/[MITgcm]/MITgcm/model/src/external_forcing.F

Diff of /MITgcm/model/src/external_forcing.F

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-revision 1.14 by heimbach,
Sun Mar 24 02:18:36 2002 UTC
+revision 1.26 by jmc,
Sun Jul 18 01:04:23 2004 UTC
 Line 1
  C $Header$
  C $Name$
+ #include "PACKAGES_CONFIG.h"
  #include "CPP_OPTIONS.h"
+ #ifdef ALLOW_OBCS
+ # include "OBCS_OPTIONS.h"
+ #endif
  CBOP
  C     !ROUTINE: EXTERNAL_FORCING_U
-Line 44 
 C     !LOCAL VARIABLES:
+Line 48 
 C     !LOCAL VARIABLES:
  C     == Local variables ==
  C     Loop counters
        INTEGER I, J
+ C     number of surface interface layer
+       INTEGER kSurface
  CEOP
+       if ( buoyancyRelation .eq. 'ATMOSPHERIC' ) then
+        kSurface = 0
+       elseif ( buoyancyRelation .eq. 'OCEANICP' ) then
+        kSurface = Nr
+       else
+        kSurface = 1
+       endif
  C--   Forcing term
+ #ifdef ALLOW_AIM
+       IF ( useAIM ) CALL AIM_TENDENCY_APPLY_U(
+      &                      iMin,iMax, jMin,jMax, bi,bj, kLev,
+      &                      myCurrentTime, myThid )
+ #endif /* ALLOW_AIM */
+ C AMM
+ #ifdef ALLOW_FIZHI
+       IF ( useFIZHI ) CALL FIZHI_TENDENCY_APPLY_U(
+      &                      iMin,iMax, jMin,jMax, bi,bj, kLev,
+      &                      myCurrentTime, myThid )
+ #endif /* ALLOW_FIZHI */
+ C AMM
  C     Add windstress momentum impulse into the top-layer
-       IF ( kLev .EQ. 1 ) THEN
+       IF ( kLev .EQ. kSurface ) THEN
         DO j=jMin,jMax
          DO i=iMin,iMax
           gU(i,j,kLev,bi,bj) = gU(i,j,kLev,bi,bj)
-      &   +foFacMom*surfaceTendencyU(i,j,bi,bj)
+      &   +foFacMom*surfaceForcingU(i,j,bi,bj)
-      &   *_maskW(i,j,kLev,bi,bj)
+      &   *recip_drF(kLev)*recip_hFacW(i,j,kLev,bi,bj)
          ENDDO
         ENDDO
        ENDIF
- #ifdef ALLOW_OBCS
+ #if (defined (ALLOW_OBCS) && defined (ALLOW_OBCS_SPONGE))
        IF (useOBCS) THEN
         CALL OBCS_SPONGE_U(
       I           iMin, iMax, jMin, jMax,bi,bj,kLev,
-Line 109 
 C     !LOCAL VARIABLES:
+Line 136 
 C     !LOCAL VARIABLES:
  C     == Local variables ==
  C     Loop counters
        INTEGER I, J
+ C     number of surface interface layer
+       INTEGER kSurface
  CEOP
+       if ( buoyancyRelation .eq. 'ATMOSPHERIC' ) then
+        kSurface = 0
+       elseif ( buoyancyRelation .eq. 'OCEANICP' ) then
+        kSurface = Nr
+       else
+        kSurface = 1
+       endif
  C--   Forcing term
+ #ifdef ALLOW_AIM
+       IF ( useAIM ) CALL AIM_TENDENCY_APPLY_V(
+      &                      iMin,iMax, jMin,jMax, bi,bj, kLev,
+      &                      myCurrentTime, myThid )
+ #endif /* ALLOW_AIM */
+ C AMM
+ #ifdef ALLOW_FIZHI
+       IF ( useFIZHI ) CALL FIZHI_TENDENCY_APPLY_V(
+      &                      iMin,iMax, jMin,jMax, bi,bj, kLev,
+      &                      myCurrentTime, myThid )
+ #endif /* ALLOW_FIZHI */
+ C AMM
  C     Add windstress momentum impulse into the top-layer
-       IF ( kLev .EQ. 1 ) THEN
+       IF ( kLev .EQ. kSurface ) THEN
         DO j=jMin,jMax
          DO i=iMin,iMax
           gV(i,j,kLev,bi,bj) = gV(i,j,kLev,bi,bj)
-      &   +foFacMom*surfaceTendencyV(i,j,bi,bj)
+      &   +foFacMom*surfaceForcingV(i,j,bi,bj)
-      &   *_maskS(i,j,kLev,bi,bj)
+      &   *recip_drF(kLev)*recip_hFacS(i,j,kLev,bi,bj)
          ENDDO
         ENDDO
        ENDIF
- #ifdef ALLOW_OBCS
+ #if (defined (ALLOW_OBCS) && defined (ALLOW_OBCS_SPONGE))
        IF (useOBCS) THEN
         CALL OBCS_SPONGE_V(
       I           iMin, iMax, jMin, jMax,bi,bj,kLev,
-Line 158 
 C     == Global data ==
+Line 208 
 C     == Global data ==
  #include "GRID.h"
  #include "DYNVARS.h"
  #include "FFIELDS.h"
- #ifdef SHORTWAVE_HEATING
-       integer two
-       _RL minusone
-       parameter (two=2,minusone=-1.)
-       _RL swfracb(two)
- #endif
  C     !INPUT/OUTPUT PARAMETERS:
  C     == Routine arguments ==
-Line 181 
 C     !LOCAL VARIABLES:
+Line 225 
 C     !LOCAL VARIABLES:
  C     == Local variables ==
  C     Loop counters
        INTEGER I, J
+ C     number of surface interface layer
+       INTEGER kSurface
+ #ifdef SHORTWAVE_HEATING
+       integer two
+       _RL minusone
+       parameter (two=2,minusone=-1.)
+       _RL swfracb(two)
+       INTEGER kp1
+ #endif
  CEOP
+       if ( buoyancyRelation .eq. 'ATMOSPHERIC' ) then
+        kSurface = 0
+       elseif ( buoyancyRelation .eq. 'OCEANICP' ) then
+        kSurface = Nr
+       else
+        kSurface = 1
+       endif
  C--   Forcing term
+ #ifdef ALLOW_AIM
+       IF ( useAIM ) CALL AIM_TENDENCY_APPLY_T(
+      &                      iMin,iMax, jMin,jMax, bi,bj, kLev,
+      &                      myCurrentTime, myThid )
+ #endif /* ALLOW_AIM */
+ C AMM
+ #ifdef ALLOW_FIZHI
+       IF ( useFIZHI ) CALL FIZHI_TENDENCY_APPLY_T(
+      &                      iMin,iMax, jMin,jMax, bi,bj, kLev,
+      &                      myCurrentTime, myThid )
+ #endif /* ALLOW_FIZHI */
+ C AMM
  C     Add heat in top-layer
-       IF ( kLev .EQ. 1 ) THEN
+       IF ( kLev .EQ. kSurface ) THEN
         DO j=jMin,jMax
          DO i=iMin,iMax
           gT(i,j,kLev,bi,bj)=gT(i,j,kLev,bi,bj)
-      &     +maskC(i,j,kLev,bi,bj)*surfaceTendencyT(i,j,bi,bj)
+      &     +surfaceForcingT(i,j,bi,bj)
+      &     *recip_drF(kLev)*recip_hFacC(i,j,kLev,bi,bj)
          ENDDO
         ENDDO
        ENDIF
  #ifdef SHORTWAVE_HEATING
  C Penetrating SW radiation
+       kp1 = klev+1
        swfracb(1)=abs(rF(klev))
        swfracb(2)=abs(rF(klev+1))
-       call SWFRAC(
+       CALL SWFRAC(
       I     two,minusone,
       I     myCurrentTime,myThid,
-      O     swfracb)
+      U     swfracb)
+       IF (klev.EQ.Nr) THEN
+         kp1 = klev
+         swfracb(2)=0. _d 0
+       ENDIF
        DO j=jMin,jMax
         DO i=iMin,iMax
          gT(i,j,klev,bi,bj) = gT(i,j,klev,bi,bj)
-      &   -maskC(i,j,klev,bi,bj)*Qsw(i,j,bi,bj)*(swfracb(1)-swfracb(2))
+      &   -Qsw(i,j,bi,bj)*(swfracb(1)*maskC(i,j,klev,bi,bj)
-      &    *recip_Cp*recip_rhoNil*recip_drF(klev)
+      &                   -swfracb(2)*maskC(i,j,kp1, bi,bj))
+      &    *recip_Cp*recip_rhoConst*recip_drF(klev)
+ c    &                            *recip_hFacC(i,j,kLev,bi,bj)
         ENDDO
        ENDDO
  #endif
- #ifdef ALLOW_OBCS
+ #if (defined (ALLOW_OBCS) && defined (ALLOW_OBCS_SPONGE))
        IF (useOBCS) THEN
         CALL OBCS_SPONGE_T(
       I           iMin, iMax, jMin, jMax,bi,bj,kLev,
-Line 263 
 C     !LOCAL VARIABLES:
+Line 346 
 C     !LOCAL VARIABLES:
  C     == Local variables ==
  C     Loop counters
        INTEGER I, J
+ C     number of surface interface layer
+       INTEGER kSurface
  CEOP
+       if ( buoyancyRelation .eq. 'ATMOSPHERIC' ) then
+        kSurface = 0
+       elseif ( buoyancyRelation .eq. 'OCEANICP' ) then
+        kSurface = Nr
+       else
+        kSurface = 1
+       endif
  C--   Forcing term
+ #ifdef ALLOW_AIM
+       IF ( useAIM ) CALL AIM_TENDENCY_APPLY_S(
+      &                      iMin,iMax, jMin,jMax, bi,bj, kLev,
+      &                      myCurrentTime, myThid )
+ #endif /* ALLOW_AIM */
+ C AMM
+ #ifdef ALLOW_FIZHI
+       IF ( useFIZHI ) CALL FIZHI_TENDENCY_APPLY_S(
+      &                      iMin,iMax, jMin,jMax, bi,bj, kLev,
+      &                      myCurrentTime, myThid )
+ #endif /* ALLOW_FIZHI */
+ C AMM
  C     Add fresh-water in top-layer
-       IF ( kLev .EQ. 1 ) THEN
+       IF ( kLev .EQ. kSurface ) THEN
         DO j=jMin,jMax
          DO i=iMin,iMax
           gS(i,j,kLev,bi,bj)=gS(i,j,kLev,bi,bj)
-      &   +maskC(i,j,kLev,bi,bj)*surfaceTendencyS(i,j,bi,bj)
+      &     +surfaceForcingS(i,j,bi,bj)
+      &     *recip_drF(kLev)*recip_hFacC(i,j,kLev,bi,bj)
          ENDDO
         ENDDO
        ENDIF
- #ifdef ALLOW_OBCS
+ #if (defined (ALLOW_OBCS) && defined (ALLOW_OBCS_SPONGE))
        IF (useOBCS) THEN
         CALL OBCS_SPONGE_S(
       I           iMin, iMax, jMin, jMax,bi,bj,kLev,

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