! $Header$ SUBROUTINE advz(limit,dtz,w,sm,s0,sx,sy,sz) IMPLICIT NONE !CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC ! C ! first-order moments (FOM) advection of tracer in Z direction C ! C ! Source : Pascal Simon (Meteo,CNRM) C ! Adaptation : A.Armengaud (LGGE) juin 94 C ! C ! C ! sont des arguments d'entree pour le s-pg... C ! C ! dq est l'argument de sortie pour le s-pg C ! C !CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC ! ! parametres principaux du modele ! INCLUDE "dimensions.h" INCLUDE "paramet.h" ! INCLUDE "traceur.h" ! Arguments : ! ----------- ! dtz : frequence fictive d'appel du transport ! w : flux de masse en z en Pa.m2.s-1 INTEGER :: ntra PARAMETER (ntra = 1) REAL :: dtz REAL :: w ( iip1,jjp1,llm ) ! moments: SM total mass in each grid box ! S0 mass of tracer in each grid box ! Si 1rst order moment in i direction ! REAL :: SM(iip1,jjp1,llm) & ,S0(iip1,jjp1,llm,ntra) REAL :: sx(iip1,jjp1,llm,ntra) & ,sy(iip1,jjp1,llm,ntra) & ,sz(iip1,jjp1,llm,ntra) ! Local : ! ------- ! mass fluxes across the boundaries (UGRI,VGRI,WGRI) ! mass fluxes in kg ! declaration : REAL :: WGRI(iip1,jjp1,0:llm) ! ! the moments F are used as temporary storage for ! portions of grid boxes in transit at the current latitude ! REAL :: FM(iim,llm) REAL :: F0(iim,llm,ntra),FX(iim,llm,ntra) REAL :: FY(iim,llm,ntra),FZ(iim,llm,ntra) ! ! work arrays ! REAL :: ALF(iim),ALF1(iim),ALFQ(iim),ALF1Q(iim) REAL :: TEMPTM ! Just temporal variable REAL :: sqi,sqf ! LOGICAL :: LIMIT INTEGER :: lon,lat,niv INTEGER :: i,j,jv,k,l,lp lon = iim lat = jjp1 niv = llm ! *** Test de passage d'arguments ****** ! DO 399 l = 1, llm ! DO 399 j = 1, jjp1 ! DO 399 i = 1, iip1 ! IF (S0(i,j,l,ntra) .lt. 0. ) THEN ! PRINT*,'S0(',i,j,l,')=',S0(i,j,l,ntra) ! PRINT*, 'sx(',i,j,l,')=',sx(i,j,l,ntra) ! PRINT*, 'sy(',i,j,l,')=',sy(i,j,l,ntra) ! PRINT*, 'sz(',i,j,l,')=',sz(i,j,l,ntra) ! PRINT*, 'AIE !! debut ADVZ - pbl arg. passage dans ADVZ' ! STOP ! ENDIF 399 CONTINUE !----------------------------------------------------------------- ! *** Test : diag de la qqtite totale de traceur ! dans l'atmosphere avant l'advection en z sqi = 0. sqf = 0. DO l = 1,llm DO j = 1,jjp1 DO i = 1,iim !IM 240305 sqi = sqi + S0(i,j,l,9) sqi = sqi + S0(i,j,l,ntra) ENDDO ENDDO ENDDO PRINT*,'-------- DIAG DANS ADVZ - ENTREE ---------' PRINT*,'sqi=',sqi !----------------------------------------------------------------- ! Interface : adaptation nouveau modele ! ------------------------------------- ! ! Conversion du flux de masse en kg.s-1 DO l = 1,llm DO j = 1,jjp1 DO i = 1,iip1 ! wgri (i,j,llm+1-l) = w (i,j,l) / g wgri (i,j,llm+1-l) = w (i,j,l) ! wgri (i,j,0) = 0. ! a detruire ult. ! wgri (i,j,l) = 0.1 ! w (i,j,l) ! wgri (i,j,llm) = 0. ! a detruire ult. END DO END DO END DO DO j = 1,jjp1 DO i = 1,iip1 wgri(i,j,0)=0. enddo enddo !----------------------------------------------------------------- ! start here ! boucle sur les latitudes ! DO K=1,LAT ! ! place limits on appropriate moments before transport ! (if flux-limiting is to be applied) ! IF(.NOT.LIMIT) GO TO 101 ! DO JV=1,NTRA DO L=1,NIV DO I=1,LON sz(I,K,L,JV)=SIGN(AMIN1(AMAX1(S0(I,K,L,JV),0.), & ABS(sz(I,K,L,JV))),sz(I,K,L,JV)) END DO END DO END DO ! 101 CONTINUE ! ! boucle sur les niveaux intercouches de 1 a NIV-1 ! (flux nul au sommet L=0 et a la base L=NIV) ! ! calculate flux and moments between adjacent boxes ! (flux from LP to L if WGRI(L).lt.0, from L to LP if WGRI(L).gt.0) ! 1- create temporary moments/masses for partial boxes in transit ! 2- reajusts moments remaining in the box ! DO L=1,NIV-1 LP=L+1 ! DO I=1,LON ! IF(WGRI(I,K,L)<0.) THEN FM(I,L)=-WGRI(I,K,L)*DTZ ALF(I)=FM(I,L)/SM(I,K,LP) SM(I,K,LP)=SM(I,K,LP)-FM(I,L) ELSE FM(I,L)=WGRI(I,K,L)*DTZ ALF(I)=FM(I,L)/SM(I,K,L) SM(I,K,L)=SM(I,K,L)-FM(I,L) ENDIF ! ALFQ (I)=ALF(I)*ALF(I) ALF1 (I)=1.-ALF(I) ALF1Q(I)=ALF1(I)*ALF1(I) ! END DO ! DO JV=1,NTRA DO I=1,LON ! IF(WGRI(I,K,L)<0.) THEN ! F0(I,L,JV)=ALF (I)*( S0(I,K,LP,JV)-ALF1(I)*sz(I,K,LP,JV) ) FZ(I,L,JV)=ALFQ(I)*sz(I,K,LP,JV) FX(I,L,JV)=ALF (I)*sx(I,K,LP,JV) FY(I,L,JV)=ALF (I)*sy(I,K,LP,JV) ! S0(I,K,LP,JV)=S0(I,K,LP,JV)-F0(I,L,JV) sz(I,K,LP,JV)=ALF1Q(I)*sz(I,K,LP,JV) sx(I,K,LP,JV)=sx(I,K,LP,JV)-FX(I,L,JV) sy(I,K,LP,JV)=sy(I,K,LP,JV)-FY(I,L,JV) ! ELSE ! F0(I,L,JV)=ALF (I)*(S0(I,K,L,JV)+ALF1(I)*sz(I,K,L,JV) ) FZ(I,L,JV)=ALFQ(I)*sz(I,K,L,JV) FX(I,L,JV)=ALF (I)*sx(I,K,L,JV) FY(I,L,JV)=ALF (I)*sy(I,K,L,JV) ! S0(I,K,L,JV)=S0(I,K,L,JV)-F0(I,L,JV) sz(I,K,L,JV)=ALF1Q(I)*sz(I,K,L,JV) sx(I,K,L,JV)=sx(I,K,L,JV)-FX(I,L,JV) sy(I,K,L,JV)=sy(I,K,L,JV)-FY(I,L,JV) ! ENDIF ! END DO END DO ! END DO ! ! puts the temporary moments Fi into appropriate neighboring boxes ! DO L=1,NIV-1 LP=L+1 ! DO I=1,LON ! IF(WGRI(I,K,L)<0.) THEN SM(I,K,L)=SM(I,K,L)+FM(I,L) ALF(I)=FM(I,L)/SM(I,K,L) ELSE SM(I,K,LP)=SM(I,K,LP)+FM(I,L) ALF(I)=FM(I,L)/SM(I,K,LP) ENDIF ! ALF1(I)=1.-ALF(I) ALFQ(I)=ALF(I)*ALF(I) ALF1Q(I)=ALF1(I)*ALF1(I) ! END DO ! DO JV=1,NTRA DO I=1,LON ! IF(WGRI(I,K,L)<0.) THEN ! TEMPTM=-ALF(I)*S0(I,K,L,JV)+ALF1(I)*F0(I,L,JV) S0(I,K,L,JV)=S0(I,K,L,JV)+F0(I,L,JV) sz(I,K,L,JV)=ALF(I)*FZ(I,L,JV)+ALF1(I)*sz(I,K,L,JV)+3.*TEMPTM sx(I,K,L,JV)=sx(I,K,L,JV)+FX(I,L,JV) sy(I,K,L,JV)=sy(I,K,L,JV)+FY(I,L,JV) ! ELSE ! TEMPTM=ALF(I)*S0(I,K,LP,JV)-ALF1(I)*F0(I,L,JV) S0(I,K,LP,JV)=S0(I,K,LP,JV)+F0(I,L,JV) sz(I,K,LP,JV)=ALF(I)*FZ(I,L,JV)+ALF1(I)*sz(I,K,LP,JV) & +3.*TEMPTM sx(I,K,LP,JV)=sx(I,K,LP,JV)+FX(I,L,JV) sy(I,K,LP,JV)=sy(I,K,LP,JV)+FY(I,L,JV) ! ENDIF ! END DO END DO ! END DO ! ! fin de la boucle principale sur les latitudes ! END DO ! !------------------------------------------------------------- ! ! ----------- AA Test en fin de ADVX ------ Controle des S* ! DO 9999 l = 1, llm ! DO 9999 j = 1, jjp1 ! DO 9999 i = 1, iip1 ! IF (S0(i,j,l,ntra).lt.0..and.LIMIT) THEN ! PRINT*, '-------------------' ! PRINT*, 'En fin de ADVZ' ! PRINT*,'S0(',i,j,l,')=',S0(i,j,l,ntra) ! PRINT*, 'sx(',i,j,l,')=',sx(i,j,l,ntra) ! PRINT*, 'sy(',i,j,l,')=',sy(i,j,l,ntra) ! PRINT*, 'sz(',i,j,l,')=',sz(i,j,l,ntra) ! WRITE (*,*) 'On arrete !! - pbl en fin de ADVZ1' ! STOP ! ENDIF 9999 CONTINUE ! *** ------------------- bouclage cyclique en X ------------ ! DO l = 1,llm ! DO j = 1,jjp1 ! SM(iip1,j,l) = SM(1,j,l) ! S0(iip1,j,l,ntra) = S0(1,j,l,ntra) ! sx(iip1,j,l,ntra) = sx(1,j,l,ntra) ! sy(iip1,j,l,ntra) = sy(1,j,l,ntra) ! sz(iip1,j,l,ntra) = sz(1,j,l,ntra) ! ENDDO ! ENDDO !------------------------------------------------------------- ! *** Test : diag de la qqtite totale de traceur ! dans l'atmosphere avant l'advection en z DO l = 1,llm DO j = 1,jjp1 DO i = 1,iim !IM 240305 sqf = sqf + S0(i,j,l,9) sqf = sqf + S0(i,j,l,ntra) ENDDO ENDDO ENDDO PRINT*,'-------- DIAG DANS ADVZ - SORTIE ---------' PRINT*,'sqf=', sqf !------------------------------------------------------------- RETURN END SUBROUTINE advz !_______________________________________________________________ !_______________________________________________________________