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4010201210CHEMICALENGINEERINGCHINAVol.40No.10Oct.20122012-06-251987—E-mailtan_xianghui@126.comE-mailcedszhu@ecust.edu.cn。111121.2002372.226500、、。TK124A1005-9954201210-0029-06DOI10.3969/j.issn.1005-9954.2012.10.008ResearchprogressoftwistedovaltubeheatexchangeranditsapplicationTANXiang-hui1ZHUDong-sheng1ZHANGLi-zhen1ZENGLi-ding1CHENGQu-lin21.KeyLaboratoryofPressureSystemsandSafetyofMinistryofEducationSchoolofMechanicalandPowerEngineeringEastChinaUniversityofScienceandTechnologyShanghai200237China2.NantongSAFEMachineryEquipmentLtd.Nantong226500JiangsuProvinceChinaAbstractThecharacteristicsandheattransferenhancementmechanismoftwistedtubeheatexchangerwereintroduced.Theanalysisoftube-sideandshell-sideflowfieldoftheheatexchangerwassummarized.Themethodsandconclusionsofthesestudieswerediscussed.Andfromtheviewofdesigningandmanufacturingthecorrelationsforcalculatingtheheattransferandpressuredropperformancesoftheheatexchangerwerepresented.Accordingtothecurrentinvestigationprogressthecasesabouttheapplicationoftwistedovaltubecondenserinachemicalfactorywereintroducedinthework.Theresultshowsthatthetwistedovaltubecondenserperformsbetterthanthetraditionalbaffleheatexchangeranditcanbewidelyusedinthefieldofchemicalindustry.Keywordstwistedtubeheatexchangerheattransferenhancementmechanismcorrelationscondenser、、、、、。、、、12。AlardsBrownFintube。BrownFintubeBlazoLjubicic3、、25%4。。11。2。。、1。、。1。。2。。22.15、6、78。Bolinder9-1011Galerkin12。138。2.2Dzyubenko1415。1617。·03·2012401018、19-、-、。20。1。1Table1CorrelationsoftubesideheattransferandpressuredropperformancesDzyubenko2S/de=6.5Re=2×104—2×105Tw/Tf=1.0—1.6Nu=0.0182Re0.8TwT()f-0.55exp1.95TwTf()-1[]2f=0.4Re-0.25Re=1.5×104—9×104f=0.062Re-0.087Re=9×104—9×10515de=21mmS/de=6.86—11.9Re=1000—17000Nu=0.0396Re0.544()Sd-0.159Sd()e0.161Pr0.33lgf=A1+A2lgRe+A3lgRe2A1A2A3Sd()e16A/B=2.13—3.07Pr=6.0—7.5S/de=17.19—50.62Re=5000—20000f=4.572Re-0.521B()A0.334Sd()e-0.082Nu=0.034Re0.784B()A-0.590Sd()e-0.165Pr0.33320A/B=1.43—2.50S/de=15—27Re=200—1750Pr=4—200f=64Re+18.69Re-0.1691-B()A2.173Sd()e-1.255Nu=0.821Re0.37431-B()A0.909Sd()e-0.263Pr0.6605321Dzyubenko22Iev-lev23-、、24-26。Dzyubenko27-29FrM=S2/deAFrM>232FrM=64Dzyubenko3031-32。Mushabbab33。15372。21。·13·2Table2Correlationsofshellsideheattransferandpressuredropperformances1570.08mS/de=6.86—11.9FrM=231—392Re=1000—9000Nu=0.02379Re0.7602Fr-0.4347M1+3.6Fr-0.357MPr0.33f=9.461Re0.4928Fr-0.078M1+3.6Fr-0.357MDzyubenko27-2837FrM=232—24408000<Re<4×104Nu=0.023Re0.81+3.6Fr-0.357MPr0.4TwT()f-0.55f=0.3164Re-0.251+3.6Fr-0.357MDzyubenko2937FrM=648000<Re<4×104Nu=0.0521Re0.8Pr0.4TwT()f-0.55f=1.095Re-0.25434。20%—50%20%—30%。35。1.763%。。Zhang36。。Gao17。、1.8t/3。75.6%22、、16.3%10.2%。。3Fig.3Assemblingoftwistedovaltubecondenser5、。·23·20124010。。demfFrMFroudeNuPrReSmTfTwK1.M.200833-42.2MENGJALIANGXGCHENZJetal.ExperimentalstudyonconvectiveheattransferinalternatingellipticalaxistubesJ.ExperimentalThermalandFluidScience2005294457-465.3LJUBICICB.Testingoftwistedtubeexchangersintransi-tionflowregimeJ/OL2012-08-20.http//.kht-group.biz/technicalarticles/TestingofTwisted-TubeEx-changersInTransitionFlowRegime.pdf.4.J.20003720-21.5TODDL.SomecommentsonsteadylaminarflowthroughtwistedpipesJ.JournalofEngineeringMathematics197711129-48.6KOTORYNSKIWP.Steadylaminarflowthroughatwis-tedpipeofellipticalcross-sectionJ.Computers&Flu-ids1986144433-444.7TUTTLEER.LaminarflowintwistedpipesJ.JournalofFluidMechanics1990219545-570.8BISHARAFJOGMAMANGLIKRM.ComputationalsimulationofswirlenhancedflowandheattransferinatwistedovaltubeJ.JournalofHeatTransfer200913181.9BOLINDERCJ.CurvilinearcoordinatesandphysicalcomponentsanapplicationtotheproblemviscousflowandheattransferinsmoothlycurvedductsJ.JournalofAppliedMechanics.1996634985-989.10BOLINDERCJ.First-andhigher-ordereffectsofcurva-tureandtorsionontheflowinahelicalrectangularductJ.JournalofFluidMechanics1996314113-136.11.J.2000184448-455.12.GalerkinJ.2005158923-929.13ZHANGJinsuoZHANGBenzhao.LaminarfluidflowinhelicalellipticaltubeJ.JournalofHydrodynaimcsB2000262-71.14.M.1990139-150.15.J.1995465601-608.16.J.2008361117-21.17GAOXuenongYINHuibinHUANGYuyouetal.Nucle-atepool-boilingenhancementoutsideahorizontalbankoftwistedtubeswithmachinedporoussurfaceJ.AppliedThermalEngineering20092914/153212-3217.18.J.20033231-4.19.J.201139218-21.20.J.2002S1117-120.21.D.201045-54.22DZYUBENKOBVASHAMANTASLVSEGALMD.ModelinganddesignoftwistedtubeheatexchangerM.NewYorkBegellHouseInc200070-83.23IEVLEVVMDZYUBENKOBVDREITSERGAetal.In-lineandcross-flowhelicaltubeheatexchangersJ.InternationalJournalofHeatandMassTransfer1982253317-323.24DZYUBENKOBV.InvestigationofthetransferpropertiesofastreaminaheatexchangerwithspiraltubesJ.In-zhenerno-FizicheskiiZhurnal1979386965-971.25DZYUBENKOBVURBONASPAASHMANTASLA.Interchannelmixingofheatcarriersinabundleofspiral·33·tubesJ.Inzhenerno-FizicheskiiZhurnal198245126-32.26DZYUBENKOBVSTETSYUKVN.Effectofflow-twis-tingintensityonthemixingofaheat-transferagentinbundlesoftwistedtubesJ.Inzhenerno-FizicheskiiZhur-nal1987555709-715.27LEVLEVVMKALININEKDANILOVIIetal.Heattransferintheturbulentsw