外文文献及译文secretWord文件下载.docx
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外文文献及译文secretWord文件下载.docx
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Figure4.2.14showstherelationshipbetweentherecirculatingwaterandairastheyinteractinacounterflowcoolingtower.Theevaporativecoolingprocessinvolvessimultaneousheatandmasstransferasthewatercomesintocontactwiththeatmosphericair.Ideally,thewaterdistributionsystemcausesthewatertosplashoratomizeintosmallerdroplets,increasingthesurfaceareaofwateravailableforheattransfer.Theapproachtothewet-bulbisacommonlyusedindicatoroftowersizeandperformance.Itisdefinedasthetemperaturedifferencebetweenthecoolingwaterleavingthetowerandthewet-bulboftheairenteringthetower.Theoretically,thewaterbeingrecirculatedinatowercouldreachthewetbulbtemperature,butthisdoesnotoccurinactualtoweroperations.
FIGURE4.2.14Air/watertemperaturerelationshipinacounterflowcoolingtower.
Therangeforachiller/towercombinationisdeterminedbythecondenserthermalloadandthecoolingwaterflowrate,notbythecapacityofthecoolingtower.Therangeisdefinedasthetemperaturedifferencebetweenthewaterenteringthecoolingtowerandthatleaving.Thedriveroftowerperformanceistheambientwet-bulbtemperature.Thelowertheaveragewet-bulbtemperature,the“easier”itisforthetowertoattainthedesiredrange,typically6°
C(10°
F)forHVACapplications.Thus,inahot,dryclimatetowerscanbesizedsmallerthanthoseinahotandhumidareaforagivenheatload.
Coolingtowersarewidelyusedbecausetheyallowdesignerstoavoidsomecommonproblemswithrejectionofheatfromdifferentprocesses.Theprimaryadvantageofthemechanicaldraftcoolingtowerisitsabilitytocoolwatertowithin3–6°
C(5–10°
F)oftheambientwet-bulbtemperature.Thismeansmoreefficientoperationoftheconnectedchillingequipmentbecauseofimproved(lower)headpressureoperationwhichisaresultofthelowercondensingwatertemperaturessuppliedfromthetower.
CoolingTowerDesigns
TheASHRAESystemsandEquipmentHandbook(1996)describesover10typesofcoolingtowerdesigns.ThreebasiccoolingtowerdesignsareusedformostcommonHVACapplications.Baseduponairandwaterflowdirectionandlocationofthefans,thesetowerscanbeclassifiedascounterflowinduceddraft,crossflowinduceddraft,andcounterflowforceddraft.
Onecomponentcommontoallcoolingtowersistheheattransferpackingmaterial,orfill,installedbelowthewaterdistributionsystemandintheairpath.Thetwomostcommonfillsaresplashandfilm.Splashfilltendstomaximizethesurfaceareaofwateravailableforheattransferbyforcingwatertobreakapartintosmallerdropletsandremainentrainedintheairstreamforalongertime.Successivelayersofstaggeredsplashbarsarearrangedthroughwhichthewaterisdirected.Filmfillachievesthiseffectbyforcingwatertoflowinthinlayersoverdenselypackedfillsheetsthatarearrangedforverticalflow.Towersusingfilmtypefillareusuallymorecompactforagiventhermalload,anadvantageifspaceforthetowersiteislimited.Splashfillisnotassensitivetoairorwaterdistributionproblemsandperformsbetterwherewaterqualityissopoorthatexcessivedepositsinthefillmaterialareaproblem.
CounterflowInducedDraft
Airinacounterflowinduceddraftcoolingtowerisdrawnthroughthetowerbyafanorfanslocatedatthetopofthetower.Theairentersthetoweratlouversinthebaseandthencomesintocontactwithwaterthatisdistributedfrombasinsatthetopofthetower.Thus,therelativedirectionsarecounter(downforthewater,upfortheair)inthisconfiguration.ThisarrangementisshowninFigure4.2.15.Inthisconfiguration,thetemperatureofthewaterdecreasesasitfallsdownthroughthecounterflowingair,andtheairisheatedandhumidified.Dropletsofwaterthatmighthavebeenentrainedintheairstreamarecaughtatthedrifteliminatorsandreturnedtothesump.Airandsomecarryoverdropletsareejectedthroughthefansandoutthetopofthetower.Thewaterthathasbeencooledcollectsinthesumpandispumpedbacktothecondenser.
FIGURE4.2.15Counterflowinduceddraftcoolingtower.
Counterflowtowersgenerallyhavebetterperformancethancrossflowtypesbecauseoftheevenairdistributionthroughthetowerfillmaterial.Thesetowersalsoejectairathighervelocitieswhichreducesproblemswithexhaustairrecirculationintothetower.However,thesetowersarealsosomewhattallerthancrossflowtypesandthusrequiremorecondenserpumphead.
CrossflowInducedDraft
Asinthecounterflowcoolingtower,thefaninthecrossflowtowerislocatedatthetopoftheunit(Figure4.2.16).Airentersthetoweratsideorendlouversandmoveshorizontallythroughthetowerfill.Waterisdistributedfromthetopofthetowerwhereitisdirectedintothefillandiscooledbydirectcontactheattransferwiththeairincrossflow(airhorizontalandwaterdown).Watercollectedinthesumpispumpedbacktothechillercondenser.Theincreased
airflowpossiblewiththecrossflowtowerallowsthesetowerstohaveamuchloweroverallheight.Thisresultsinlowerpumpheadrequiredonthecondenserwaterpumpcomparedtothecounterflowtower.Thereducedheightalsoincreasesthepossibilityofrecirculatingtheexhaustairfromthetopofthetowerbackintothesideorendairintakeswhichcanreducethetower’seffectiveness.
CounterflowForcedDraft
Counterflowforceddraftcoolingtowershavethefanmountedatornearthebottomoftheunitneartheairintakes(Figure4.2.17).Asintheothertowers,waterisdistributeddownthroughthetoweranditsfill,andthroughdirectcontactwithatmosphericairitiscooled.Thermaloperationofthistowerissimilartothecounterflowinduceddraftcoolingtower.Fanvibrationisnotassevereforthisarrangementcomparedtoinduceddrafttowers.Thereisalsosomeadditionalevaporativecoolingbenefitbecausethefandischargesairdirectlyacrossthesumpwhichfurthercoolsthewater.Therearesomedisadvantagestothistower.First,theairdistributionthroughthefillisuneven,whichreducestowereffectiveness.Second,thereisriskofexhaustairrecirculationbecauseofthehighsuctionvelocityatthefaninlets,whichcanreducetowereffectiveness.Thesetowersfindapplicationsinsmallandmedium-sizedsystems.
Materials
Coolingtowersoperateinacontinuouslywetconditionthatrequiresconstructionmaterialstomeetchallengingcriteria.Besidesthewetconditions,recirculatingwatercouldhaveahighconcentrationofmineralsaltsduetotheevaporationprocess.Coolingtowermanufacturersbuildtheirunitsfromacombinationofmaterialsthatprovidethebestcombinationofcorrosionresistanceandcost.Woodisatraditionalmaterialusedincoolingtowerconstruction.Redwoodorfirareoftenusedandareusuallypressuretreatedwithpreservativechemicals.Chemicalssuchaschromatedcopperarsenateoracidcopperchromatehelppreventdecayduetofungiordestructionbytermites.
FIGURE4.2.16Crossflowinduceddraftcoolingtower.
FIGURE4.2.17Counterflowforceddraftcoolingtower.
Galvanizedsteeliscommonlyusedforsmall-tomid-sizedcoolingtowerstructures.Hardwareisusuallymadeofbrassorbronze.Criticalcomponents,suchasdriveshafts,hardwaremountingpoints,etc.,maybemadefrom302or304stainlesssteel.Castironcanbefoundinbasecastings,motorhousings,andfanhubs.Metalscoatedwithplasticsarefindingapplicationforspecialcomponents.
Manymanufacturersmakeextensiveuseoffiberglass-reinforcedplastic(FRP)intheirstructure,pipe,fanblades,casing,inletlouvers,andconnectioncomponents.Polyvinylchloride(PVC)isusedforfillmedia,drifteliminators,andlouvers.Fillbarsandfloworificesarecommonlyinjectionmoldedfrompolypropyleneandacrylonitrilebutadienestyrene(ABS).
Concreteisnormallyusedforthewaterbasinorsumpoffielderectedtowers.Tilesormasonryareusedinspecialtytowerswhenaestheticsareimportant.
Performance
Rejectionoftheheatloadproducedatthechillingequipmentistheprimarygoalofacoolingtowersystem.Thisheatrejectioncanbeaccomplishedwithanoptimizedsystemthatminimizesthetotalcompressorpowerrequirementsofthechillerandthetowerloadssuchasthefansandcondenserpumps.Severalcriteriamustbedeterminedbeforethedesignercancompleteathoroughcoolingtoweranalysis,includingselectionoftowerrange,water-to-airratio,approach,filltypeandconfiguration,andwaterdistributionsystem.Table4.2.6listssomeofthecommondesigncriteriaandnormallyacceptedrangesforcoolingtowers.
MostcommonHVACapplicationsrequiringacoolingtowerwillusean“off
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