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1RecentDevelopmentofLowGWPRefrigerants19901995200020052010MontrealProtocolKyotoProtocolPostKyoto&HCFCPhaseoutAbsorption,Stirling,HFC,Water,ACMR&DforSafetyInstalled500HCA/CunitsforbeerbreweryDevelopmentforreducingglobalwarmingDevelopmentforCFCphase-outOnholdR410AasglobalsolutionHFCasoptimalsolutionEvaluationofHFOandthemixtureR410forroomA/CandR407forcommercialA/C(convertedtoR410from2003)TechnologydevelopmentforcommercializationR134aMarineContainer&ChillerTechnologydevelopmentJapan-U.S.jointprojectCO2HPR&DCO2WaterHeater(Eco-Cute)CO2VRVDevelopmentofR32A/CReconsiderofR32TechnologiesEvaluationR12toR134aR22toR410AHydroCarbonCO2R32HFO1234yf/ze1.ABriefIntroductionofDAIKINNextGenerationLowClimateImpactRefrigerants3OzoneProtectionClimateChangePeakLoadSafetyAffordabilityCFCPhase-outHCFCPhase-outHighAPFLowGWPLowLeakageHighCOPLowToxicNo/LowFlammableCompact/LightEasyInstall/MaintenanceSimplicity2.FutureOptionsofAlternativesToMakeEverybodyHappy?■Highboilingtemp.:largecap.coolingchiller■Lowboilingtemp.:smallcap.cooling/heatingunitarysystem2.FutureOptionsofAlternativesCapacityorEfficiency?VolumetricCapacity[kJ/m3]010002000300040005000-60-40-2002040R11R123R134aR12R22R410AR32R404AR143aR125R407CR290(丙烷)R502BoilingPoint[℃]Tevap:0℃Tcond:50℃Subcool:0℃Supheat:0℃R717(氨)TheoreticalCOPR11R123R134aR12R407CR502R143aR1255.04.03.0-60-40-2002040R410AR404AR717(氨)R22BoilingPoint[℃]R290(丙烷)R32Tevap:0℃Tcond:50℃Subcool:0℃Supheat:0℃R22SingleR410AAzeotropeR32SingleSyntheticR717(NH3)SingleR290(Propane)SingleNaturalR744(CO2)SingleRefrigerantsR407CZeotropeR1234yf(ze)SinglePropertiesPcond(MPa)Vol.Cool.Capacity(vsR22)ODPGWP(IPCC4th)1.731001000.0518102.7214192020902.801609706751.78116106001.538398031024341011.8610299017701.16579004HFO-MixZeotrope???0?CandidatesforthenextgenerationworkingfluidsTheoreticalCOP(vsR22)2.FutureOptionsofAlternativesRefrigerantCandidatesforunitaryA/C0%20%40%60%80%100%120%0%10%20%30%40%50%MixtureratioofR32inHFO1234yf/R32COPRatiotoR410A(%)StandardcoolingMediumcoolingStandardheatingMediumheatingTargetbaseline:R410ACannotprovidedesignatedcapacityGWP711382053402723.SystemPerformanceSystemperformanceofHFO1234yf/R32mixture100%loadcoolingmodeDrop-inPressuredropreduced050100150200250RatiotoR410A(%)CoolingcapacityCompressorspeedCOP50%loadcoolingmodePressuredropreduced050100150200250300350Drop-inRatiotoR410A(%)CoolingcapacityCompressorspeedCOP3.SystemPerformanceSystemperformanceofHFO1234yf100%loadheatingmode50%loadheatingmode050100150200250Drop-inPressuredropreducedRatiotoR410A(%)HeatingcapacityCompressorspeedCOP050100150200250Drop-inPressuredropreducedRatiotoR410A(%)HeatingcapacityCompressorspeedCOP3.SystemPerformanceSystemperformanceofHFO1234yfDrop-intestandanalysisfor2.8kWRASystemCOP(vsR410A)CoolingHeating95100110105115102.7%PropertiesCOPCOPComp.optimizationCondensingCondensingMeasureddataAnalysisMeasureddataAnalysis108.1%106.9%LowpressuredropTheR32performanceanalysismatchesdrop-inresult:·CoolingCOPis8.1%higherthanR410A·HeatingCOPis2.8%higherthanR410AProperties102.8%HEXoptimizationLowpressuredrop3.SystemPerformanceSystemperformanceofR32PropertiesCondenserEvaporatorLowdP15.2kW104+4+1+1110%LowAmbientTemp(-10oC)8kW16kW102103+1+2+1+2+1+0105%107%Heatingmode90100110HighAmbientTemp(43oC)Coolingmode7kW14kW102103+4+4+1+1+2+0107%110%90100110COP(vsR410A)[%]14kW104+4+2+1111%Resultswithpartialoptimizationandanalysisof14kWPA3.SystemPerformanceSystemperformanceofR32ThedirectglobalwarmingeffectofR32isonly20%ofR22GWP(IPCC4th)R22R320500150010002000R410A0109050100806070203040RefrigerantCharge[wt%]GWPGWPGWP1810Charge100%Effect2090Charge97%Effect2027675Charge61%Effect411GWPreducedbynearly60%!Totalglobalwarmingimpactreducedbynearly80%!Chargereducedbynearly40%!18103.SystemPerformanceMitigationofGlobalWarmingbyR3212Courtesy:Horieetal.,TokyoUniv.,2010Int.Symp.Next-gen.A/CandRefr.Tech.Cooling:1430hrsHeating:2889hrsRefrigerantrecovery:30%NominaloperatinghoursIECStd(Withoutventilation)New2LcategoryforASHRAE34/15·R143a,R32,R1234yf,NH3areacceptedas2LforASHRAEStd34·R1234zewillbeacceptedas2L,soon(Jan.2011?)·ASHRAEStd15andAHRIareinitiatedsafetystudiesof2LinrealapplicationsRAVRVforRACommercialUnitary012345678910020406080RoomSpace(㎡)Charge(kg)R32wallmountedHFO1234yfwallmountedR290R32cabinet10m2roomR2900.24kgR32Cabinet1.08kgHFO1234yfWM3.02kgR32wallmounted3.24kg4.SafetyConcernabouttheLowGWPRefrigerantsR290R152aR32144.SafetyConcernabouttheLowGWPRefrigerantsR32R22+mineraloilR32+etheroil154.SafetyConcernabouttheLowGWPRefrigerants·Thereisanessentialdifferencebetween2andaboveclassand2Lclassinburning.·The2andaboveclassismorelikeanexplosion,andreleaseahugeamountofenergy.·2Lclassisveryhardtoignite,onlyshowsaveryweakflame.164.SafetyConcernIntherealworld174.SafetyConcernIntherealworld·Thisiswhatwegotafterthehardworkoftheinstaller.184.SafetyConcernMaintenance/repair195.ConclusionsForunitaryair-conditioningsystem:1.R32showsthebestperformancecomparetotheothercandidates.2.Thesafetyissuestillneedtobeaddressed,notonlyduringtheoperation,butalsofortheinstallationandmaintenance.3.GWPa
本文标题:低GWP制冷剂最新发展动向
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