source: branches/nemo_v3_3_beta/NEMOGCM/NEMO/LIM_SRC_2/limistate_2.F90 @ 2281

MODULE limistate_2
   !!======================================================================
   !!                     ***  MODULE  limistate_2  ***
   !!              Initialisation of diagnostics ice variables
   !!======================================================================
   !! History :   1.0  !  01-04  (C. Ethe, G. Madec)  Original code
   !!             2.0  !  03-08  (G. Madec)  add lim_istate_init
   !!                  !  04-04  (S. Theetten) initialization from a file
   !!                  !  06-07  (S. Masson)  IOM to read the restart
   !!                  !  07-10  (G. Madec)  surface module
   !!--------------------------------------------------------------------
#if defined key_lim2
   !!----------------------------------------------------------------------
   !!   'key_lim2' :                                  LIM 2.0 sea-ice model
   !!----------------------------------------------------------------------
   !!----------------------------------------------------------------------
   !!   lim_istate_2      :  Initialisation of diagnostics ice variables
   !!   lim_istate_init_2 :  initialization of ice state and namelist read
   !!----------------------------------------------------------------------
   USE phycst
   USE par_ice_2       ! ice parameters
   USE dom_ice_2
   USE eosbn2          ! equation of state
   USE lbclnk
   USE oce
   USE ice_2
   USE iom
   USE in_out_manager

   IMPLICIT NONE
   PRIVATE

   PUBLIC lim_istate_2      ! routine called by lim_init_2.F90

!!! ** init namelist (namiceini) **
   LOGICAL  ::   ln_limini = .FALSE.  !: Ice initialization state
   REAL(wp) ::   ttest     = 2.0      ! threshold water temperature for initial sea ice
   REAL(wp) ::   hninn     = 0.5      ! initial snow thickness in the north
   REAL(wp) ::   hginn     = 3.0      ! initial ice thickness in the north
   REAL(wp) ::   alinn     = 0.05     ! initial leads area in the north
   REAL(wp) ::   hnins     = 0.1      ! initial snow thickness in the south
   REAL(wp) ::   hgins     = 1.0      ! initial ice thickness in the south
   REAL(wp) ::   alins     = 0.1      ! initial leads area in the south
   
   REAL(wp) ::   zero      = 0.e0     ! constant value = 0
   REAL(wp) ::   zone      = 1.e0     ! constant value = 1
   !!----------------------------------------------------------------------
   !!   LIM 2.0,  UCL-LOCEAN-IPSL (2006) 
   !! $Id$
   !! Software governed by the CeCILL licence (modipsl/doc/NEMO_CeCILL.txt)
   !!----------------------------------------------------------------------

CONTAINS

   SUBROUTINE lim_istate_2
      !!-------------------------------------------------------------------
      !!                    ***  ROUTINE lim_istate_2  ***
      !!
      !! ** Purpose :   defined the sea-ice initial state
      !!
      !! ** Method  :   restart from a state defined in a binary file
      !!                or from arbitrary sea-ice conditions
      !!--------------------------------------------------------------------
      INTEGER  ::   ji, jj, jk                ! dummy loop indices
      REAL(wp) ::   zidto                     ! temporary scalar
      !--------------------------------------------------------------------
 
      CALL lim_istate_init_2     !  reading the initials parameters of the ice

      IF( .NOT. ln_limini ) THEN  
         
         tfu(:,:) = tfreez( sn(:,:,1) ) * tmask(:,:,1)       ! freezing/melting point of sea water [Celcius]

         DO jj = 1, jpj
            DO ji = 1, jpi
               !                     ! ice if sst <= t-freez + ttest
               IF( tn(ji,jj,1)  - tfu(ji,jj) >= ttest ) THEN   ;   zidto = 0.e0      ! no ice
               ELSE                                            ;   zidto = 1.e0      !    ice
               ENDIF
               !
               IF( fcor(ji,jj) >= 0.e0 ) THEN     !--  Northern hemisphere.
                  hicif(ji,jj)   = zidto * hginn
                  frld(ji,jj)    = zidto * alinn + ( 1.0 - zidto ) * 1.0
                  hsnif(ji,jj)   = zidto * hninn
               ELSE                               !---  Southern hemisphere.
                  hicif(ji,jj)   = zidto * hgins
                  frld(ji,jj)    = zidto * alins + ( 1.0 - zidto ) * 1.0
                  hsnif(ji,jj)   = zidto * hnins
               ENDIF
            END DO
         END DO

         tfu(:,:) = tfu(:,:) + rt0       ! ftu converted from Celsius to Kelvin (rt0 over land)
         
         sist  (:,:)   = tfu(:,:)
         tbif  (:,:,1) = tfu(:,:)
         tbif  (:,:,2) = tfu(:,:)
         tbif  (:,:,3) = tfu(:,:)

      ENDIF
     
      fsbbq (:,:)   = 0.e0
      qstoif(:,:)   = 0.e0
      u_ice (:,:)   = 0.e0
      v_ice (:,:)   = 0.e0

      !---  Moments for advection.             

      sxice (:,:)  = 0.e0   ;   sxsn (:,:)  = 0.e0   ;   sxa  (:,:)  = 0.e0
      syice (:,:)  = 0.e0   ;   sysn (:,:)  = 0.e0   ;   sya  (:,:)  = 0.e0
      sxxice(:,:)  = 0.e0   ;   sxxsn(:,:)  = 0.e0   ;   sxxa (:,:)  = 0.e0
      syyice(:,:)  = 0.e0   ;   syysn(:,:)  = 0.e0   ;   syya (:,:)  = 0.e0
      sxyice(:,:)  = 0.e0   ;   sxysn(:,:)  = 0.e0   ;   sxya (:,:)  = 0.e0

      sxc0  (:,:)  = 0.e0   ;   sxc1 (:,:)  = 0.e0   ;   sxc2 (:,:)  = 0.e0
      syc0  (:,:)  = 0.e0   ;   syc1 (:,:)  = 0.e0   ;   syc2 (:,:)  = 0.e0
      sxxc0 (:,:)  = 0.e0   ;   sxxc1(:,:)  = 0.e0   ;   sxxc2(:,:)  = 0.e0
      syyc0 (:,:)  = 0.e0   ;   syyc1(:,:)  = 0.e0   ;   syyc2(:,:)  = 0.e0
      sxyc0 (:,:)  = 0.e0   ;   sxyc1(:,:)  = 0.e0   ;   sxyc2(:,:)  = 0.e0

      sxst  (:,:)  = 0.e0
      syst  (:,:)  = 0.e0
      sxxst (:,:)  = 0.e0
      syyst (:,:)  = 0.e0
      sxyst (:,:)  = 0.e0

      !-- lateral boundary conditions
      CALL lbc_lnk( hicif, 'T', 1. )
      CALL lbc_lnk( frld , 'T', 1. )

      ! C A U T I O N  frld = 1 over land and lbc_lnk put zero along 
      ! *************  closed boundaries herefore we force to one over land
      frld(:,:) = tms(:,:) * frld(:,:) + ( 1. - tms(:,:) )   

      CALL lbc_lnk( hsnif, 'T', 1. )
      CALL lbc_lnk( sist , 'T', 1. , pval = rt0 )      ! set rt0 on closed boundary (required by bulk formulation)
      DO jk = 1, jplayersp1
         CALL lbc_lnk(tbif(:,:,jk), 'T', 1. )
      END DO
      CALL lbc_lnk( fsbbq  , 'T', 1. )
      CALL lbc_lnk( qstoif , 'T', 1. )

   END SUBROUTINE lim_istate_2

   
   SUBROUTINE lim_istate_init_2
      !!-------------------------------------------------------------------
      !!                   ***  ROUTINE lim_istate_init_2  ***
      !!        
      !! ** Purpose :   Definition of initial state of the ice 
      !!
      !! ** Method  :   Read the namiceini namelist and check the parameter 
      !!       values called at the first timestep (nit000)
      !!
      !! ** input   :   Namelist namiceini
      !!-------------------------------------------------------------------
      INTEGER :: inum_ice
      INTEGER :: ji,jj

      NAMELIST/namiceini/ ln_limini, ttest, hninn, hginn, alinn, &
         &                hnins, hgins, alins
      !!-------------------------------------------------------------------
      !
      REWIND ( numnam_ice )               ! Read Namelist namiceini 
      READ   ( numnam_ice , namiceini )
      !
      IF(lwp) THEN
         WRITE(numout,*)
         WRITE(numout,*) 'lim_istate_init_2 : ice parameters inititialisation '
         WRITE(numout,*) '~~~~~~~~~~~~~~~~~'
         WRITE(numout,*) '         threshold water temp. for initial sea-ice    ttest      = ', ttest
         WRITE(numout,*) '         initial snow thickness in the north          hninn      = ', hninn
         WRITE(numout,*) '         initial ice thickness in the north           hginn      = ', hginn 
         WRITE(numout,*) '         initial leads area in the north              alinn      = ', alinn            
         WRITE(numout,*) '         initial snow thickness in the south          hnins      = ', hnins 
         WRITE(numout,*) '         initial ice thickness in the south           hgins      = ', hgins
         WRITE(numout,*) '         initial leads area in the south              alins      = ', alins
         WRITE(numout,*) '         Ice state initialization using input file    ln_limini  = ', ln_limini
      ENDIF

      IF( ln_limini ) THEN                      ! Ice initialization using input file
         !
         CALL iom_open( 'Ice_initialization.nc', inum_ice )
         !
         IF( inum_ice > 0 ) THEN
            IF(lwp) WRITE(numout,*)
            IF(lwp) WRITE(numout,*) '                  ice state initialization with : Ice_initialization.nc'
            
            CALL iom_get( inum_ice, jpdom_data, 'hicif', hicif )      
            CALL iom_get( inum_ice, jpdom_data, 'hsnif', hsnif )      
            CALL iom_get( inum_ice, jpdom_data, 'frld' , frld  )     
            CALL iom_get( inum_ice, jpdom_data, 'ts'   , sist  )
            CALL iom_get( inum_ice, jpdom_unknown, 'tbif', tbif(1:nlci,1:nlcj,:),   &
                 &        kstart = (/ mig(1),mjg(1),1 /), kcount = (/ nlci,nlcj,jplayersp1 /) )
            ! put some values in the extra-halo...
            DO jj = nlcj+1, jpj   ;   tbif(1:nlci,jj,:) = tbif(1:nlci,nlej,:)   ;   END DO
            DO ji = nlci+1, jpi   ;   tbif(ji    ,: ,:) = tbif(nlei  ,:   ,:)   ;   END DO

            CALL iom_close( inum_ice)
            !
         ENDIF
      ENDIF
      !     
   END SUBROUTINE lim_istate_init_2

#else
   !!----------------------------------------------------------------------
   !!   Default option :         Empty module      NO LIM 2.0 sea-ice model
   !!----------------------------------------------------------------------
CONTAINS
   SUBROUTINE lim_istate_2        ! Empty routine
   END SUBROUTINE lim_istate_2
#endif

   !!======================================================================
END MODULE limistate_2