SUBROUTINE ORODRAG( klon,klev I , KGWD, KGWDIM, KDX, KTEST R , PTSPHY R , PAPHM1,PAPM1,PGEOM1,PTM1,PUM1 R , PVM1, PVAROR, PSIG, PGAMMA, PTHETA C OUTPUTS R , PULOW,PVLOW R , PVOM,PVOL,PTE ) C C C**** *ORODRAG* - DOES THE GRAVITY WAVE PARAMETRIZATION. C C PURPOSE. C -------- C C THIS ROUTINE COMPUTES THE PHYSICAL TENDENCIES OF THE C PROGNOSTIC VARIABLES U,V AND T DUE TO VERTICAL TRANSPORTS BY C SUBGRIDSCALE OROGRAPHICALLY EXCITED GRAVITY WAVES C C EXPLICIT ARGUMENTS : C -------------------- C C INPUT : C C NLON : NUMBER OF HORIZONTAL GRID POINTS C NLEV : NUMBER OF LEVELS C KGWD : NUMBER OF POINTS AT WHICH THE SCHEME IS CALLED C KGWDIM : NUMBER OF POINTS AT WHICH THE SCHEME IS CALLED C KDX(NLON) : POINTS AT WHICH TO CALL THE SCHEME C KTEST(NLON) : MAP OF CALLING POINTS C PTSPHY : LENGTH OF TIME STEP C PAPHM1(NLON,NLEV+1): PRESSURE AT MIDDLE LEVELS C PAPM1(NLON,NLEV) : PRESSURE ON MODEL LEVELS C PGEOM1(NLON,NLEV) : GEOPOTENTIAL HIEGHT OF MODEL LEVELS C PTM1(NLON,NLEV) : TEMPERATURE C PUM1(NLON,NLEV) : ZONAL WIND C PVM1(NLON,NLEV) : MERIDIONAL WIND C PVAROR(NLON) : SUB-GRID SCALE STANDARD DEVIATION C PSIG(NLON) : SUB-GRID SCALE SLOPE C PGAMMA(NLON) : SUB-GRID SCALE ANISOTROPY C PTHETA(NLON) : SUB-GRID SCALE PRINCIPAL AXES ANGLE C C OUTPUT : C C PULOW(NLON) : LOW LEVEL ZONAL WIND C PVLOW(NLON) : LOW LEVEL MERIDIONAL WIND C PVOM(NLON,NLEV) : ZONAL WIND TENDENCY C PVOL(NLON,NLEV) : MERIDIONAL WIND TENDENCY C PTE(NLON,NLEV) : TEMPERATURE TENDENCY C C IMPLICIT ARGUMENTS : C -------------------- C C comcstfi.h C dimphys.h C yoegwd.h C C METHOD. C ------- C C EXTERNALS. C ---------- C C REFERENCE. C ---------- C C AUTHOR. C ------- C M.MILLER + B.RITTER E.C.M.W.F. 15/06/86. C C F.LOTT + M. MILLER E.C.M.W.F. 22/11/94 C----------------------------------------------------------------------- implicit none C C #include "dimensions.h" #include "dimphys.h" #include "dimradmars.h" integer klon,klev,kidia,kfdia parameter(kidia=1,kfdia=NDLO2) #include "comcstfi.h" #include "yoegwd.h" C----------------------------------------------------------------------- C C* 0.1 ARGUMENTS C --------- C C REAL PTE(NDLO2,klev), * PVOL(NDLO2,klev), * PVOM(NDLO2,klev), * PULOW(NDLO2), * PVLOW(NDLO2) REAL PUM1(NDLO2,klev), * PVM1(NDLO2,klev), * PTM1(NDLO2,klev), * PVAROR(NDLO2),PSIG(NDLO2),PGAMMA(NDLO2),PTHETA(NDLO2), * PGEOM1(NDLO2,klev), * PAPM1(NDLO2,klev), * PAPHM1(NDLO2,klev+1) C integer kgwd,kgwdim real ptsphy INTEGER KDX(NDLO2),KTEST(NDLO2) C----------------------------------------------------------------------- C C* 0.2 LOCAL ARRAYS C ------------ INTEGER ISECT(NDLO2), * ICRIT(NDLO2), * IKCRITH(NDLO2), * IKenvh(NDLO2), * IKNU(NDLO2), * IKNU2(NDLO2), * IKCRIT(NDLO2), * IKHLIM(NDLO2) integer ji,jk,jl,klevm1,ilevp1 C real gkwake real ztmst,pvar,ztauf,zrtmst,zdelp,zb,zc,zbet real zconb,zabsv,zzd1,ratio,zust,zvst,zdis,ztemp C REAL ZTAU(NDLO2,nlayermx+1), * ZSTAB(NDLO2,nlayermx+1), * ZVPH(NDLO2,nlayermx+1), * ZRHO(NDLO2,nlayermx+1), * ZRI(NDLO2,nlayermx+1), * ZpsI(NDLO2,nlayermx+1), * Zzdep(NDLO2,nlayermx) REAL ZDUDT(NDLO2), * ZDVDT(NDLO2), * ZDTDT(NDLO2), * ZDEDT(NDLO2), * ZVIDIS(NDLO2), * ZTFR(NDLO2), * Znu(NDLO2), * Zd1(NDLO2), * Zd2(NDLO2), * Zdmod(NDLO2) C C------------------------------------------------------------------ C C* 1. INITIALIZATION C -------------- C 100 CONTINUE C C ------------------------------------------------------------------ C C* 1.1 COMPUTATIONAL CONSTANTS C ----------------------- C 110 CONTINUE C c ZTMST=TWODT c IF(NSTEP.EQ.NSTART) ZTMST=0.5*TWODT KLEVM1=KLEV-1 ZTMST=PTSPHY ZRTMST=1./ZTMST C ------------------------------------------------------------------ C 120 CONTINUE C C ------------------------------------------------------------------ C C* 1.3 CHECK WHETHER ROW CONTAINS POINT FOR PRINTING C --------------------------------------------- C 130 CONTINUE C C ------------------------------------------------------------------ C C* 2. PRECOMPUTE BASIC STATE VARIABLES. C* ---------- ----- ----- ---------- C* DEFINE LOW LEVEL WIND, PROJECT WINDS IN PLANE OF C* LOW LEVEL WIND, DETERMINE SECTOR IN WHICH TO TAKE C* THE VARIANCE AND SET INDICATOR FOR CRITICAL LEVELS. C 200 CONTINUE C C C CALL OROSETUP * ( klon, klev , KTEST * , IKCRIT, IKCRITH, ICRIT, ISECT, IKHLIM, ikenvh,IKNU,iknu2 * , PAPHM1, PAPM1 , PUM1 , PVM1 , PTM1 , PGEOM1, pvaror * , ZRHO , ZRI , ZSTAB , ZTAU , ZVPH , zpsi, zzdep * , PULOW, PVLOW * , ptheta,pgamma,znu ,zd1, zd2, zdmod ) C C C C*********************************************************** C C C* 3. COMPUTE LOW LEVEL STRESSES USING SUBCRITICAL AND C* SUPERCRITICAL FORMS.COMPUTES ANISOTROPY COEFFICIENT C* AS MEASURE OF OROGRAPHIC TWODIMENSIONALITY. C 300 CONTINUE C CALL GWSTRESS * ( klon , klev * , IKCRIT, ISECT, IKHLIM, KTEST, IKCRITH, ICRIT, ikenvh, IKNU * , ZRHO , ZSTAB, ZVPH , PVAR , pvaror, psig * , ZTFR , ZTAU * , pgeom1,pgamma,zd1,zd2,zdmod,znu) C C* 4. COMPUTE STRESS PROFILE. C* ------- ------ -------- C 400 CONTINUE C C CALL GWPROFIL * ( klon , klev * , kgwd , kdx , KTEST * , IKCRIT, IKCRITH, ICRIT , ikenvh, IKNU * ,iknu2 , pAPHM1, ZRHO , ZSTAB , ZTFR , ZVPH * , ZRI , ZTAU , ztauf * , zdmod , znu , psig , pgamma , pvaror ) C C C* 5. COMPUTE TENDENCIES. C* ------------------- C 500 CONTINUE C C EXPLICIT SOLUTION AT ALL LEVELS FOR THE GRAVITY WAVE C IMPLICIT SOLUTION FOR THE BLOCKED LEVELS DO 510 JL=KIDIA,KFDIA ZVIDIS(JL)=0.0 ZDUDT(JL)=0.0 ZDVDT(JL)=0.0 ZDTDT(JL)=0.0 510 CONTINUE C ILEVP1=KLEV+1 C C DO 524 JK=1,klev C CDIR$ IVDEP C C GKWAKE=0.5 C C NOW SET IN SUGWD.F C DO 523 JL=1,KGWD JI=KDX(JL) ZDELP=pAPHM1(Ji,JK+1)-pAPHM1(Ji,JK) ZTEMP=-g*(ZTAU(Ji,JK+1)-ZTAU(Ji,JK))/(ZVPH(Ji,ILEVP1)*ZDELP) ZDUDT(JI)=(PULOW(JI)*Zd1(ji)-pvlow(ji)*zd2(ji))*ztemp/zdmod(ji) ZDVDT(JI)=(pvLOW(JI)*Zd1(ji)+pulow(ji)*zd2(ji))*ztemp/zdmod(ji) if(jk.ge.ikenvh(ji)) then zb=1.0-0.18*pgamma(ji)-0.04*pgamma(ji)**2 zc=0.48*pgamma(ji)+0.3*pgamma(ji)**2 zconb=2.*ztmst*GKWAKE*psig(ji)/(4.*pvaror(ji)) zabsv=sqrt(PUM1(JI,JK)**2+PVM1(JI,JK)**2)/2. zzd1=zb*cos(zpsi(ji,jk))**2+zc*sin(zpsi(ji,jk))**2 ratio=(cos(zpsi(ji,jk))**2+pgamma(ji)*sin(zpsi(ji,jk))**2)/ * (pgamma(ji)*cos(zpsi(ji,jk))**2+sin(zpsi(ji,jk))**2) zbet=max(0.,2.-1./ratio)*zconb*zzdep(ji,jk)*zzd1*zabsv zdudt(ji)=-pum1(ji,jk)/ztmst zdvdt(ji)=-pvm1(ji,jk)/ztmst zdudt(ji)=zdudt(ji)*(zbet/(1.+zbet)) zdvdt(ji)=zdvdt(ji)*(zbet/(1.+zbet)) end if PVOM(JI,JK)=ZDUDT(JI) PVOL(JI,JK)=ZDVDT(JI) ZUST=PUM1(JI,JK)+ZTMST*ZDUDT(JI) ZVST=PVM1(JI,JK)+ZTMST*ZDVDT(JI) ZDIS=0.5*(PUM1(JI,JK)**2+PVM1(JI,JK)**2-ZUST**2-ZVST**2) ZDEDT(JI)=ZDIS/ZTMST ZVIDIS(JI)=ZVIDIS(JI)+ZDIS*ZDELP ZDTDT(JI)=ZDEDT(JI)/cpp PTE(JI,JK)=ZDTDT(JI) 523 CONTINUE 524 CONTINUE C C RETURN END