WRF输出变量说明Word格式.docx

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