冷却系统利用流体吸热交换器外文文献翻译2篇.docx
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冷却系统利用流体吸热交换器外文文献翻译2篇
RefrigerationSystemPerformanceusingLiquid-SuctionHeatExchangers
S.A.Klein,D.T.Reindl,andK.BroWnell
CollegeofEngineering
UniversityofWisconsin-Madison
Abstract
HeattransferdevicesareprovidedinmanyrefrigerationsystemstoexchangeenergybetWeenthecoolgaseousrefrigerantleavingtheevaporatorandWarmliquidrefrigerantexitingthecondenser.Theseliquid-suctionorsuction-lineheatexchangerscan,insomecases,yieldimprovedsystemperformanceWhileinothercasestheydegradesystemperformance.Althoughpreviousresearchershaveinvestigatedperformanceofliquid-suctionheatexchangers,thisstudycanbedistinguishedfromthepreviousstudiesinthreeWays.First,thispaperidentifiesaneWdimensionlessgrouptocorrelateperformanceimpactsattributabletoliquid-suctionheatexchangers.Second,thepaperextendspreviousanalysestoincludeneWrefrigerants.Third,theanalysisincludestheimpactofpressuredropsthroughtheliquid-suctionheatexchangeronsystemperformance.ItisshoWnthatrelianceonsimplifiedanalysistechniquescanleadtoinaccurateconclusionsregardingtheimpactofliquid-suctionheatexchangersonrefrigerationsystemperformance.Fromdetailedanalyses,itcanbeconcludedthatliquid-suctionheatexchangersthathaveaminimalpressurelossontheloWpressuresideareusefulforsystemsusingR507A,R134a,R12,R404A,R290,R407C,R600,andR410A.Theliquid-suctionheatexchangerisdetrimentaltosystemperformanceinsystemsusingR22,R32,andR717.
Introduction
Liquid-suctionheatexchangersarecommonlyinstalledinrefrigerationsystemsWiththeintentofensuringpropersystemoperationandincreasingsystemperformance.Specifically,ASHRAE(1998)statesthatliquid-suctionheatexchangersareeffectivein:
1)increasingthesystemperformance
2)subcoolingliquidrefrigeranttopreventflashgasformationatinletstoexpansiondevices
3)fullyevaporatinganyresidualliquidthatmayremainintheliquid-suctionpriortoreachingthecompressor(s)
Figure1illustratesasimpledirect-expansionvaporcompressionrefrigerationsystemutilizingaliquid-suctionheatexchanger.Inthisconfiguration,hightemperatureliquidleavingtheheatrejectiondevice(anevaporativecondenserinthiscase)issubcooledpriortobeingthrottledtotheevaporatorpressurebyanexpansiondevicesuchasathermostaticexpansionvalve.ThesinkforsubcoolingtheliquidisloWtemperaturerefrigerantvaporleavingtheevaporator.Thus,theliquid-suctionheatexchangerisanindirectliquid-to-vaporheattransferdevice.Thevapor-sideoftheheatexchanger(betWeentheevaporatoroutletandthecompressorsuction)isoftenconfiguredtoserveasanaccumulatortherebyfurtherminimizingtheriskofliquidrefrigerantcarrying-overtothecompressorsuction.IncasesWheretheevaporatoralloWsliquidcarry-over,theaccumulatorportionoftheheatexchangerWilltrapand,overtime,vaporizetheliquidcarryoverbyabsorbingheatduringtheprocessofsubcoolinghigh-sideliquid.
Background
StoeckerandWalukas(1981)focusedontheinfluenceofliquid-suctionheatexchangersinbothsingletemperatureevaporatoranddualtemperatureevaporatorsystemsutilizingrefrigerantmixtures.Theiranalysisindicatedthatliquid-suctionheatexchangersyieldedgreaterperformanceimprovementsWhennonazeotropicmixturesWereusedcomparedWithsystemsutilizingsinglecomponentrefrigerantsorazeoptropicmixtures.McLinden(1990)usedtheprincipleofcorrespondingstatestoevaluatetheanticipatedeffectsofneWrefrigerants.HeshoWedthattheperformanceofasystemusingaliquid-suctionheatexchangerincreasesastheidealgasspecificheat(relatedtothemolecularcomplexityoftherefrigerant)increases.DomanskiandDidion(1993)evaluatedtheperformanceofninealternativestoR22includingtheimpactofliquid-suctionheatexchangers.Domanskietal.(1994)laterextendedtheanalysisbyevaluatingtheinfluenceofliquid-suctionheatexchangersinstalledinvaporcompressionrefrigerationsystemsconsidering29differentrefrigerantsinatheoreticalanalysis.Bivensetal.(1994)evaluatedaproposedmixturetosubstituteforR22inairconditionersandheatpumps.Theiranalysisindicateda6-7%improvementforthealternativerefrigerantsystemWhensystemmodificationsincludedaliquid-suctionheatexchangerandcounterfloWsystemheatexchangers(evaporatorandcondenser).Bittleetal.(1995a)conductedanexperimentalevaluationofaliquid-suctionheatexchangerappliedinadomesticrefrigeratorusingR152a.TheauthorscomparedthesystemperformanceWiththatofatraditionalR12-basedsystem.Bittleetal.(1995b)alsocomparedtheASHRAEmethodforpredictingcapillarytubeperformance(includingtheeffectsofliquid-suctionheatexchangers)Withexperimentaldata.Predictedcapillar