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aro_turb_mnh.F90 18.5 KiB
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!     ######spl
      SUBROUTINE  ARO_TURB_MNH( KKA,KKU,KKL,KLON,KLEV,KRR,KRRL,KRRI,KSV, &
                KTCOUNT, KGRADIENTS, LDHARATU, PTSTEP,                  &
                PZZ, PZZF, PZZTOP,                                    &
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                PRHODJ, PTHVREF,PRHODREF,HINST_SFU,HMF_UPDRAFT,&
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                PSFTH,PSFRV,PSFSV,PSFU,PSFV,                          &
                PPABSM,PUM,PVM,PWM,PTKEM,PEPSM,PSVM,PSRCM,            &
                PTHM,PRM,                                &
                PRUS,PRVS,PRWS,PRTHS,PRRS,PRSVSIN,PRSVS,PRTKES,PRTKES_OUT,PREPSS, &
                ZHGRAD,PSIGS,OSUBG_COND,                                     &
                PFLXZTHVMF,PLENGTHM,PLENGTHH,MFMOIST,                 &
                PDRUS_TURB,PDRVS_TURB,                                &
                PDRTHLS_TURB,PDRRTS_TURB,PDRSVS_TURB,                 &
                PDP,PTP,PTPMF,PTDIFF,PTDISS,PEDR,YDDDH,YDLDDH,YDMDDH)


      USE PARKIND1, ONLY : JPRB
      USE YOMHOOK , ONLY : LHOOK, DR_HOOK
!     ##########################################################################
!
!!****  * -  compute the turbulence sources and the TKE evolution for Arome
!!
!!
!!
!!    PURPOSE
!!    -------
!!      The purpose of this routine is to compute the turbulence sources
!!      and the TKE evolution for the Arome model
!!
!!
!!**  METHOD
!!    ------
!!      This routine calls the mesoNH turbulence scheme
!!      in its 1DIM configutation.
!!
!!
!!    EXTERNAL
!!    --------
!!      Subroutine TURB (routine de MesoNH)
!!
!!    IMPLICIT ARGUMENTS
!!    ------------------
!!      Module MODD_PARAMETERS : contains declarations of parameter variables
!!         JPHEXT       : Horizontal external points number
!!         JPVEXT_TURB       : Vertical external points number
!!      Module MODD_CST
!!          XP00               ! Reference pressure
!!          XRD                ! Gaz  constant for dry air
!!          XCPD               ! Cpd (dry air)
!!
!!    REFERENCE
!!    ---------
!!
!!      Documentation AROME
!!
!!    AUTHOR
!!    ------
!!    S.Malardel and Y.Seity
!!
!!    MODIFICATIONS
!!    -------------
!!      Original    10/03/03
!!      2012-02 Y. Seity,  add possibility to run with reversed vertical levels
!!      2015-07 Wim de Rooy  possibility to run with LHARATU=TRUE (Racmo turbulence scheme)
!!
!-------------------------------------------------------------------------------
!
!*       0.    DECLARATIONS
!              ------------
!
USE MODD_CONF
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USE MODD_CST, ONLY:CST
USE MODD_CTURB, ONLY:CSTURB
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USE MODD_PARAMETERS
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USE MODD_IO, ONLY: TFILEDATA
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USE MODD_BUDGET, ONLY: NBUDGET_RI, TBUDGETDATA, TBUCONF
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!
USE MODI_TURB
!
USE DDH_MIX, ONLY  : TYP_DDH
USE YOMLDDH, ONLY  : TLDDH
USE YOMMDDH, ONLY  : TMDDH

!
IMPLICIT NONE
!
!*       0.1   Declarations of dummy arguments :
!
!
!
INTEGER,                  INTENT(IN)   :: KLON  !KFDIA under CPG
INTEGER,                  INTENT(IN)   :: KLEV  !Number of vertical levels
INTEGER,                  INTENT(IN)   :: KKA   !Index of point near ground
INTEGER,                  INTENT(IN)   :: KKU   !Index of point near top
INTEGER,                  INTENT(IN)   :: KKL   !vert. levels type 1=MNH -1=ARO
INTEGER,                  INTENT(IN)   :: KRR      ! Number of moist variables
INTEGER,                  INTENT(IN)   :: KRRL      ! Number of liquide water variables
INTEGER,                  INTENT(IN)   :: KRRI      ! Number of ice variables
INTEGER,                  INTENT(IN)   :: KSV     ! Number of passive scalar
INTEGER,                  INTENT(IN)   :: KTCOUNT  ! Temporal loop counter
INTEGER,                  INTENT(IN)   :: KGRADIENTS  ! Number of stored horizontal gradients
LOGICAL,                  INTENT(IN)   :: LDHARATU ! HARATU scheme active

CHARACTER (LEN=4), INTENT(IN)     :: HMF_UPDRAFT   ! Type of mass flux scheme
REAL,                     INTENT(IN)   :: PTSTEP   ! Time step
!
!
REAL, DIMENSION(KLON,1,KLEV),   INTENT(IN)   :: PZZ     ! Height of layer boundaries
REAL, DIMENSION(KLON,1,KLEV),   INTENT(IN)   :: PZZF    ! Height of level
REAL, DIMENSION(KLON),          INTENT(IN)   :: PZZTOP  ! Height of highest level

REAL, DIMENSION(KLON,1,KLEV+2),   INTENT(INOUT)   :: PRHODJ  !Dry density * Jacobian
! MFMOIST used in case LHARATU=TRUE
REAL, DIMENSION(KLON,1,KLEV+2),   INTENT(INOUT)   :: MFMOIST  !Moist mass flux from Dual scheme
REAL, DIMENSION(KLON,1,KLEV+2), INTENT(INOUT)     ::  PTHVREF   ! Virtual Potential
                                        ! Temperature of the reference state
REAL, DIMENSION(KLON,1,KLEV+2), INTENT(INOUT)     ::  PRHODREF  ! dry density of the
                                        ! reference state
CHARACTER(LEN=1)           , INTENT(IN)   ::  HINST_SFU    ! temporal location of the
                                                      ! surface friction flux
!
REAL, DIMENSION(KLON,1),   INTENT(INOUT)      ::  PSFTH,PSFRV
! normal surface fluxes of theta and Rv
REAL, DIMENSION(KLON,1),   INTENT(INOUT)      ::   PSFU,PSFV
! normal surface fluxes of (u,v) parallel to the orography
REAL, DIMENSION(KLON,1,KSV), INTENT(INOUT)      ::  PSFSV
! normal surface fluxes of Scalar var.
!
!    prognostic variables at t- deltat
REAL, DIMENSION(KLON,1,KLEV+2),   INTENT(INOUT) ::  PPABSM      ! Pressure at time t-1
REAL, DIMENSION(KLON,1,KLEV+2),   INTENT(INOUT) ::  PUM,PVM,PWM ! wind components
REAL, DIMENSION(KLON,1,KLEV+2),   INTENT(INOUT) ::  PTKEM       ! TKE
REAL, DIMENSION(0,0,0),   INTENT(INOUT) ::  PEPSM       ! dissipation of TKE
REAL, DIMENSION(KLON,1,KLEV,KSV), INTENT(INOUT) ::  PSVM        ! passive scal. var.
REAL, DIMENSION(KLON,1,KLEV+2),   INTENT(INOUT) ::  PSRCM       ! Second-order flux
                      ! s'rc'/2Sigma_s2 at time t-1 multiplied by Lambda_3
!
! PLENGTHM, PLENGTH used in case LHARATU=true
REAL, DIMENSION(KLON,1,KLEV+2), INTENT(INOUT)   :: PLENGTHM, PLENGTHH  ! length scales vdfexcu

!
!   thermodynamical variables which are transformed in conservative var.
REAL, DIMENSION(KLON,1,KLEV+2),   INTENT(INOUT) ::  PTHM       ! pot. temp.
REAL, DIMENSION(KLON,1,KLEV,KRR), INTENT(INOUT) ::  PRM         ! mixing ratio
!
! sources of momentum, conservative potential temperature, Turb. Kin. Energy,
! TKE dissipation
REAL, DIMENSION(KLON,1,KLEV+2),   INTENT(INOUT) ::  PRUS,PRVS,PRWS
REAL, DIMENSION(KLON,1,KLEV+2),   INTENT(INOUT) :: PRTHS
REAL, DIMENSION(KLON,1,KLEV),     INTENT(IN)  ::  PRTKES
REAL, DIMENSION(KLON,1,KLEV+2),   INTENT(OUT) ::  PRTKES_OUT
REAL, DIMENSION(0,0,0)        , INTENT(INOUT) ::PREPSS
! Source terms for all water kinds, PRRS(:,:,:,1) is used for the conservative
! mixing ratio
REAL, DIMENSION(KLON,1,KLEV,KRR), INTENT(INOUT) ::  PRRS
! Source terms for all passive scalar variables
REAL, DIMENSION(KLON,1,KLEV,KSV), INTENT(IN)  ::  PRSVSIN
REAL, DIMENSION(KLON,1,KLEV,KSV), INTENT(OUT) ::  PRSVS
! Sigma_s at time t+1 : square root of the variance of the deviation to the
! saturation
REAL, DIMENSION(KLON,1,KLEV+2), INTENT(OUT)     ::  PSIGS
REAL, DIMENSION(KLON,1,KLEV+2), INTENT(OUT)     ::  PDRUS_TURB   ! evolution of rhoJ*U   by turbulence only
REAL, DIMENSION(KLON,1,KLEV+2), INTENT(OUT)     ::  PDRVS_TURB   ! evolution of rhoJ*V   by turbulence only
REAL, DIMENSION(KLON,1,KLEV+2), INTENT(OUT)     ::  PDRTHLS_TURB ! evolution of rhoJ*thl by turbulence only
REAL, DIMENSION(KLON,1,KLEV+2), INTENT(OUT)     ::  PDRRTS_TURB  ! evolution of rhoJ*rt  by turbulence only
REAL, DIMENSION(KLON,1,KLEV,KSV), INTENT(OUT)   ::  PDRSVS_TURB  ! evolution of rhoJ*Sv  by turbulence only
REAL, DIMENSION(KLON,1,KLEV+2), INTENT(INOUT)      ::  PFLXZTHVMF
REAL, DIMENSION(KLON,1,KLEV+2),   INTENT(OUT) ::  PEDR       ! EDR
!
LOGICAL , INTENT(IN)                            ::  OSUBG_COND   ! switch
!                                                !for SUBGrid CONDensation
REAL, DIMENSION(KLON,1,KLEV+2),  INTENT(OUT)   :: PDP, PTP, PTPMF, PTDIFF, PTDISS
!                                                !for TKE DDH budgets
!
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TYPE(TYP_DDH), INTENT(INOUT), TARGET   :: YDDDH
TYPE(TLDDH),   INTENT(IN), TARGET      :: YDLDDH
TYPE(TMDDH),   INTENT(IN), TARGET      :: YDMDDH
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!
!
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TYPE(TBUDGETDATA), DIMENSION(NBUDGET_RI) :: YLBUDGET !NBUDGET_RI is the one with the highest number needed for turb
TYPE(TFILEDATA) :: ZTFILE !I/O for MesoNH
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!*       0.2   Declarations of local variables :
!
INTEGER :: JRR,JSV       ! Loop index for the moist and scalar variables
INTEGER :: IIB           !  Define the physical domain
INTEGER :: IIE           !
INTEGER :: IJB           !
INTEGER :: IJE           !
INTEGER :: IKB           !
INTEGER :: IKE           !
INTEGER :: IKTB          !
INTEGER :: IKTE          !
INTEGER :: IKT           !
INTEGER :: JL, JK, JLON
!
INTEGER ::II
!
!
INTEGER       :: IMI           ! model index number

CHARACTER(LEN=4),DIMENSION(2)  :: HLBCX, HLBCY  ! X- and Y-direc LBC
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CHARACTER (LEN=4) ::  HCLOUD        ! Type of microphysical scheme
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INTEGER       :: ISPLIT        ! number of time-splitting

LOGICAL       ::  OTURB_FLX    ! switch to write the
                               ! turbulent fluxes in the syncronous FM-file
LOGICAL       ::  OTURB_DIAG   ! switch to write some
                               ! diagnostic fields in the syncronous FM-file
LOGICAL       ::  ORMC01       ! switch for RMC01 lengths in SBL
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LOGICAL       ::  OOCEAN       ! switch for OCEAN version of turbulence scheme
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CHARACTER(LEN=4)   ::  HTURBDIM     ! dimensionality of the
                               ! turbulence scheme
CHARACTER(LEN=4)   ::  HTURBLEN     ! kind of mixing length
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CHARACTER(LEN=6)   ::  HPROGRAM     ! Program (AROME or MESONH prog)
LOGICAL   :: OFLAT        ! Logical for zero ororography
LOGICAL   :: ONOMIXLG          ! to use turbulence for lagrangian variables (modd_conf)
LOGICAL   :: O2D               ! Logical for 2D model version (modd_conf)
INTEGER   :: KSV_LGBEG, KSV_LGEND ! number of scalar variables
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REAL          ::  ZIMPL        ! degree of implicitness
!
REAL, DIMENSION(KLON,1,KLEV+2)   :: ZDXX,ZDYY,ZDZZ,ZDZX,ZDZY
                                        ! metric coefficients
REAL, POINTER ::  ZDIRCOSXW(:,:), ZDIRCOSYW(:,:), ZDIRCOSZW(:,:)
! Director Cosinus along x, y and z directions at surface w-point
REAL, POINTER    ::  ZCOSSLOPE(:,:)   ! cosinus of the anglebetween i and the slope vector
REAL, POINTER    ::  ZSINSLOPE(:,:)   ! sinus of the angle between i and the slope vector

REAL,DIMENSION(KLON,1,KLEV+2)         :: ZCEI
REAL                                  :: ZCEI_MIN,ZCEI_MAX,ZCOEF_AMPL_SAT
REAL, DIMENSION(KLON,1)               :: ZBL_DEPTH, ZSBL_DEPTH
REAL,DIMENSION(KLON,1,KLEV+2)         :: ZWTH       ! heat flux
REAL,DIMENSION(KLON,1,KLEV+2)         :: ZWRC       ! cloud water flux
REAL,DIMENSION(KLON,1,KLEV+2,KSV)     :: ZWSV,ZSVM,ZRSVS,ZDRSVS_TURB       ! scalar flux
REAL,DIMENSION(KLON,1,KLEV+2)         :: ZZZ        ! Local value of PZZ
REAL,DIMENSION(KLON,1,KLEV+2,KRR)     :: ZRM,ZRRS
REAL,DIMENSION(KLON,1,KLEV+2,KGRADIENTS) :: ZHGRAD    ! Horizontal Gradients
!
REAL, DIMENSION(KLON,1), TARGET     ::  ZERO, ZONE
!
CHARACTER(LEN=4)   ::  CL
!------------------------------------------------------------------------------
!
!*       1.     PRELIMINARY COMPUTATIONS
!               ------------------------
!
REAL(KIND=JPRB) :: ZHOOK_HANDLE
IF (LHOOK) CALL DR_HOOK('ARO_TURB_MNH',0,ZHOOK_HANDLE)
IIB=1+JPHEXT
IIE=SIZE(PZZ,1) - JPHEXT
IJB=1+JPHEXT
IJE=SIZE(PZZ,2) - JPHEXT
IKTB=1+JPVEXT_TURB
IKT=SIZE(PZZ,3)+2*JPVEXT_TURB
IKTE=IKT - JPVEXT_TURB
IKB=KKA+JPVEXT_TURB*KKL
IKE=KKU-JPVEXT_TURB*KKL

!
!
!------------------------------------------------------------------------------
!
!*       2.   INITIALISATION (CAS DU MODELE 1D)
!
!             ---------------------------------
! Numero du modele si grid nestind, toujours egal a 1
IMI=1
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! Fichier I/O pour MesoNH (non-utilise dans AROME)
ZTFILE%LOPENED=.FALSE.
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! Type de condition � la limite. En 1D, sans importance. A etudier en 3D.
HLBCX(:)='CYCL'
HLBCY(:)='CYCL'

! en dur a 1 dans MNH
ISPLIT=1

! pour ecriture et diagnostic dans mesoNH, � priori les switches toujours � .F.
OTURB_FLX=.FALSE.
OTURB_DIAG=.FALSE.

! a mettre en namelist
ORMC01=.FALSE.

HTURBDIM='1DIM'
HTURBLEN='BL89'
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ZIMPL=1.
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!Version Ocean du schema de turbulence
OOCEAN=.FALSE.
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HPROGRAM='AROME '

! no orography for mesonh
OFLAT=.FALSE.
! 2D version of turbulence
O2D=.FALSE.
! Lagragian diag for mesonh
ONOMIXLG=.FALSE.
KSV_LGBEG=0
KSV_LGEND=0
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! tableau a recalculer a chaque pas de temps
! attention, ZDZZ est l'altitude entre deux niveaux (et pas l'�paisseur de la couche)

!WRITE(20,*)'sous aro_turb_mnh PZZF', PZZF(1,1,58:60)
!WRITE(20,*)'sous aro_turb_mnh PZZ', PZZ(1,1,58:60)



ZZZ(IIB:IIE,1,2:KLEV+1)=PZZ(IIB:IIE,1,1:KLEV)
ZZZ(IIB:IIE,1,1) = PZZTOP(IIB:IIE)
ZDZZ(IIB:IIE,1,KLEV+2)=-999.

DO JK = 2 , KLEV
  DO JL = IIB,IIE
    ZDZZ(JL,1,JK)=PZZF(JL,1,JK-1)-PZZF(JL,1,JK)
  ENDDO
ENDDO

DO JL = IIB,IIE
  ZZZ(JL,1,KLEV+2) = 2*PZZ(JL,1,KLEV)-PZZ(JL,1,KLEV-1)
  ZDZZ(JL,1,1)=ZZZ(JL,1,KKU)-ZZZ(JL,1,IKE)
  ZDZZ(JL,1,KLEV+1)=PZZF(JL,1,KLEV)-(1.5*ZZZ(JL,1,KLEV+1)-0.5*ZZZ(JL,1,KLEV))
ENDDO

! tableaux qui devront etre initialis�s plus en amont dans Aladin s'il
! n'existent pas d�ja. Dans le cas du 1D, il n'y a pas de relief,
!  ils ont donc des valeurs triviales.

ZERO(:,:) = 0.
ZONE(:,:) = 1.

ZDIRCOSXW=>ZONE(:,:)
ZDIRCOSYW=>ZONE(:,:)
ZDIRCOSZW=>ZONE(:,:)
ZCOSSLOPE=>ZONE(:,:)
ZSINSLOPE=>ZERO(:,:)

!------------------------------------------------------------------------------
!
!
!*       4.   MULTIPLICATION PAR RHODJ
!             POUR OBTENIR LES TERMES SOURCES DE MESONH
!
!             -----------------------------------------------

!        WRITE (15,*)'PRUS debut AC_TURB_MNH=',PRUS
!        WRITE (15,*)'PRVS debut AC_TURB_MNH=',PRVS
!        WRITE (15,*)'PRWS debut AC_TURB_MNH=',PRWS
!        WRITE (15,*)'PRTHS debut AC_TURB_MNH=',PRTHS
!        WRITE (15,*)'PRRS debut AC_TURB_MNH=',PRRS

DO JK=2,KLEV+1
  DO JL = 1,KLON
    PRUS(JL,1,JK)   = PRUS(JL,1,JK)  *PRHODJ(JL,1,JK)
    PRVS(JL,1,JK)   = PRVS(JL,1,JK)  *PRHODJ(JL,1,JK)
    PRWS(JL,1,JK)   = PRWS(JL,1,JK)  *PRHODJ(JL,1,JK)
    PRTHS(JL,1,JK)  = PRTHS(JL,1,JK) *PRHODJ(JL,1,JK)
    PRTKES_OUT(JL,1,JK) = PRTKES(JL,1,JK-1)*PRHODJ(JL,1,JK)
  ENDDO
ENDDO
DO JRR=1,KRR
  DO JK=2,KLEV+1
    DO JL = 1,KLON
      ZRRS(JL,1,JK,JRR) = PRRS(JL,1,JK-1,JRR)*PRHODJ(JL,1,JK)
    ENDDO
    ZRM(:,1,JK,JRR) = PRM(:,1,JK-1,JRR)
  ENDDO
  ZRRS(:,1,1,JRR     )= ZRRS(:,1,2,JRR)
  ZRRS(:,1,KLEV+2,JRR)= ZRRS(:,1,KLEV+1,JRR)
  ZRM(:,1,1,JRR     )= ZRM(:,1,2,JRR)
  ZRM(:,1,KLEV+2,JRR)= ZRM(:,1,KLEV+1,JRR)
ENDDO
DO JSV=1,KSV
  DO JK=2,KLEV+1
    DO JL = 1,KLON
      ZRSVS(JL,1,JK,JSV) = PRSVSIN(JL,1,JK-1,JSV)*PRHODJ(JL,1,JK)
    ENDDO
    ZSVM(:,1,JK,JSV) = PSVM(:,1,JK-1,JSV)
  ENDDO
  ZRSVS(:,1,1,JSV     )= ZRSVS(:,1,2,JSV)
  ZRSVS(:,1,KLEV+2,JSV)= ZRSVS(:,1,KLEV+1,JSV)
  ZSVM(:,1,1,JSV     )= ZSVM(:,1,2,JSV)
  ZSVM(:,1,KLEV+2,JSV)= ZSVM(:,1,KLEV+1,JSV)
ENDDO

!------------------------------------------------------------------------------
!
!*       3.   Add 2*JPVEXT_TURB values on the vertical
!
!
CALL VERTICAL_EXTEND(PRHODJ)
CALL VERTICAL_EXTEND(PTHVREF)
CALL VERTICAL_EXTEND(PRHODREF)
CALL VERTICAL_EXTEND(PPABSM)
CALL VERTICAL_EXTEND(PUM)
CALL VERTICAL_EXTEND(PVM)
CALL VERTICAL_EXTEND(PWM)
CALL VERTICAL_EXTEND(PTKEM)
PSRCM(:,:,1)=0.
PSRCM(:,:,KLEV+2)=0.
CALL VERTICAL_EXTEND(PTHM)
CALL VERTICAL_EXTEND(PFLXZTHVMF)
IF (LDHARATU) THEN
  CALL VERTICAL_EXTEND(PLENGTHM)
  CALL VERTICAL_EXTEND(PLENGTHH)
ENDIF
CALL VERTICAL_EXTEND(MFMOIST)
CALL VERTICAL_EXTEND(PRUS)
CALL VERTICAL_EXTEND(PRVS)
CALL VERTICAL_EXTEND(PRWS)
CALL VERTICAL_EXTEND(PRTHS)
CALL VERTICAL_EXTEND(PRTKES_OUT)

!------------------------------------------------------------------------------
!
!
!*       5.   APPEL DE LA TURBULENCE MESONH
!
!         ---------------------------------
!pour AROME, on n'utilise pas les modifs de Mireille pour la turb au bord des nuages
ZCEI_MAX=1.0
ZCEI_MIN=0.0
ZCEI=0.0
ZCOEF_AMPL_SAT=0.0
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DO JRR=1, NBUDGET_RI
  YLBUDGET(JRR)%NBUDGET=JRR
  YLBUDGET(JRR)%YDDDH=>YDDDH
  YLBUDGET(JRR)%YDLDDH=>YDLDDH
  YLBUDGET(JRR)%YDMDDH=>YDMDDH
ENDDO
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HCLOUD="ICE3"
CALL TURB (CST,CSTURB,TBUCONF,KLEV+2,1,KKL,IMI, KRR, KRRL, KRRI, HLBCX, HLBCY,&
   & ISPLIT,IMI, KSV, KSV_LGBEG, KSV_LGEND, &
   & HPROGRAM, O2D, ONOMIXLG, OFLAT, &
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   & OTURB_FLX,OTURB_DIAG,OSUBG_COND,ORMC01,OOCEAN,LDHARATU,    &
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   & HTURBDIM,HTURBLEN,'NONE','NONE','LIMA',           &
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   & ZIMPL,                                    &
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   & 2*PTSTEP,ZTFILE,                                      &
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   & ZDXX,ZDYY,ZDZZ,ZDZX,ZDZY,ZZZ,          &
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   & ZDIRCOSXW,ZDIRCOSYW,ZDIRCOSZW,ZCOSSLOPE,ZSINSLOPE,    &
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   & PRHODJ,PTHVREF,                              &
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   & PSFTH,PSFRV,PSFSV,PSFU,PSFV,                          &
   & PPABSM,PUM,PVM,PWM,PTKEM,ZSVM,PSRCM,                  &
   & PLENGTHM,PLENGTHH,MFMOIST,                            &
   & ZBL_DEPTH,ZSBL_DEPTH,                                 &
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Quentin 24/01/2022: Partial merge MNH->COMMON turb.F90 : mixing lengths RM17, ADAP, DEAR, DELT  
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   & ZCEI,ZCEI_MIN,ZCEI_MAX,ZCOEF_AMPL_SAT,    &
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   & PTHM,ZRM, &
   & PRUS,PRVS,PRWS,PRTHS,ZRRS,ZRSVS,PRTKES_OUT,         &
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   & PSIGS,                                         &
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   & PFLXZTHVMF,ZWTH,ZWRC,ZWSV,PDP,PTP,PTDIFF,PTDISS,&
   & YLBUDGET, KBUDGETS=SIZE(YLBUDGET),PEDR=PEDR,PTPMF=PTPMF,&
   & PDRUS_TURB=PDRUS_TURB,PDRVS_TURB=PDRVS_TURB,          &
   & PDRTHLS_TURB=PDRTHLS_TURB,PDRRTS_TURB=PDRRTS_TURB,PDRSVS_TURB=ZDRSVS_TURB)
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!
!
!------------------------------------------------------------------------------
!
!
!*       5.   DIVISION PAR RHODJ DES TERMES SOURCES DE MESONH
!             (on obtient des termes homog�nes � des tendances)
!
!         -----------------------------------------------

DO JK=2,KLEV+1
  DO JL = 1,KLON
    PRUS(JL,1,JK)   = PRUS(JL,1,JK)  /PRHODJ(JL,1,JK)
    PRVS(JL,1,JK)   = PRVS(JL,1,JK)  /PRHODJ(JL,1,JK)
    PRTHS(JL,1,JK)  = PRTHS(JL,1,JK) /PRHODJ(JL,1,JK)
    PRTKES_OUT(JL,1,JK)  = PRTKES_OUT(JL,1,JK) /PRHODJ(JL,1,JK)
    PDRUS_TURB(JL,1,JK)  = PDRUS_TURB(JL,1,JK) /PRHODJ(JL,1,JK)
    PDRVS_TURB(JL,1,JK)  = PDRVS_TURB(JL,1,JK) /PRHODJ(JL,1,JK)
    PDRTHLS_TURB(JL,1,JK)  = PDRTHLS_TURB(JL,1,JK) /PRHODJ(JL,1,JK)
    PDRRTS_TURB(JL,1,JK)  = PDRRTS_TURB(JL,1,JK) /PRHODJ(JL,1,JK)
  ENDDO
ENDDO

DO JRR=1,KRR
  DO JK=2,KLEV+1
    DO JL = 1,KLON
      PRRS(JL,1,JK-1,JRR) = ZRRS(JL,1,JK,JRR)/PRHODJ(JL,1,JK)
    ENDDO
    PRM(:,1,JK-1,JRR) = ZRM(:,1,JK,JRR)
  ENDDO
ENDDO

DO JSV=1,KSV
  DO JK=2,KLEV+1
    DO JL = 1,KLON
      PRSVS(JL,1,JK-1,JSV) = ZRSVS(JL,1,JK,JSV)/PRHODJ(JL,1,JK)
      PDRSVS_TURB(JL,1,JK-1,JSV) = ZDRSVS_TURB(JL,1,JK,JSV)/PRHODJ(JL,1,JK)
    ENDDO
  ENDDO
ENDDO

IF (LHOOK) CALL DR_HOOK('ARO_TURB_MNH',1,ZHOOK_HANDLE)

CONTAINS

SUBROUTINE VERTICAL_EXTEND(PX)

 ! fill extra vetical levels to fit MNH interface

REAL, DIMENSION(KLON,1,KLEV+2),   INTENT(INOUT)   :: PX
! NO DR_HOOK, PLEASE ! Rek
PX(:,1,1     )= PX(:,1,2)
PX(:,1,KLEV+2)= PX(:,1,KLEV+1)
END SUBROUTINE VERTICAL_EXTEND

END SUBROUTINE ARO_TURB_MNH

Documentation | Mentions légales | CGU | Accessibilité : non conforme