WRF输出变量说明Word格式.docx
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units=Mms-1"
经向风分量
floatW(Time,bottom_top_stag,south_north,west_east);
W:
z-windcomponent"
W:
units=Hms-11'
垂直风分量
floatPH(Time,bottom_top_stag/south_northzwest_east);
PH:
description='
'
perturbationgeopotential1'
units=nm2s-2H;
扰动位势
floatPHB(Time,bottom_top_stag,south^north,west_east);
PHB:
description=Hbase-stategeopotential"
units=,,m2s-2H;
平均重力位势
floatT(Time,bottom^top,south_north,west_east);
T:
description二Hperturbationpotentialtemperature(theta-tO)n;
T:
units=,,KH;
扰动位温
floath/lUfTime,south_north,west_east);
MU:
perturbationdryairmassincolumn"
MU:
units=,,Pa"
干空气柱扰动气压
floatMUB(Time,south_north,west_east);
MUB:
description=Hbasestatedryairmassincolumn"
units=,,PaH;
平均干空气柱气压
floatNEST_POS(Time,south_north,west_east);
NEST_POS:
description=,,-M;
NEST_POS:
units二叮;
floatP(Time,bottom_top,south_north,west_east);
P:
description=Hperturbationpressure11;
P:
Pa"
扰动气压
floatPB(Time,bottom_top,south_north,west_east);
PB:
BASESTATEPRESSURE"
PB:
平均气压
floatSR(Time,south_north,west_east);
SR:
description=Hfractionoffrozenprecipitation"
units=,,-H;
固体降水比例
floatPOTEVP(Time,south_north,west_east);
POTEVP:
accumulatedpotentialevaporation”;
POTEVP:
units=HWm-2"
累积的潜在蒸发能量
floatSNOPCX(Time,south_north,west_east);
SNOPCX:
snowphasechangeheatflux"
Wm-2n;
雪态改变时的热通量
floatSOILTB(Time,south_north,west_east);
SOILTB:
bottomsoiltemperature11;
units=,,K1'
土壤底部温度
floatFNM(Time,bottom_top);
FNM:
description二"
upperweightforverticalstretching'
1;
FNM:
units=,,M;
floatFNP(Time,bottom_top);
FNP:
lowerweightforverticalstretching1'
floatRDNW(Time,bottom_top);
RDNW:
inversed(eta)valuesbetweenfull(w)levels11;
units=11,1;
floatRDN(Time,bottom_top);
RDN:
inversed(eta)valuesbetweenhalf(mass)levels"
units=,M,;
floatDNW(Timezbottom_top);
DNW:
description=nd(eta)valuesbetweenfull(w)levels1'
units=,,M;
floatDN仃ime,bottom_top);
DN:
description=Hd(eta)valuesbetweenhalf(mass)levels11;
floatCFN(Time);
CFN:
description二'
extrapolationconstant”;
CFN:
units=,m;
外推常数
floatCFNl(Time);
CFNl:
extrapolationconstant"
外推常数1
floatQ2(Time,south_north,west_east);
Q2:
description=HQVat2M1'
Q2:
kgkg-1"
地面2m高度的比湿
floatT2(Time,south_northzwest_east);
T2:
TEMPat2M1'
T2:
K"
地面2m高度的温度
floatTH2(Time/south_north,west_east);
TH2:
description=“POTTEMPat2M1'
units=;
地面2m高度的?
floatPSFC(Time,south_north,west_east);
PSFC:
description=nSFCPRESSURE1'
units=,,PaM;
表面气压
floatU10(Time,south_north,west_east);
U10:
description=HUat10MH;
U10:
units=,,ms-r,;
地面10m风场的纬向分量
floatV10(Timezsouth_north”west_east);
V10:
description=HVat10MH;
V10:
units=,,ms-ln;
地面10m风场的经向分量
floatRDX(Time);
RDX:
INVERSEXGRIDLENGTH1'
units=,,H;
floatRDY(Time);
RDY:
INVERSEYGRIDLENGTH11;
units=,,n;
floatZETATOP(Time);
ZETATOP:
description=“ZETAATMODELTOP11;
ZETATOP:
模式人气层顶的eta值
floatCFl(Time);
CFl:
2ndorderextrapolationconstant1'
2级外推常数1floatCF2(Time);
CF2:
2级外推常数2floatCF3(Time);
CF3:
2级外推常数3intITIMESTEP(Time);
ITIMESTEP:
description=,,M;
units=,,n;
时间步长
floatXTIME(Time);
XTIME:
minutessincesimulationstart"
XTIME:
已经模拟时间的长度
floatQVAPOR(Time,bottom_top,south_northzwest_east);
QVAPOR:
Watervapormixingratio'
QVAPOR:
kgkg-lM;
水汽(模式模拟的湿空气中的)的混合比
floatQCLOUD(Time,bottom_top”south_north,west_east);
QCLOUD:
Cloudwatermixingratio"
units=Hkgkg-1"
云水(模式模拟的实际空气中的)的混合比
floatQRAIN(Time,bottom_top”south_north,west_east);
QRAIN:
description=”Rainwatermixingratio"
kgkg-11'
雨水(模式模拟的实际空气中的)的混合比
floatLANDMASKfTime,south_north,west_east);
LANDMASK:
LANDMASK(1FORLAND,0FORWATER广;
LANDMASK:
landmask(1是陆地,0是水体)floatTSLB(Time,soil_layers_stag,south_north,west_east);
TSLB:
description=,,SOILTEMPERATURE,,;
TSLB:
各层土壤温度
floatSMOIS(Time,soil_layers_stag,south_north,west_east);
SMOIS:
description=“SOILMOISTURE11;
SMOIS:
units=nm3m-3H;
各层土壤湿度
floatSH20(Time,soil_layers_stag,south_north,west_east);
SH2O:
description=HSOILLIQUIDWATER"
SH2O:
m3m-3H;
各层土壤液态水含量?
floatSEAICE(Time,south_north,west_east);
SEAICE:
SEAICEFLAG11;
海冰标志
floatXICEM(Time,south_north,west_east);
XICEM:
description=HSEAICEFLAG(PREVIOUSSTEP)11;
上一时间步长的海冰标志
floatSFROFF仃ime”south_north,west_east);
SFROFF:
SURFACERUNOFF11;
units=,,mm,'
地表径流
floatUDROFF(Time,south_north,west_east);
UDROFF:
UNDERGROUNDRUNOFF”;
units=,,mmH;
地下径流
intIVGTYP(Time,south_north,west_east);
IVGTYP:
"
DOMINANTVEGETATIONCATEGORY11;
IVGTYP:
主要的植被种类
intISLTYP(Time,south_north,west_east);
ISLTYP:
DOMINANTSOILCATEGORY11;
主要的土壤种类
floatVEGFRA(Time,south_north,west_east);
VEGFRA:
VEGETATIONFRACTION11;
植被比例
floatGRDFLX(Time,south_north,west_east);
GRDFLX:
GROUNDHEATFLUX11;
units=HWm-2M;
地面热通量floatSNOW(Time,south_north,west_east);
SNOW:
description=HSNOWWATEREQUIVALENT1;
units=Mkgm-2n;
雪水等价物
floatSNOWH(Time,south_north,west_east);
SNOWH:
PHYSICALSNOWDEPTH11;
units=HmH;
实质的雪厚
floatRHOSN(Time,south_north,west_east);
RHOSN:
description=HSNOWDENSITY"
kgm-3M;
雪的密度
floatCANWAT(Time,south_north,west_east);
CANWAT:
description二HCANOPYWATER11;
units=Hkgm-2H;
floatSST(Time,south_northzwest_east);
SST:
SEASURFACETEMPERATURE11;
units=,lKn;
海表温度
floatQNDROPSOURCE(Time,bottom_top,south_north,west_east);
QNDROPSOURCE:
Dropletnumbersource'
QNDROPSOURCE:
/kg/s"
floatMAPFAC_M仃ime,south_north,west_east);
MAPFAC_M:
Mapscalefactoronmassgrid"
MAPFAC-M:
massgrid的地图比例系数floatMAPFAC_U(Time,south_north,west_east_stag);
MAPFAC_U:
Mapscalefactoronu-grid"
MAPFAC-U:
U-grid的地图比例系数floatMAPFAC_V(Time,south_north_stag,west_east);
MAPFAC_V:
Mapscalefactoronv-grid'
units=H,i;
V-grid的地图比例系数floatMAPFAC_MX(Time,south_north,west_east);
MAPFAC_MX:
Mapscalefactoronmassgrid,xdirection11;
MAPFAC_MX:
units=,n,;
massgrid的地图在纬向的比例系数floatMAPFAC^MY^ime,south_north,west_east);
MAPFAC_MY:
description=HMapscalefactoronmassgrid,ydirection"
MAPFAC_MY:
massgrid的地图在经向的比例系数floatMAPFAC_UX(Time,south_north,west_east_stag);
MAPFAC_UX:
description二HMapscalefactoronu-grid,xdirection"
U-grid的地图在纬向的比例系数floatMAPFAC_UY(Time,south_north,west_east_stag);
MAPFAC_UY:
description=HMapscalefactoronu-grid,ydirection11;
units=z;
U-grid的地图在经向的比例系数floatMAPFAC^VXfTime,south_north_stag,west_east);
MAPFAC_VX:
description=HMapscalefactoronv-grid,xdirection11;
MAPFAC_VX:
V-grid的地图在纬向的比例系数floatMF_VX_INV(Time,south_north_stag,west_east);
MF_VX_INV:
Inversemapscalefactoronv-grid,xdirection"
MF-VXJNV:
floatMAPFAC_VY(Time,south_north_stag,west_east);
MAPFAC_VY:
Mapscalefactoronv-grid,ydirection"
units=,,H;
V-grid的地图在经向的比例系数
floatF(Time,south^north,west_east);
F:
description=uCoriolissinelatitudeterm"
s-l11;
科氏力中sin(Q)的部分,Q为纬度
floatE(Time,south_north,west_east);
E:
Corioliscosinelatitudeterm'
E:
s-l"
科氏力中cos(Q)的部分,Q为纬度
floatSINALPHA(Time,south_north,west_east);
SINALPHA:
Localsineofmaprotation11;
SINALPHA:
floatCOSALPHA(Time,south_north,west_east);
COSALPHA:
Localcosineofmaprotation1'
units=,,,,;
floatHGT(Time,south_north,west_east);
HGT:
TerrainHeight"
units=,,mH;
地形高度
floatHGT_SHAD仃ime,south_north,west_east);
HGT_SHAD:
Heightoforographicshadow1'
HGT_SHAD:
units=,,m"
山岳背光坡的高度
地表温度
floatP_TOP(Time);
P_TOP:
PRESSURETOPOFTHEMODEL11;
P-TOP:
units=,,PaN;
模式顶的气压
floatMAX_MSTFX(Time);
MAX_MSTFX:
description=HMaxmapfactorindomain"
MAX_MSTFX:
区域内最人地图比例系数
floatRAINC