254THERESEARCHONDESIGNOFAORPROCESSGaoJunfa GaoXiae(7)………………………………Abstract AORisanewbiochemicalprocessthatcombineswithtraditional-activatedsludgeprocessandoxidationditch.Ithasbetterfunctionofnitrogenandphosphorusremovals,anditsuniquedesignofsludgerenewalregion,makesthereturnsludgecentralizedwithappropriateoxygenation,meanwhileeachregioncanengenderflowstatewithconcentriccirclesadopted.Accordingly,itisasortofwatertechnologywithhighefficiency,energysavingandbetteraccommodation.AfterthestudyofAORprocess,thedynamicdesignmeetingbiologicalphosphorusandnitrogenremovalisproposed,andtheformulasusedtodesignandcalculatearededuced.Keywords AOR,biologicaldenitrificationanddesign&calculationTHEDESIGNANDOPERATIONOFADVANCEDTREATMENTANDREUSEOFSECONDARYEFFLUENTOFCITYSEWAGEDISPOSALPLANTWangRongbin WangCuiping XingYietal(10)……………………………………………………………………………………………………………………………………………Abstract Reusingmunicipalsewageascirculatingcoolingwaterinindustryhasbecomeoneofthemostlyschemestoresolvetheshortageofwaterallovertheworld.However,thequalityofsecondaryeffluentcannotmeetthestandardofcirculatingcoolingwateraboutCODCr,hardness,nitrogenandphosphor,anditmaybereusedbyadvancedtreatment.Abio-contactoxidation-flocculationsedimentation-mixingclarification-continuousdynamicfilter-disinfectionprocesshasbeenadoptedinthisproject,andtheeffluenthasbeenusedasmake-upwatertocirculatingcoolingsysteminanelectricpowerplant.Thepracticaloperationresultshowsthattheprocesshashighefficiencyandalittleenergyconsumption.Thequalityofeffluentmeetsthemake-upwaterqualitystandardofindustrialcirculatingcoolingwater.Bytheimprovementonprocess,theoperationismoresimple,andtherunningoftheequipmentismorestable.Keywords reuse,circulatingcoolingwater,continuousdynamicfilterandsludgedewateringbedAPPLICATIONOFHIGH-EFFICIENCYCLARIFIERINREFORMOFWASTEWATERTREATMENTPROJECTLiuJianbin ChuShangye FanFeietal(13)………………………………………………Abstract ThecurrentsituationofthewastewatertreatmentsystemforDandongChemicalFiberStockCompanyisintroducedandtheexistingprocesscannotmeettheactualneeds,sothewastewatertreatmentsystemshouldbereformed.Thehigh-efficiencyclarifierisusedinsteadoftheoriginalmechanicstirringclarifier,whichimprovesthemixedreactionefficiencythustheprocessofwastewatercapacityandwastewaterquality.Itisprovedthatthehigh-efficiencyclarifierisapplicabletochemicalfiberwastewatertreatment.Keywords mechanicstirringclarifier