翻译原文.docx
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翻译原文.docx
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翻译原文
Articalhistury
Received19February2014
Receivedinrevisedform11April2014
Accepted17April2014
Availableonline26April2014
Keywords:
SlugPorosityConveyingmechanisms;Horizontalpneumaticconveying;StressesPipeblockage
Movingslugsofplasticpelletswereinvestigatedin-situduringlowvelocitypneumaticconveyinginhorizontalpipelines.Slugcharacteri-
sticsincludingtheprofileofpressure,pressuregradient,particlevelocity,porosity,radialandwallshearstresses,aspectandbehaviourwerecombinedtoobtainacompletepictureofmovingslugs.Theobjectivewastogainuniqueknowledgeonthephysicalmechanismsinvolvedinslugformation,transport,anddecayandtheoccurrenceofpipeblockage.Slugsinbothstableandunstablestateswereanalysed.Astrongcorrelationbetweenparticlevelocityandwallstresseswasfound,whichsuggeststhatthestressesresponsibleforthehighpressurelosscharacterisingslugflowmayresultmostlyfromthetransferofparticleimpulsestothepipewall.Mostslugswerefoundtobedenserattherearwhereparticlevelocitywasthehighest,thusleadingtoslugshorteningovertime.ThisphenomenonwassuccessfullymodelledusingbothNewton's2ndlawandtheidealgaslawandpredictionofparticlevelocityshowedgoodagreementwithexperimentalvalues.Incontrast,otherslugswerefoundtoextendduetotheparticlesatthefrontmovingfasterthantheparticlesattherear.Pipeblockagewasfoundtoresultfrominsufficientpermeationoftheslugbytheconveyinggas,indicatingthatsufficientmaterialpermeabilityisaconditionforslugflowtooccur.
1.Introduction
Despiteincreasedinterestindensephasepneumaticconveyingsincetheseventiesandthedevelopmentofspecialdensephaseconveyingsystems,therealestablishmentofsuchsystemsforindustrialapplicationshasbeensomewhatslow.Theresistancetypicallycomesfrompractitionersforwhomtherandomperformancesoflowvelocitypneumaticconveyingsystemsresultintoohigherrisk.Infact,evenifoperatingapneumaticconveyingsystemconstitutesarelativelyeasytask,thedesignofsuchasystemisoftenproblematic.SincetheendofWorldWarII,researchteamsinbothindustryandacademiahavebeenworkingactivelytoassistdesignersofpneumaticconveyingsystemsbydevelopingdesignguidelinesfortheselectionofsystemparameterslikepressure,massflowrateandvelocityofboththegasandsolidphases.Thegoalistofurnishequipmentmanufacturersdesigntables,diagramsandequationstoaidinthedesignofnewconveyingsystems.Whilethishasbeensatisfactorilyachievedinthefieldofhighvelocitypneumaticconveyingbyintegratingfrictionfactorsasinthetransportofgasalone,thedesignoflowvelocitypneumaticconveyingsystemsandparticularlyslugflowconveyingsystemsstillremainsaproblem.Thisisbecausethecomplexphysicalmechanismsinvolvedinthetransportofhighparticleconcentrationsinagasphasehavestillnotbeenfullyunderstood.Infact,indensephase,theflowphenomenaoccurringinthepipelineareinfluencedbynotonlythegasvelocity,solidproperties,pipelinedirectionandconfigurationandsolidinthetransportofhighparticleconcentrationsinagasphasehave
stillnotbeenfullyunderstood.Infact,indensephase,theflowphenomenaoccurringinthepipelineareinfluencedbynotonlythegasvelocity,solidproperties,pipelinedirectionandconfigurationandsolidfeedingdevices,butalsotheparticle–particleandparticle–wallinteractionsthatareofgreatimportanceandshouldbetakenintoaccount.Inaddition,thetransportofsolidsbyagasstreamcancausesomeuniquephenomenathatoftenarenotencounteredingas–liquidflowsorsingle-phaseflows,liketheproductionofelectrostaticcharges,whichagainincreasesthecomplexityoftheflowphenomenaandtheirdescription.Afrequentapproachtodescribeandsystematiseslugflowpneumaticconveyingconsistsofextrapolatingthephysicalparameterscharacterisingtheconveyingprocess,suchasaveragegasvelocity,slugvelocityandpressurelosstothebehaviourofindividualslugs.However,sinceinformationsuchasnumberandlengthofslugsisusuallyunavailableandeachindividualslugisinaparticularstateofformation,stabilityordecay,generallylittleinformationcanbegained.Therefore,theconverseapproachinwhichmeasurementsperformedonindividualslugsareextrapolatedtotheentirepipelinehasalsobeenapplied.Thisapproachpresentsgreatadvantagesinthatifsufficientinformationisavailable,theactualphysicalmechanismsleadingtoslugflowandtheresultingpressurelosscanbeidentifiedandputintoequations,whichinturncanbeusedtopredictoverallslugflowdesignparameters.Someinthetransportofhighparticleconcentrationsinagasphasehave
stillnotbeenfullyunderstood.Infact,indensephase,theflowphenomenaoccurringinthepipelineareinfluencedbynotonlythegasvelocity,solidproperties,pipelinedirectionandconfigurationandsolidfeedingdevices,butalsotheparticle–particleandparticle–wallinteractionsthatareofgreatimportanceandshouldbetakenintoaccount.Inaddition,thetransportofsolidsbyagasstreamcancausesomeuniquephenomenathatoftenarenotencounteredingas–liquidflowsorsingle-phaseflows,liketheproductionofelectrostaticcharges,whichagainincreasesthecomplexityoftheflowphenomenaandtheirdescription.
Afrequentapproachtodescribeandsystematiseslugflowpneumaticconveyingconsistsofextrapolatingthephysicalparameterscharacterisingtheconveyingprocess,suchasaveragegasvelocity,slugvelocityandpressurelosstothebehaviourofindividualslugs.However,sinceinformationsuchasnumberandlengthofslugsisusuallyunavailableandeachindividualslugisinaparticularstateofformation,stabilityordecay,generallylittleinformationcanbegained.Therefore,theconverseapproachinwhichmeasurementsperformedonindividualslugsareextrapolatedtotheentirepipelinehasalsobeenapplied.Thisapproachpresentsgreatadvantagesinthatifsufficientinformationisavailable,theactualphysicalmechanismsleadingtoslugflowandtheresultingpressurelosscanbeidentifiedandputintoequations,whichinturncanbeusedtopredictoverallslugflowdesignparameters.
SomeworkersincludingRamachandranKonrad[2],Mi[3],Krull[4],Mason[5],andDaoud[6]focusedonobservingslug
flowandinvestigatingexperimentallysomeoftheslugcharacteristics,
usuallytheslugvelocityandpressuregradient.Whilesomegeneral
knowledgeonslugflowcouldbegained,becauseusuallyonlyoneor
twocharacteristicswereinvestigated,themechanicsofslugformation,
stabilityanddecaycouldnotbeidentified.Oneoftheissuesisthatbecauseslugflowisadynamicprocess,significantparameterssuchasslug
porosityandinternalstressstatesareparticularlydifficulttodetermineexperimentally,inparticularbecausethemeasurementsmustbenonintrusivetoavoidflowdisturbance.Asaresult,complexmeasuring
devicesmustbespecificallydesignedoradaptedtothisapplication.In
addition,thevariationsofporosityandstressesalongaslugorbetween
slugsaregenerallylowandtheirrecordingnecessitateshighlyaccurate
measuringdevices,whichwerenoteasilyavailableuntilthelastdecade.TheexperimentalstudiesofNiederreiter[7],Pahk[8],Lecreps[9]andNied[10]inthisareaareparticularlyrelevant.
Technologicaladvancesalsogaverisetothedevelopmentofnumericalanalysis,whichareincreasinglyappliedandpermitslugflowanalysiswithouttherequirementofpneumaticconveyingtrials.Tsuji[11],Kuang[12],Wensrich[13]andLevy[14]areamongtheauthorswhotookupthechallengeofsimulatingslugflowpneumaticconveyingusingdiverseapproachessuchasDiscreteElementMethods,ComputationalFluidDynamicsoracombinationofthetwo.Numericalsimulationshavetheadvantageofidentifyingsomeprecisephysicalphenomenathatphysicalmeasuringdeviceswouldonlypickupwithdifficulty.Inaddition,theycandeliveracompletepictureofamovingslugwithdataonlocalstresses,porosity,velocity,pressureandalsoshape.However,computersimulationsrelyonmanyassumptionsandrequirepre-calibrationofthemodels,whichusuallynecessitateexperimentaldata.Inaddition,mostsimulationworksconsidersteady-stateslugflowandashortlengthofpipe.Thus,thoseresultsareoftenmorequalitativethanquantitative.Onlyinrecentyears,simulationresultsforunstableslugflowbecameavailable[15].
Thispaperdealswithdetailedin-situinvestigationsofmovingslugs
duringpneumaticconveyinginhorizontalpipelines.Itaddressesboth
experimentalandtheoreticalinvestigationsperformedwiththeaimof
identifyingthemainphysicalmechanismsplayingaroleintheformation,transportanddecayofslugsandtheoccurrenceofpipeblockage.Inparticular,focushasbeenonthemechanismsdrivingtheflowinstabilitiesandleadingtopipeblockagethroughestablishmentofrelationshipsbetweenprofilesofpressure,porosity,particlevelocityandwallstressesalongmovingslugs.Bycombiningallthosecharacteristics,auniqueinsightintothephysicalmechanismsinvolvedinthetransportofslugsinhorizontalpipeswasobtained.Slugsinbothsteadyandunsteadystatesaswellasoccurrenceofpipeblockagewereanalysed.
2.Thirtyfiveyearsofresearchtounderstandslugflow
2.1.Flowobservation
Ramachandranwaspossiblythefirsttostudytheflowofsolid–gas
mixturesusinglongtransparentpipestoenableflowobservationin
largepipediameters[1].Henoticedthattheeaseofmove
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