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710024NTPnuclearthermalpropulsion、。TL351A2095-6223201402-104-06KeyTechnologiesandTheirDevelopmentinNuclearThermalPropulsionReactorsCHENLi-xin,HUPan,WANGLi-peng,JIANGXin-biao(StateKeyLaboratoryofSimulationandEffectforIntensePulseRadiation,NorthwestInstituteofNuclearTechnology,Xian710024,China)Abstract:Inthispaper,thekeytechnologiesandtheirdevelopmentinnuclearthermalpropulsion(NTP)reactorsareanalyzed,andtheapplicationbackgroundofNTPreactorsinspaceisalsointro-2014-02-252014-03-15112751521976。E-mailchenlixin@nint.ac.cnduced.Meanwhile,themainparametersandcharacteristicsofsomeNTPreactorsdesignedinUSAandRussiaarecompared.Finally,thedevelopmentandapplicationforegroundofNTPreactorsinthefuturearediscussed.Keywords:nuclearthermalpropulsion;reactor;deepspaceexploration。、。4500m·s-1、。、、、。104m·s-122m·s-110m·s-116.7m·s-1。。。、5220146MODERNAPPLIEDPHYSICSVol.5No.2Jun.2014。。。。1。。1Fig.1Configurationofnuclearthermalpropulsionsystem1。、、、、、、。。。1.1。>3000K。。1。UC、UN。U、Nb、Zr。11Tab.1ThemeltingpointofsomenuclearfuelsFuelMeltingpoint/℃FuelMeltingpoint/℃U1133ThO23299Zr-14%U1782UC2371UO22849UN28431。。2。3。4。1.2>3000K。<100K。。123。22080———MITEEMiniatureReac-5012torEngine2。MITEE、。。aFuelparticlebFuelelementcReactor2MITEEFig.2MITEEstructure。。。。1.3。、。DRA5.03356.4t106.2t29.8%。。。1.4。。>104MW·m-3。。、。2/2050。。60152.11955Rover。2060NERVA4。NERVARover35t、8250m·s-1、1h3。NERVA、2080———spacenuclearthermalpropulsionSNTP5、particlebedreactorPBR。209021。。SLHC6NERVA。201032030。3NERVAFig.3ApropulsionsystemdevelopedinNERVA2.2。RD-04107。RD-0410、。4RD-0410。2、。4RD-0410Fig.4StructureofRD-0410reactorofRussia70122Tab.2DesignparametersofsomeNTPreactorsReactorStatePower/MWOutlettemp./KThrust/kNSpecificimpulse/m·s-1ThrusttoweightFuelRover4USA45003311106485003~4UNbZrCPBR5USA10003000196950025~35UC2MITEE2USA7530001410000UO2SLHC6USA~400330050~2509300~97005~10UNbZrCRD-04107Russia196300035.39000UNbZrCNPPS7Russia3352800~2900689200U-Zr-C-N3<5000MW·m-3。。、、。、ZrH、LiH。51。。。2、。。。3。。DRA5.0。4。。5。5Fig.5Propulsionreactorwithgascore8015。。5。、。。6。6Fig.6Structureofindirectcyclenuclearthermalpropulsion4。。、。。[1].[M].:,1997:32-33.(WUGuo-wei.NuclearReactorEngineeringDesign[M].Beijing:AtomicEnergyPress,1997:32-33.)[2]POWELLJR,PANAGUAJ,MAISEG,etal.Highperformancenuclearthermalpropulsionsystemforneartermexplorationmis-sionsto100AUandbeyond[J].ActaAstronautica,1999,44(2/3/4):159-166.[3]DRAKEBG,HOFFMANSJ,BREATYDW.Humanexplora-tionofMarsdesignreferencearchitecture5.0[C]//IEEEAero-spaceConference,2010,BigSky,MT,2010.[4]ROBBINSWH,FINGERHB.AhistoricalperspectiveoftheNERVAnuclearrocketenginetechnologyprogram[R].AIAA91-3451,LosAngeles,California:NASA,1991.[5]LUDEWIGH,POWELLJR,TODOSOWM,etal.Designofparticlebedreactorsforthespacenuclearthermalpropulsionpro-gram[J].ProgressinNuclearEnergy,1996,30(1):1-65.[6]GOUWRR.Nucleardesignanalysisofsquarelatticehoneycombspacenuclearrocketengine[D].America:FloridaUniversity,2000.[7]ZAKIROVV,PAVSHOOKV.Russiannuclearrocketenginede-signforMarsexploration[J].TsinghuaScienceandTechnology,2007,12(3):256-260.9012
本文标题:核热推进反应堆关键技术及其发展-陈立新
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