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!MNH_LIC Copyright 1994-2014 CNRS, Meteo-France and Universite Paul Sabatier
!MNH_LIC This is part of the Meso-NH software governed by the CeCILL-C licence
!MNH_LIC version 1. See LICENSE, CeCILL-C_V1-en.txt and CeCILL-C_V1-fr.txt
!MNH_LIC for details. version 1.
!-----------------------------------------------------------------
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!--------------- special set of characters for RCS information
!-----------------------------------------------------------------
! $Source: /home/cvsroot/MNH-VX-Y-Z/src/MNH/write_lfifm1_for_diag_supp.f90,v $ $Revision: 1.3.2.3.2.2.2.5.2.2.2.3.2.4 $ $Date: 2016/03/17 12:59:13 $
!-----------------------------------------------------------------
! ######################################
MODULE MODI_WRITE_LFIFM1_FOR_DIAG_SUPP
! ######################################
INTERFACE
!
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SUBROUTINE WRITE_LFIFM1_FOR_DIAG_SUPP(TPFILE)
!
USE MODD_IO_ll, ONLY: TFILEDATA
!
!* 0.1 Declarations of arguments
!
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TYPE(TFILEDATA), INTENT(IN) :: TPFILE ! Output file
!
END SUBROUTINE WRITE_LFIFM1_FOR_DIAG_SUPP
!
END INTERFACE
!
END MODULE MODI_WRITE_LFIFM1_FOR_DIAG_SUPP
!
! ##############################################
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SUBROUTINE WRITE_LFIFM1_FOR_DIAG_SUPP(TPFILE)
! ##############################################
!
!!**** *WRITE_LFIFM1_FOR_DIAG_SUPP* - write records in the diag file
!!
!! PURPOSE
!! -------
! The purpose of this routine is to write in the file
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! of name YFMFILE//'.lfi' with the FM routines.
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!
!!** METHOD
!! ------
!! The data are written in the LFIFM file :
!! - diagnostics from the convection
!! - diagnostics from the radiatif transfer code
!!
!! The localization on the model grid is also indicated :
!! IGRID = 1 for mass grid point
!! IGRID = 2 for U grid point
!! IGRID = 3 for V grid point
!! IGRID = 4 for w grid point
!! IGRID = 0 for meaningless case
!!
!! EXTERNAL
!! --------
!! FMWRIT : FM-routine to write a record
!!
!!
!! IMPLICIT ARGUMENTS
!! ------------------
!!
!! REFERENCE
!! ---------
!!
!! AUTHOR
!! ------
!! J. Stein *Meteo France*
!!
!! MODIFICATIONS
!! -------------
!! Original 13/09/00
!! N. Asencio 15/09/00 computation of temperature and height of clouds is moved
!! here and deleted in WRITE_LFIFM1_FOR_DIAG routine
!! I. Mallet 02/11/00 add the call to RADTR_SATEL
!! J.-P. Chaboureau 11/12/03 add call the CALL_RTTOV (table NRTTOVINFO to
!! choose the platform, the satellite, the sensor for all channels
!! (see the table in rttov science and validation report) and the
!! type of calculations in the namelist: 0 = tb, 1 = tb + jacobian,
!! 2 = tb + adjoint, 3 = tb + jacobian + adjoint)
!! V. Masson 01/2004 removes surface (externalization)
!! October 2009 (G. Tanguy) add ILENCH=LEN(YCOMMENT) after
!! change of YCOMMENT
!! October 2011 (C.Lac) FF10MAX : interpolation of 10m wind
!! between 2 Meso-NH levels if 10m is above the first atmospheric level
!! 2015 : D.Ricard add UM10/VM10 for LCARTESIAN=T cases
!! J.Escobar : 15/09/2015 : WENO5 & JPHEXT <> 1
!! P.Tulet : Diag for salt and orilam
!! J.-P. Chaboureau 07/03/2016 fix the dimensions of local arrays
!! P.Wautelet : 11/07/2016 : removed MNH_NCWRIT define
!! J.-P. Chaboureau 31/10/2016 add the call to RTTOV11
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!! F. Brosse 10/2016 add chemical production destruction terms outputs
!! M.Leriche 01/07/2017 Add DIAG chimical surface fluxes
!-------------------------------------------------------------------------------
!
!* 0. DECLARATIONS
! ------------
!
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USE MODD_IO_ll, ONLY: TFILEDATA
USE MODD_PARAMETERS
USE MODD_CONF_n
USE MODD_CONF
USE MODD_DEEP_CONVECTION_n
USE MODD_DIM_n
USE MODD_FIELD_n
USE MODD_GRID_n
USE MODD_LUNIT_n
USE MODD_PARAM_n
USE MODD_PARAM_KAFR_n
USE MODD_PARAM_RAD_n
USE MODD_RADIATIONS_n
USE MODD_TIME_n
USE MODD_TURB_n
USE MODD_REF_n, ONLY: XRHODREF
USE MODD_DIAG_FLAG
USE MODD_NSV, ONLY : NSV,NSV_USER,NSV_C2R2BEG,NSV_C2R2END, &
NSV_C1R3BEG, NSV_C1R3END,NSV_ELECBEG,NSV_ELECEND, &
NSV_CHEMBEG, NSV_CHEMEND,NSV_LGBEG, NSV_LGEND
USE MODD_CH_M9_n, ONLY: CNAMES
USE MODD_RAIN_C2R2_DESCR, ONLY: C2R2NAMES
USE MODD_ICE_C1R3_DESCR, ONLY: C1R3NAMES
USE MODD_ELEC_DESCR, ONLY: CELECNAMES
USE MODD_LG, ONLY: CLGNAMES
USE MODD_DUST, ONLY: LDUST
USE MODD_SALT, ONLY: LSALT
USE MODD_CH_AEROSOL, ONLY: LORILAM
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USE MODD_CH_MNHC_n
USE MODD_CH_BUDGET_n
USE MODD_CH_PRODLOSSTOT_n
USE MODD_CH_FLX_n, ONLY: XCHFLX
USE MODD_RAD_TRANSF
USE MODD_DIAG_IN_RUN, ONLY: XCURRENT_ZON10M,XCURRENT_MER10M, &
XCURRENT_SFCO2, XCURRENT_SW, XCURRENT_LW
!
USE MODD_DYN_n
USE MODD_CURVCOR_n
USE MODD_METRICS_n
USE MODD_DIAG_BLANK
USE MODI_PINTER
USE MODI_ZINTER
USE MODI_GRADIENT_M
USE MODI_GRADIENT_W
USE MODI_GRADIENT_U
USE MODI_GRADIENT_V
USE MODI_GRADIENT_UV
!
USE MODI_SHUMAN
#ifdef MNH_RTTOV_8
USE MODI_CALL_RTTOV8
#endif
#ifdef MNH_RTTOV_11
USE MODI_CALL_RTTOV11
#endif
USE MODI_RADTR_SATEL
USE MODI_UV_TO_ZONAL_AND_MERID
!
USE MODE_FIELD
USE MODE_FMWRIT
!
USE MODI_GET_SURF_UNDEF
!
IMPLICIT NONE
!
!* 0.1 Declarations of arguments
!
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TYPE(TFILEDATA), INTENT(IN) :: TPFILE ! Output file
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!
!* 0.2 Declarations of local variables
!
INTEGER :: IIU,IJU,IKU,IIB,IJB,IKB,IIE,IJE,IKE ! Arrays bounds
INTEGER :: IKRAD
!
INTEGER :: JI,JJ,JK,JSV ! loop index
!
! variables for Diagnostic variables related to deep convection
REAL,DIMENSION(:,:), ALLOCATABLE :: ZWORK21,ZWORK22
!
! variables for computation of temperature and height of clouds
REAL :: ZCLMR ! value of mixing ratio tendency for detection of cloud top
LOGICAL, DIMENSION(:,:), ALLOCATABLE :: GMASK2
INTEGER, DIMENSION(:,:), ALLOCATABLE :: IWORK1, IWORK2
INTEGER, DIMENSION(:,:), ALLOCATABLE :: ICL_HE_ST
REAL, DIMENSION(:,:,:), ALLOCATABLE :: ZWORK31,ZTEMP
!
! variables needed for the transfer radiatif diagnostic code
INTEGER :: ITOTGEO
INTEGER, DIMENSION (JPGEOST) :: INDGEO
CHARACTER(LEN=8), DIMENSION (JPGEOST) :: YNAM_SAT
REAL, DIMENSION(:,:), ALLOCATABLE :: ZIRBT, ZWVBT
REAL :: ZUNDEF ! undefined value in SURFEX
!
! variables needed for 10m wind
!
INTEGER :: IPRES, ITH
CHARACTER(LEN=4) :: YCAR4
CHARACTER(LEN=4), DIMENSION(SIZE(XISOPR)) :: YPRES
CHARACTER(LEN=4), DIMENSION(SIZE(XISOTH)) :: YTH
REAL, DIMENSION(:,:,:), ALLOCATABLE :: ZWORK32,ZWORK33,ZWORK34,ZWRES,ZPRES,ZWTH
REAL, DIMENSION(:), ALLOCATABLE :: ZTH
REAL,DIMENSION(SIZE(XTHT,1),SIZE(XTHT,2),SIZE(XTHT,3)) :: ZPOVO
REAL,DIMENSION(SIZE(XTHT,1),SIZE(XTHT,2),SIZE(XTHT,3)) :: ZVOX,ZVOY,ZVOZ
REAL,DIMENSION(SIZE(XTHT,1),SIZE(XTHT,2),SIZE(XTHT,3)) :: ZCORIOZ
TYPE(TFIELDDATA) :: TZFIELD
TYPE(TFIELDDATA),DIMENSION(2) :: TZFIELD2
!-------------------------------------------------------------------------------
!
!* 0. ARRAYS BOUNDS INITIALIZATION
!
IIU=SIZE(XTHT,1)
IJU=SIZE(XTHT,2)
IKU=SIZE(XTHT,3)
CALL GET_INDICE_ll (IIB,IJB,IIE,IJE)
IKB=1+JPVEXT
IKE=IKU-JPVEXT
!
ALLOCATE(ZWORK21(IIU,IJU))
ALLOCATE(ZWORK31(IIU,IJU,IKU))
ALLOCATE(ZTEMP(IIU,IJU,IKU))
ZTEMP(:,:,:)=XTHT(:,:,:)*(XPABST(:,:,:)/ XP00) **(XRD/XCPD)
! #ifdef MNH_NCWRIT
! IF (LNETCDF.AND..NOT.LCARTESIAN) THEN
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! CALL IO_WRITE_FIELD(TPFILE,'LAT',XLAT)
! CALL IO_WRITE_FIELD(TPFILE,'LON',XLON)
! END IF
! #endif
!
!-------------------------------------------------------------------------------
!
!* 1. DIAGNOSTIC RELATED TO CONVECTION
! --------------------------------
!
!* Diagnostic variables related to deep convection
!
IF (NCONV_KF >= 0) THEN
!
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CALL IO_WRITE_FIELD(TPFILE,'CAPE',XCAPE)
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! top height (km) of convective clouds
ZWORK21(:,:)= 0.
DO JJ=IJB,IJE
DO JI=IIB,IIE
IF (NCLTOPCONV(JI,JJ)/=0) ZWORK21(JI,JJ)= XZZ(JI,JJ,NCLTOPCONV(JI,JJ))/1.E3
END DO
END DO
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TZFIELD%CMNHNAME = 'CLTOPCONV'
TZFIELD%CSTDNAME = 'convective_cloud_top_altitude'
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TZFIELD%CLONGNAME = 'CLTOPCONV'
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TZFIELD%CUNITS = 'km'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_Top of Convective Cloud'
TZFIELD%NGRID = 4
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
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CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZWORK21)
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!
! base height (km) of convective clouds
ZWORK21(:,:)= 0.
DO JJ=IJB,IJE
DO JI=IIB,IIE
IF (NCLBASCONV(JI,JJ)/=0) ZWORK21(JI,JJ)= XZZ(JI,JJ,NCLBASCONV(JI,JJ))/1.E3
END DO
END DO
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TZFIELD%CMNHNAME = 'CLBASCONV'
TZFIELD%CSTDNAME = 'convective_cloud_base_altitude'
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TZFIELD%CLONGNAME = 'CLBASCONV'
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TZFIELD%CUNITS = 'km'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_Base of Convective Cloud'
TZFIELD%NGRID = 4
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
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CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZWORK21)
!
END IF
IF (NCONV_KF >= 1) THEN
!
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CALL IO_WRITE_FIELD(TPFILE,'DTHCONV',XDTHCONV)
CALL IO_WRITE_FIELD(TPFILE,'DRVCONV',XDRVCONV)
CALL IO_WRITE_FIELD(TPFILE,'DRCCONV',XDRCCONV)
CALL IO_WRITE_FIELD(TPFILE,'DRICONV',XDRICONV)
!
IF ( LCHTRANS .AND. NSV > 0 ) THEN
! User scalar variables
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IF (NSV_USER>0) THEN
TZFIELD%CSTDNAME = ''
TZFIELD%CUNITS = 's-1'
TZFIELD%CDIR = 'XY'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 3
!
DO JSV = 1, NSV_USER
WRITE(TZFIELD%CMNHNAME,'(A7,I3.3)')'DSVCONV',JSV
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TZFIELD%CLONGNAME = TRIM(TZFIELD%CMNHNAME)
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WRITE(TZFIELD%CCOMMENT,'(A6,A2,I3.3,A20)')'X_Y_Z_','SV',JSV,' CONVective tendency'
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CALL IO_WRITE_FIELD(TPFILE,TZFIELD,XDSVCONV(:,:,:,JSV))
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END DO
END IF
! microphysical C2R2 scheme scalar variables
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IF (NSV_C2R2END>=NSV_C2R2BEG) THEN
TZFIELD%CSTDNAME = ''
TZFIELD%CUNITS = 's-1'
TZFIELD%CDIR = 'XY'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 3
!
DO JSV = NSV_C2R2BEG, NSV_C2R2END
TZFIELD%CMNHNAME = 'DSVCONV_'//TRIM(C2R2NAMES(JSV-NSV_C2R2BEG+1))
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TZFIELD%CLONGNAME = TRIM(TZFIELD%CMNHNAME)
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TZFIELD%CCOMMENT = 'X_Y_Z_'//TRIM(C2R2NAMES(JSV-NSV_C2R2BEG+1))//' CONVective tendency (1/s)'
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CALL IO_WRITE_FIELD(TPFILE,TZFIELD,XDSVCONV(:,:,:,JSV))
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END DO
END IF
! microphysical C3R5 scheme additional scalar variables
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IF (NSV_C1R3END>=NSV_C1R3BEG) THEN
TZFIELD%CSTDNAME = ''
TZFIELD%CUNITS = 's-1'
TZFIELD%CDIR = 'XY'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 3
!
DO JSV = NSV_C1R3BEG,NSV_C1R3END
TZFIELD%CMNHNAME = 'DSVCONV_'//TRIM(C1R3NAMES(JSV-NSV_C1R3BEG+1))
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TZFIELD%CLONGNAME = TRIM(TZFIELD%CMNHNAME)
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TZFIELD%CCOMMENT = 'X_Y_Z_'//TRIM(C1R3NAMES(JSV-NSV_C1R3BEG+1))//' CONVective tendency (1/s)'
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CALL IO_WRITE_FIELD(TPFILE,TZFIELD,XDSVCONV(:,:,:,JSV))
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END DO
END IF
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IF (NSV_ELECEND>=NSV_ELECBEG) THEN
TZFIELD%CSTDNAME = ''
TZFIELD%CUNITS = 's-1'
TZFIELD%CDIR = 'XY'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 3
!
DO JSV = NSV_ELECBEG,NSV_ELECEND
TZFIELD%CMNHNAME = 'DSVCONV_'//TRIM(CELECNAMES(JSV-NSV_ELECBEG+1))
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TZFIELD%CLONGNAME = TRIM(TZFIELD%CMNHNAME)
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TZFIELD%CCOMMENT = 'X_Y_Z_'//TRIM(CELECNAMES(JSV-NSV_ELECBEG+1))//' CONVective tendency (1/s)'
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CALL IO_WRITE_FIELD(TPFILE,TZFIELD,XDSVCONV(:,:,:,JSV))
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END DO
END IF
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IF (NSV_CHEMEND>=NSV_CHEMBEG) THEN
TZFIELD%CSTDNAME = ''
TZFIELD%CUNITS = 's-1'
TZFIELD%CDIR = 'XY'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 3
!
DO JSV = NSV_CHEMBEG, NSV_CHEMEND
TZFIELD%CMNHNAME = 'DSVCONV_'//TRIM(CNAMES(JSV-NSV_CHEMBEG+1))
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TZFIELD%CLONGNAME = TRIM(TZFIELD%CMNHNAME)
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TZFIELD%CCOMMENT = 'X_Y_Z_'//TRIM(CNAMES(JSV-NSV_CHEMBEG+1))//' CONVective tendency (1/s)'
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CALL IO_WRITE_FIELD(TPFILE,TZFIELD,XDSVCONV(:,:,:,JSV))
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END DO
END IF
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IF (NSV_LGEND>=NSV_LGBEG) THEN
TZFIELD%CSTDNAME = ''
TZFIELD%CUNITS = 's-1'
TZFIELD%CDIR = 'XY'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 3
!
DO JSV = NSV_LGBEG,NSV_LGEND
TZFIELD%CMNHNAME = 'DSVCONV_'//TRIM(CLGNAMES(JSV-NSV_LGBEG+1))
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TZFIELD%CLONGNAME = TRIM(TZFIELD%CMNHNAME)
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TZFIELD%CCOMMENT = 'X_Y_Z_'//TRIM(CLGNAMES(JSV-NSV_LGBEG+1))//' CONVective tendency (1/s)'
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CALL IO_WRITE_FIELD(TPFILE,TZFIELD,XDSVCONV(:,:,:,JSV))
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END DO
END IF
END IF
!
END IF
IF (NCONV_KF >= 2) THEN
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CALL IO_WRITE_FIELD(TPFILE,'PRLFLXCONV',XPRLFLXCONV)
CALL IO_WRITE_FIELD(TPFILE,'PRSFLXCONV',XPRSFLXCONV)
CALL IO_WRITE_FIELD(TPFILE,'UMFCONV', XUMFCONV)
CALL IO_WRITE_FIELD(TPFILE,'DMFCONV', XDMFCONV)
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END IF
!-------------------------------------------------------------------------------
!
!* Height and temperature of clouds top
!
IF (LCLD_COV .AND. LUSERC) THEN
ALLOCATE(IWORK1(IIU,IJU),IWORK2(IIU,IJU))
ALLOCATE(ICL_HE_ST(IIU,IJU))
ALLOCATE(GMASK2(IIU,IJU))
ALLOCATE(ZWORK22(IIU,IJU))
!
! Explicit clouds
!
ICL_HE_ST(:,:)=IKB !initialization
IWORK1(:,:)=IKB ! with the
IWORK2(:,:)=IKB ! ground values
ZCLMR=1.E-4 ! detection of clouds for cloud mixing ratio > .1g/kg
!
GMASK2(:,:)=.TRUE.
ZWORK31(:,:,:)= MZM(1,IKU,1, XRT(:,:,:,2) ) ! cloud mixing ratio at zz levels
DO JK=IKE,IKB,-1
WHERE ( (GMASK2(:,:)).AND.(ZWORK31(:,:,JK)>ZCLMR) )
GMASK2(:,:)=.FALSE.
IWORK1(:,:)=JK
END WHERE
END DO
!
IF (LUSERI) THEN
GMASK2(:,:)=.TRUE.
ZWORK31(:,:,:)= MZM(1,IKU,1, XRT(:,:,:,4) ) ! cloud mixing ratio at zz levels
DO JK=IKE,IKB,-1
WHERE ( (GMASK2(:,:)).AND.(ZWORK31(:,:,JK)>ZCLMR) )
GMASK2(:,:)=.FALSE.
IWORK2(:,:)=JK
END WHERE
END DO
END IF
!
ZWORK21(:,:)=0.
DO JJ=IJB,IJE
DO JI=IIB,IIE
ICL_HE_ST(JI,JJ)=MAX(IWORK1(JI,JJ),IWORK2(JI,JJ) )
ZWORK21(JI,JJ) =XZZ(JI,JJ,ICL_HE_ST(JI,JJ)) ! height (m) of explicit clouds
END DO
END DO
!
WHERE ( ZWORK21(:,:)==XZZ(:,:,IKB) ) ZWORK21=0. ! set the height to
! 0 if there is no cloud
ZWORK21(:,:)=ZWORK21(:,:)/1.E3 ! height (km) of explicit clouds
!
WAUTELET Philippe
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TZFIELD%CMNHNAME = 'HECL'
TZFIELD%CSTDNAME = ''
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TZFIELD%CLONGNAME = 'HECL'
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TZFIELD%CUNITS = 'km'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_Height of Explicit CLoud top'
TZFIELD%NGRID = 4
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZWORK21)
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!
! Higher top of the different species of clouds
!
IWORK1(:,:)=IKB ! initialization with the ground values
ZWORK31(:,:,:)=MZM(1,IKU,1,ZTEMP(:,:,:)) ! temperature (K) at zz levels
IF(CRAD/='NONE') ZWORK31(:,:,IKB)=XTSRAD(:,:)
ZWORK21(:,:)=0.
ZWORK22(:,:)=0.
DO JJ=IJB,IJE
DO JI=IIB,IIE
IWORK1(JI,JJ)=ICL_HE_ST(JI,JJ)
IF (NCONV_KF >=0) &
IWORK1(JI,JJ)= MAX(ICL_HE_ST(JI,JJ),NCLTOPCONV(JI,JJ))
ZWORK21(JI,JJ)= XZZ(JI,JJ,IWORK1(JI,JJ)) ! max. cloud height (m)
ZWORK22(JI,JJ)= ZWORK31(JI,JJ,IWORK1(JI,JJ))-XTT ! cloud temperature (C)
END DO
END DO
!
IF (NCONV_KF <0) THEN
PRINT*,'YOU DO NOT ASK FOR CONVECTIVE DIAGNOSTICS (NCONV_KF<0), SO'
PRINT*,' HC not written in FM-file (equal to HEC)'
ELSE
WHERE ( ZWORK21(:,:)==XZZ(:,:,IKB) ) ZWORK21(:,:)=0. ! set the height to
! 0 if there is no cloud
ZWORK21(:,:)=ZWORK21(:,:)/1.E3 ! max. cloud height (km)
!
WAUTELET Philippe
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TZFIELD%CMNHNAME = 'HCL'
TZFIELD%CSTDNAME = 'cloud_top_altitude'
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TZFIELD%CLONGNAME = 'HCL'
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TZFIELD%CUNITS = 'km'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_Height of CLoud top'
TZFIELD%NGRID = 4
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
WAUTELET Philippe
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CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZWORK21)
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TZFIELD%CMNHNAME = 'TCL'
TZFIELD%CSTDNAME = 'air_temperature_at_cloud_top'
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TZFIELD%CLONGNAME = 'TCL'
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TZFIELD%CUNITS = 'celsius'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_Height of CLoud top'
TZFIELD%NGRID = 4
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
WAUTELET Philippe
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CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZWORK22)
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CALL IO_WRITE_FIELD(TPFILE,'CLDFR',XCLDFR)
!
! Visibility
!
ZWORK31(:,:,:)= 1.E4 ! 10 km for clear sky
WHERE (XRT(:,:,:,2) > 0.)
ZWORK31(:,:,:)=3.9E3/(144.7*(XRHODREF(:,:,:)*1.E3*XRT(:,:,:,2)/(1.+XRT(:,:,:,2)))**0.88)
END WHERE
!
WAUTELET Philippe
committed
TZFIELD%CMNHNAME = 'VISI_HOR'
TZFIELD%CSTDNAME = 'visibility_in_air'
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = 'VISI_HOR'
WAUTELET Philippe
committed
TZFIELD%CUNITS = 'm'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_Z_VISI_HOR'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
WAUTELET Philippe
committed
TZFIELD%NDIMS = 3
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZWORK31)
WAUTELET Philippe
committed
!
DEALLOCATE(IWORK1,IWORK2,ICL_HE_ST,GMASK2,ZWORK22)
END IF
!
!-------------------------------------------------------------------------------
!
!* 2. DIAGNOSTIC RELATED TO RADIATIONS
! --------------------------------
!
IF (NRAD_3D >= 0) THEN
IF (CRAD /= 'NONE') THEN
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,'DTHRAD', XDTHRAD)
CALL IO_WRITE_FIELD(TPFILE,'FLALWD', XFLALWD)
CALL IO_WRITE_FIELD(TPFILE,'DIRFLASWD', XDIRFLASWD)
CALL IO_WRITE_FIELD(TPFILE,'SCAFLASWD', XSCAFLASWD)
CALL IO_WRITE_FIELD(TPFILE,'DIRSRFSWD', XDIRSRFSWD)
CALL IO_WRITE_FIELD(TPFILE,'CLEARCOL_TM1',NCLEARCOL_TM1)
CALL IO_WRITE_FIELD(TPFILE,'ZENITH', XZENITH)
CALL IO_WRITE_FIELD(TPFILE,'AZIM', XAZIM)
CALL IO_WRITE_FIELD(TPFILE,'DIR_ALB', XDIR_ALB)
CALL IO_WRITE_FIELD(TPFILE,'SCA_ALB', XSCA_ALB)
CALL IO_WRITE_FIELD(TPFILE,'EMIS', XEMIS)
CALL IO_WRITE_FIELD(TPFILE,'TSRAD', XTSRAD)
ELSE
PRINT*,'YOU WANT DIAGNOSTICS RELATED TO RADIATION'
PRINT*,' BUT NO RADIATIVE SCHEME WAS ACTIVATED IN THE MODEL'
END IF
END IF
IF (NRAD_3D >= 1) THEN
IF (LDUST) THEN
!Dust optical depth between two vertical levels
ZWORK31(:,:,:)=0.
DO JK=IKB,IKE
IKRAD = JK - JPVEXT
ZWORK31(:,:,JK)= XAER(:,:,IKRAD,3)
END DO
WAUTELET Philippe
committed
TZFIELD%CMNHNAME = 'DSTAOD3D'
TZFIELD%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = 'DSTAOD3D'
WAUTELET Philippe
committed
TZFIELD%CUNITS = 'm'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_Z_DuST Aerosol Optical Depth'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 3
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZWORK31)
!Dust optical depth
ZWORK21(:,:)=0.0
DO JK=IKB,IKE
IKRAD = JK - JPVEXT
DO JJ=IJB,IJE
DO JI=IIB,IIE
ZWORK21(JI,JJ)=ZWORK21(JI,JJ)+XAER(JI,JJ,IKRAD,3)
ENDDO
ENDDO
ENDDO
WAUTELET Philippe
committed
TZFIELD%CMNHNAME = 'DSTAOD2D'
TZFIELD%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = 'DSTAOD2D'
WAUTELET Philippe
committed
TZFIELD%CUNITS = 'm'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_DuST Aerosol Optical Depth'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZWORK21)
!Dust extinction (optical depth per km)
DO JK=IKB,IKE
IKRAD = JK - JPVEXT
ZWORK31(:,:,JK)= XAER(:,:,IKRAD,3)/(XZZ(:,:,JK+1)-XZZ(:,:,JK))*1.D3
ENDDO
WAUTELET Philippe
committed
TZFIELD%CMNHNAME = 'DSTEXT'
TZFIELD%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = 'DSTEXT'
WAUTELET Philippe
committed
TZFIELD%CUNITS = 'km-1'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_Z_DuST EXTinction'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 3
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZWORK31)
IF (LSALT) THEN
!Salt optical depth between two vertical levels
ZWORK31(:,:,:)=0.
DO JK=IKB,IKE
IKRAD = JK - JPVEXT
ZWORK31(:,:,JK)= XAER(:,:,IKRAD,2)
END DO
WAUTELET Philippe
committed
TZFIELD%CMNHNAME = 'SLTAOD3D'
TZFIELD%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = 'SLTAOD3D'
WAUTELET Philippe
committed
TZFIELD%CUNITS = 'm'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_Z_Salt Aerosol Optical Depth'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 3
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZWORK31)
!Salt optical depth
ZWORK21(:,:)=0.0
DO JK=IKB,IKE
IKRAD = JK - JPVEXT
DO JJ=IJB,IJE
DO JI=IIB,IIE
ZWORK21(JI,JJ)=ZWORK21(JI,JJ)+XAER(JI,JJ,IKRAD,2)
ENDDO
ENDDO
ENDDO
WAUTELET Philippe
committed
TZFIELD%CMNHNAME = 'SLTAOD2D'
TZFIELD%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = 'SLTAOD2D'
WAUTELET Philippe
committed
TZFIELD%CUNITS = 'm'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_Salt Aerosol Optical Depth'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZWORK21)
!Salt extinction (optical depth per km)
DO JK=IKB,IKE
IKRAD = JK - JPVEXT
ZWORK31(:,:,JK)= XAER(:,:,IKRAD,2)/(XZZ(:,:,JK+1)-XZZ(:,:,JK))*1.D3
ENDDO
WAUTELET Philippe
committed
TZFIELD%CMNHNAME = 'SLTEXT'
TZFIELD%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = 'SLTEXT'
WAUTELET Philippe
committed
TZFIELD%CUNITS = 'km-1'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_Z_Salt EXTinction'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 3
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZWORK31)
END IF
IF (LORILAM) THEN
!Orilam anthropogenic optical depth between two vertical levels
ZWORK31(:,:,:)=0.
DO JK=IKB,IKE
IKRAD = JK - JPVEXT
ZWORK31(:,:,JK)= XAER(:,:,IKRAD,4)
END DO
WAUTELET Philippe
committed
TZFIELD%CMNHNAME = 'AERAOD3D'
TZFIELD%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = 'AERAOD3D'
WAUTELET Philippe
committed
TZFIELD%CUNITS = 'm'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_Z_Anthropogenic Aerosol Optical Depth'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 3
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZWORK31)
!Orilam anthropogenic optical depth
ZWORK21(:,:)=0.0
DO JK=IKB,IKE
IKRAD = JK - JPVEXT
DO JJ=IJB,IJE
DO JI=IIB,IIE
ZWORK21(JI,JJ)=ZWORK21(JI,JJ)+XAER(JI,JJ,IKRAD,4)
ENDDO
ENDDO
ENDDO
WAUTELET Philippe
committed
TZFIELD%CMNHNAME = 'AERAOD2D'
TZFIELD%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = 'AERAOD2D'
WAUTELET Philippe
committed
TZFIELD%CUNITS = 'm'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_Anthropogenic Aerosol Optical Depth'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZWORK21)
!Orilam anthropogenic extinction (optical depth per km)
DO JK=IKB,IKE
IKRAD = JK - JPVEXT
ZWORK31(:,:,JK)= XAER(:,:,IKRAD,4)/(XZZ(:,:,JK+1)-XZZ(:,:,JK))*1.D3
ENDDO
WAUTELET Philippe
committed
TZFIELD%CMNHNAME = 'AEREXT'
TZFIELD%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = 'AEREXT'
WAUTELET Philippe
committed
TZFIELD%CUNITS = 'km-1'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_Z_Anthropogenic EXTinction'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 3
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZWORK31)
END IF
!
!-------------------------------------------------------------------------------
! Net surface gaseous fluxes
!print*,'LCHEMDIAG, NSV_CHEMBEG, NSV_CHEMEND=',&
!LCHEMDIAG, NSV_CHEMBEG, NSV_CHEMEND
IF (LCHEMDIAG) THEN
WAUTELET Philippe
committed
TZFIELD%CSTDNAME = ''
TZFIELD%CUNITS = 'ppb m s-1'
TZFIELD%CDIR = 'XY'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
!
DO JSV = NSV_CHEMBEG, NSV_CHEMEND
TZFIELD%CMNHNAME = 'FLX_'//TRIM(CNAMES(JSV-NSV_CHEMBEG+1))
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = TRIM(TZFIELD%CMNHNAME)
WAUTELET Philippe
committed
WRITE(TZFIELD%CCOMMENT,'(A6,A,A)')'X_Y_Z_',TRIM(CNAMES(JSV-NSV_CHEMBEG+1)),' Net chemical flux'
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,XCHFLX(:,:,JSV-NSV_CHEMBEG+1) * 1E9)
END DO
END IF
!-------------------------------------------------------------------------------
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!
!* Brightness temperatures from the radiatif transfer code (Morcrette, 1991)
!
IF (LEN_TRIM(CRAD_SAT) /= 0 .AND. NRR /=0) THEN
ALLOCATE (ZIRBT(IIU,IJU),ZWVBT(IIU,IJU))
ITOTGEO=0
IF (INDEX(CRAD_SAT,'GOES-E') /= 0) THEN
ITOTGEO= ITOTGEO+1
INDGEO(ITOTGEO) = 1
YNAM_SAT(ITOTGEO) = 'GOES-E'
END IF
IF (INDEX(CRAD_SAT,'GOES-W') /= 0) THEN
ITOTGEO= ITOTGEO+1
INDGEO(ITOTGEO) = 2
YNAM_SAT(ITOTGEO) = 'GOES-W'
END IF
IF (INDEX(CRAD_SAT,'GMS') /= 0) THEN
ITOTGEO= ITOTGEO+1
INDGEO(ITOTGEO) = 3
YNAM_SAT(ITOTGEO) = 'GMS'
END IF
IF (INDEX(CRAD_SAT,'INDSAT') /= 0) THEN
ITOTGEO= ITOTGEO+1
INDGEO(ITOTGEO) = 4
YNAM_SAT(ITOTGEO) = 'INDSAT'
END IF
IF (INDEX(CRAD_SAT,'METEOSAT') /= 0) THEN
ITOTGEO= ITOTGEO+1
INDGEO(ITOTGEO) = 5
YNAM_SAT(ITOTGEO) = 'METEOSAT'
END IF
PRINT*,'YOU ASK FOR BRIGHTNESS TEMPERATURES FOR ',ITOTGEO,' SATELLITE(S)'
IF (NRR==1) THEN
PRINT*,' THERE IS ONLY VAPOR WATER IN YOUR ATMOSPHERE'
PRINT*,' IRBT WILL NOT TAKE INTO ACCOUNT CLOUDS.'
END IF
!
DO JI=1,ITOTGEO
ZIRBT(:,:) = XUNDEF
ZWVBT(:,:) = XUNDEF
CALL RADTR_SATEL(TDTCUR%TDATE%YEAR,TDTCUR%TDATE%MONTH,TDTCUR%TDATE%DAY, &
TDTCUR%TIME, NDLON, NFLEV, NSTATM, NRAD_COLNBR, XEMIS, &
XCCO2, XTSRAD, XSTATM, XTHT, XRT, XPABST, XZZ, &
XSIGS, XMFCONV, XCLDFR, LUSERI, LSIGMAS, &
LSUBG_COND, LRAD_SUBG_COND, ZIRBT, ZWVBT, &
INDGEO(JI),VSIGQSAT )
!
WAUTELET Philippe
committed
TZFIELD%CMNHNAME = TRIM(YNAM_SAT(JI))//'_IRBT'
TZFIELD%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = TRIM(TZFIELD%CMNHNAME)
WAUTELET Philippe
committed
TZFIELD%CUNITS = 'K'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = TRIM(YNAM_SAT(JI))//' Infra-Red Brightness Temperature'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZIRBT)
WAUTELET Philippe
committed
TZFIELD%CMNHNAME = TRIM(YNAM_SAT(JI))//'_WVBT'
TZFIELD%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = TRIM(TZFIELD%CMNHNAME)
WAUTELET Philippe
committed
TZFIELD%CUNITS = 'K'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = TRIM(YNAM_SAT(JI))//' Water-Vapor Brightness Temperature'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZWVBT)
END DO
DEALLOCATE(ZIRBT,ZWVBT)
END IF
!
!-------------------------------------------------------------------------------
!
!* Brightness temperatures from the Radiatif Transfer for Tiros Operational
! Vertical Sounder (RTTOV) code
!
IF (NRTTOVINFO(1,1) /= NUNDEF) THEN
PRINT*,'YOU ASK FOR BRIGHTNESS TEMPERATURE COMPUTED by RTTOV code'
#ifdef MNH_RTTOV_8
CALL CALL_RTTOV8(NDLON, NFLEV, NSTATM, XEMIS, XTSRAD, XSTATM, XTHT, XRT, &
XPABST, XZZ, XMFCONV, XCLDFR, XUT(:,:,IKB), XVT(:,:,IKB), &
LUSERI, NRTTOVINFO, TPFILE )
#else
#ifdef MNH_RTTOV_11
CALL CALL_RTTOV11(NDLON, NFLEV, XEMIS, XTSRAD, XTHT, XRT, &
XPABST, XZZ, XMFCONV, XCLDFR, XUT(:,:,IKB), XVT(:,:,IKB), &
LUSERI, NRTTOVINFO, TPFILE )
#else
PRINT *, "RTTOV LIBRARY NOT AVAILABLE = ###CALL_RTTOV####"
#endif
#endif
END IF
!
!-------------------------------------------------------------------------------
!
!* 3. DIAGNOSTIC RELATED TO SURFACE
! -----------------------------
!
IF (CSURF=='EXTE') THEN
!! Since SURFEX7 (masdev49) XCURRENT_ZON10M and XCURRENT_MER10M
!! are equal to XUNDEF of SURFEX if the first atmospheric level
!! is under 10m
CALL GET_SURF_UNDEF(ZUNDEF)
!
ILEVEL=IKB
!While there are XUNDEF values and we aren't at model's top
DO WHILE(ANY(XCURRENT_ZON10M(IIB:IIE,IJB:IJE)==ZUNDEF) .AND. (ILEVEL/=IKE-1) )
!Where interpolation is needed and possible
!(10m is between ILEVEL and ILEVEL+1 or 10m is below the bottom level)
WHERE(XCURRENT_ZON10M(IIB:IIE,IJB:IJE)==ZUNDEF .AND. &
( XZHAT(ILEVEL+1) + XZHAT(ILEVEL+2)) /2. >10.)
!Interpolation between ILEVEL and ILEVEL+1
XCURRENT_ZON10M(IIB:IIE,IJB:IJE)=XUT(IIB:IIE,IJB:IJE,ILEVEL) + &
(XUT(IIB:IIE,IJB:IJE,ILEVEL+1)-XUT(IIB:IIE,IJB:IJE,ILEVEL)) * &
( 10.- (XZHAT(ILEVEL)+XZHAT(ILEVEL+1))/2. ) / &
( (XZHAT(ILEVEL+2)-XZHAT(ILEVEL)) /2.)
XCURRENT_MER10M(IIB:IIE,IJB:IJE)=XVT(IIB:IIE,IJB:IJE,ILEVEL) + &
(XVT(IIB:IIE,IJB:IJE,ILEVEL+1)-XVT(IIB:IIE,IJB:IJE,ILEVEL)) * &
(10.- (XZHAT(ILEVEL)+XZHAT(ILEVEL+1))/2. ) / &
( (XZHAT(ILEVEL+2)-XZHAT(ILEVEL)) /2.)
END WHERE
ILEVEL=ILEVEL+1 !level just higher
END DO
!
! in this case (argument KGRID=0), input winds are ZONal and MERidian
! and, output ones are in MesoNH grid
IF (.NOT. LCARTESIAN) THEN
TZFIELD2(1)%CMNHNAME = 'UM10'
TZFIELD2(1)%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD2(1)%CLONGNAME = 'UM10'
TZFIELD2(1)%CUNITS = 'm s-1'
TZFIELD2(1)%CDIR = 'XY'
TZFIELD2(1)%CCOMMENT = 'Zonal wind at 10m'
TZFIELD2(1)%NGRID = 1
TZFIELD2(1)%NTYPE = TYPEREAL
TZFIELD2(1)%NDIMS = 2
!
TZFIELD2(2)%CMNHNAME = 'VM10'
TZFIELD2(2)%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD2(2)%CLONGNAME = 'VM10'
TZFIELD2(2)%CUNITS = 'm s-1'
TZFIELD2(2)%CDIR = 'XY'
TZFIELD2(2)%CCOMMENT = 'Meridian wind at 10m'
TZFIELD2(2)%NGRID = 1
TZFIELD2(2)%NTYPE = TYPEREAL
TZFIELD2(2)%NDIMS = 2
!
CALL UV_TO_ZONAL_AND_MERID(XCURRENT_ZON10M,XCURRENT_MER10M,KGRID=0,TPFILE=TPFILE,TZFIELDS=TZFIELD2)
ELSE
TZFIELD%CMNHNAME = 'UM10'
TZFIELD%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = 'UM10'
TZFIELD%CUNITS = 'm s-1'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'Zonal wind at 10m'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,XCURRENT_ZON10M)
!
TZFIELD%CMNHNAME = 'VM10'
TZFIELD%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = 'VM10'
TZFIELD%CUNITS = 'm s-1'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'Meridian wind at 10m'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,XCURRENT_MER10M)
ENDIF
!
IF (SIZE(XTKET)>0) THEN
ZWORK21(:,:) = SQRT(XCURRENT_ZON10M(:,:)**2+XCURRENT_MER10M(:,:)**2)
ZWORK21(:,:) = ZWORK21(:,:) + 4. * SQRT(XTKET(:,:,IKB))
TZFIELD%CMNHNAME = 'FF10MAX'
TZFIELD%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = 'FF10MAX'
TZFIELD%CUNITS = 'm s-1'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'X_Y_FF10MAX'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,ZWORK21)
END IF
!
IF(ANY(XCURRENT_SFCO2/=XUNDEF))THEN
TZFIELD%CMNHNAME = 'SFCO2'
TZFIELD%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = 'SFCO2'
TZFIELD%CUNITS = 'mg m-2 s-1'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'CO2 Surface flux'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,XCURRENT_SFCO2)
END IF
!
IF(ANY(XCURRENT_SW/=XUNDEF))THEN
TZFIELD%CMNHNAME = 'SW'
TZFIELD%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = 'SW'
TZFIELD%CUNITS = 'W m-2'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'incoming ShortWave at the surface'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,XCURRENT_SW)
END IF
!
IF(ANY(XCURRENT_LW/=XUNDEF))THEN
TZFIELD%CMNHNAME = 'LW'
TZFIELD%CSTDNAME = ''
WAUTELET Philippe
committed
TZFIELD%CLONGNAME = 'LW'
TZFIELD%CUNITS = 'W m-2'
TZFIELD%CDIR = 'XY'
TZFIELD%CCOMMENT = 'incoming LongWave at the surface'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
WAUTELET Philippe
committed
CALL IO_WRITE_FIELD(TPFILE,TZFIELD,XCURRENT_LW)
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END IF
END IF
! MODIF FP NOV 2012
!-------------------------------------------------------------------------------
!
!* 4. DIAGNOSTIC ON PRESSURE LEVELS
! -----------------------------
!
IF (LISOPR .AND. XISOPR(1)/=0.) THEN
!
!
ALLOCATE(ZWORK32(IIU,IJU,IKU))
ALLOCATE(ZWORK33(IIU,IJU,IKU))
ALLOCATE(ZWORK34(IIU,IJU,IKU))
!
! *************************************************
! Determine the pressure level where to interpolate
! *************************************************
IPRES=0
DO JI=1,SIZE(XISOPR)
IF (XISOPR(JI)<=10..OR.XISOPR(JI)>1000.) EXIT
IPRES=IPRES+1
WRITE(YCAR4,'(I4)') INT(XISOPR(JI))
YPRES(IPRES)=ADJUSTL(YCAR4)
END DO
ALLOCATE(ZWRES(IIU,IJU,IPRES))
ZWRES(:,:,:)=XUNDEF
ALLOCATE(ZPRES(IIU,IJU,IPRES))
IPRES=0
DO JI=1,SIZE(XISOPR)
IF (XISOPR(JI)<=10..OR.XISOPR(JI)>1000.) EXIT
IPRES=IPRES+1
ZPRES(:,:,IPRES)=XISOPR(JI)*100.
END DO
PRINT *,'PRESSURE LEVELS WHERE TO INTERPOLATE=',ZPRES(1,1,:)
WAUTELET Philippe
committed
!
TZFIELD%CSTDNAME = ''
TZFIELD%CDIR = 'XY'
TZFIELD%NGRID = 1
TZFIELD%NTYPE = TYPEREAL
TZFIELD%NDIMS = 2
!