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- MODULE sbcice_lim
- !!======================================================================
- !! *** MODULE sbcice_lim ***
- !! Surface module : update the ocean surface boundary condition over ice
- !! & covered area using LIM sea-ice model
- !! Sea-Ice model : LIM-3 Sea ice model time-stepping
- !!=====================================================================
- !! History : 2.0 ! 2006-12 (M. Vancoppenolle) Original code
- !! 3.0 ! 2008-02 (C. Talandier) Surface module from icestp.F90
- !! - ! 2008-04 (G. Madec) sltyle and lim_ctl routine
- !! 3.3 ! 2010-11 (G. Madec) ice-ocean stress always computed at each ocean time-step
- !! 3.4 ! 2011-01 (A Porter) dynamical allocation
- !! - ! 2012-10 (C. Rousset) add lim_diahsb
- !! 3.6 ! 2014-07 (M. Vancoppenolle, G. Madec, O. Marti) revise coupled interface
- !!----------------------------------------------------------------------
- #if defined key_lim3
- !!----------------------------------------------------------------------
- !! 'key_lim3' : LIM 3.0 sea-ice model
- !!----------------------------------------------------------------------
- !! sbc_ice_lim : sea-ice model time-stepping and update ocean sbc over ice-covered area
- !!----------------------------------------------------------------------
- USE oce ! ocean dynamics and tracers
- USE dom_oce ! ocean space and time domain
- USE ice ! LIM-3: ice variables
- USE thd_ice ! LIM-3: thermodynamical variables
- USE dom_ice ! LIM-3: ice domain
- USE sbc_oce ! Surface boundary condition: ocean fields
- USE sbc_ice ! Surface boundary condition: ice fields
- USE sbcblk_core ! Surface boundary condition: CORE bulk
- USE sbcblk_clio ! Surface boundary condition: CLIO bulk
- USE sbccpl ! Surface boundary condition: coupled interface
- USE albedo ! ocean & ice albedo
- USE phycst ! Define parameters for the routines
- USE eosbn2 ! equation of state
- USE limdyn ! Ice dynamics
- USE limtrp ! Ice transport
- USE limhdf ! Ice horizontal diffusion
- USE limthd ! Ice thermodynamics
- USE limitd_me ! Mechanics on ice thickness distribution
- USE limsbc ! sea surface boundary condition
- USE limdiahsb ! Ice budget diagnostics
- USE limwri ! Ice outputs
- USE limrst ! Ice restarts
- USE limupdate1 ! update of global variables
- USE limupdate2 ! update of global variables
- USE limvar ! Ice variables switch
- USE limmsh ! LIM mesh
- USE limistate ! LIM initial state
- USE limthd_sal ! LIM ice thermodynamics: salinity
- USE c1d ! 1D vertical configuration
- USE lbclnk ! lateral boundary condition - MPP link
- USE lib_mpp ! MPP library
- USE wrk_nemo ! work arrays
- USE timing ! Timing
- USE iom ! I/O manager library
- USE in_out_manager ! I/O manager
- USE prtctl ! Print control
- USE lib_fortran !
- USE limctl
- #if defined key_bdy
- USE bdyice_lim ! unstructured open boundary data (bdy_ice_lim routine)
- #endif
- IMPLICIT NONE
- PRIVATE
- PUBLIC sbc_ice_lim ! routine called by sbcmod.F90
- PUBLIC sbc_lim_init ! routine called by sbcmod.F90
-
- !! * Substitutions
- # include "domzgr_substitute.h90"
- # include "vectopt_loop_substitute.h90"
- !!----------------------------------------------------------------------
- !! NEMO/OPA 4.0 , UCL NEMO Consortium (2011)
- !! $Id: sbcice_lim.F90 8158 2017-06-09 07:09:35Z vancop $
- !! Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt)
- !!----------------------------------------------------------------------
- CONTAINS
- !!======================================================================
- SUBROUTINE sbc_ice_lim( kt, kblk )
- !!---------------------------------------------------------------------
- !! *** ROUTINE sbc_ice_lim ***
- !!
- !! ** Purpose : update the ocean surface boundary condition via the
- !! Louvain la Neuve Sea Ice Model time stepping
- !!
- !! ** Method : ice model time stepping
- !! - call the ice dynamics routine
- !! - call the ice advection/diffusion routine
- !! - call the ice thermodynamics routine
- !! - call the routine that computes mass and
- !! heat fluxes at the ice/ocean interface
- !! - save the outputs
- !! - save the outputs for restart when necessary
- !!
- !! ** Action : - time evolution of the LIM sea-ice model
- !! - update all sbc variables below sea-ice:
- !! utau, vtau, taum, wndm, qns , qsr, emp , sfx
- !!---------------------------------------------------------------------
- INTEGER, INTENT(in) :: kt ! ocean time step
- INTEGER, INTENT(in) :: kblk ! type of bulk (=3 CLIO, =4 CORE, =5 COUPLED)
- !!
- INTEGER :: jl ! dummy loop index
- REAL(wp), POINTER, DIMENSION(:,:,:) :: zalb_os, zalb_cs ! ice albedo under overcast/clear sky
- REAL(wp), POINTER, DIMENSION(:,: ) :: zutau_ice, zvtau_ice
- !!----------------------------------------------------------------------
- IF( nn_timing == 1 ) CALL timing_start('sbc_ice_lim')
- !-----------------------!
- ! --- Ice time step --- !
- !-----------------------!
- IF( MOD( kt-1, nn_fsbc ) == 0 ) THEN
- ! mean surface ocean current at ice velocity point (C-grid dynamics : U- & V-points as the ocean)
- u_oce(:,:) = ssu_m(:,:) * umask(:,:,1)
- v_oce(:,:) = ssv_m(:,:) * vmask(:,:,1)
-
- ! masked sea surface freezing temperature [Kelvin] (set to rt0 over land)
- CALL eos_fzp( sss_m(:,:) , t_bo(:,:) )
- t_bo(:,:) = ( t_bo(:,:) + rt0 ) * tmask(:,:,1) + rt0 * ( 1._wp - tmask(:,:,1) )
-
- ! Mask sea ice surface temperature (set to rt0 over land)
- DO jl = 1, jpl
- t_su(:,:,jl) = t_su(:,:,jl) * tmask(:,:,1) + rt0 * ( 1._wp - tmask(:,:,1) )
- END DO
- !
- !------------------------------------------------!
- ! --- Dynamical coupling with the atmosphere --- !
- !------------------------------------------------!
- ! It provides the following fields:
- ! utau_ice, vtau_ice : surface ice stress (U- & V-points) [N/m2]
- !-----------------------------------------------------------------
- SELECT CASE( kblk )
- CASE( jp_clio ) ; CALL blk_ice_clio_tau ! CLIO bulk formulation
- CASE( jp_core ) ; CALL blk_ice_core_tau ! CORE bulk formulation
- CASE( jp_purecpl ) ; CALL sbc_cpl_ice_tau( utau_ice , vtau_ice ) ! Coupled formulation
- END SELECT
-
- IF( ln_mixcpl) THEN ! Case of a mixed Bulk/Coupled formulation
- CALL wrk_alloc( jpi,jpj , zutau_ice, zvtau_ice)
- CALL sbc_cpl_ice_tau( zutau_ice , zvtau_ice )
- utau_ice(:,:) = utau_ice(:,:) * xcplmask(:,:,0) + zutau_ice(:,:) * ( 1. - xcplmask(:,:,0) )
- vtau_ice(:,:) = vtau_ice(:,:) * xcplmask(:,:,0) + zvtau_ice(:,:) * ( 1. - xcplmask(:,:,0) )
- CALL wrk_dealloc( jpi,jpj , zutau_ice, zvtau_ice)
- ENDIF
- !-------------------------------------------------------!
- ! --- ice dynamics and transport (except in 1D case) ---!
- !-------------------------------------------------------!
- numit = numit + nn_fsbc ! Ice model time step
- !
- CALL sbc_lim_bef ! Store previous ice values
- CALL sbc_lim_diag0 ! set diag of mass, heat and salt fluxes to 0
- CALL lim_rst_opn( kt ) ! Open Ice restart file
- !
- IF( .NOT. lk_c1d ) THEN
- !
- CALL lim_dyn( kt ) ! Ice dynamics ( rheology/dynamics )
- !
- CALL lim_trp( kt ) ! Ice transport ( Advection/diffusion )
- !
- IF( nn_monocat /= 2 ) CALL lim_itd_me ! Mechanical redistribution ! (ridging/rafting)
- !
- #if defined key_bdy
- CALL bdy_ice_lim( kt ) ! bdy ice thermo
- IF( ln_icectl ) CALL lim_prt( kt, iiceprt, jiceprt, 1, ' - ice thermo bdy - ' )
- #endif
- !
- CALL lim_update1( kt ) ! Corrections
- !
- ENDIF
-
- ! previous lead fraction and ice volume for flux calculations
- CALL sbc_lim_bef
- CALL lim_var_glo2eqv ! ht_i and ht_s for ice albedo calculation
- CALL lim_var_agg(1) ! at_i for coupling (via pfrld)
- pfrld(:,:) = 1._wp - at_i(:,:)
- phicif(:,:) = vt_i(:,:)
-
- !------------------------------------------------------!
- ! --- Thermodynamical coupling with the atmosphere --- !
- !------------------------------------------------------!
- ! It provides the following fields:
- ! qsr_ice , qns_ice : solar & non solar heat flux over ice (T-point) [W/m2]
- ! qla_ice : latent heat flux over ice (T-point) [W/m2]
- ! dqns_ice, dqla_ice : non solar & latent heat sensistivity (T-point) [W/m2]
- ! tprecip , sprecip : total & solid precipitation (T-point) [Kg/m2/s]
- ! fr1_i0 , fr2_i0 : 1sr & 2nd fraction of qsr penetration in ice [%]
- !----------------------------------------------------------------------------------------
- CALL wrk_alloc( jpi,jpj,jpl, zalb_os, zalb_cs )
- CALL albedo_ice( t_su, ht_i, ht_s, zalb_cs, zalb_os ) ! cloud-sky and overcast-sky ice albedos
- SELECT CASE( kblk )
- CASE( jp_clio ) ! CLIO bulk formulation
- ! In CLIO the cloud fraction is read in the climatology and the all-sky albedo
- ! (alb_ice) is computed within the bulk routine
- CALL blk_ice_clio_flx( t_su, zalb_cs, zalb_os, alb_ice )
- IF( ln_mixcpl ) CALL sbc_cpl_ice_flx( p_frld=pfrld, palbi=alb_ice, psst=sst_m, pist=t_su )
- IF( nn_limflx /= 2 ) CALL ice_lim_flx( t_su, alb_ice, qns_ice, qsr_ice, dqns_ice, evap_ice, devap_ice, nn_limflx )
- CASE( jp_core ) ! CORE bulk formulation
- ! albedo depends on cloud fraction because of non-linear spectral effects
- alb_ice(:,:,:) = ( 1. - cldf_ice ) * zalb_cs(:,:,:) + cldf_ice * zalb_os(:,:,:)
- CALL blk_ice_core_flx( t_su, alb_ice )
- IF( ln_mixcpl ) CALL sbc_cpl_ice_flx( p_frld=pfrld, palbi=alb_ice, psst=sst_m, pist=t_su )
- IF( nn_limflx /= 2 ) CALL ice_lim_flx( t_su, alb_ice, qns_ice, qsr_ice, dqns_ice, evap_ice, devap_ice, nn_limflx )
- CASE ( jp_purecpl )
- ! albedo depends on cloud fraction because of non-linear spectral effects
- alb_ice(:,:,:) = ( 1. - cldf_ice ) * zalb_cs(:,:,:) + cldf_ice * zalb_os(:,:,:)
- CALL sbc_cpl_ice_flx( p_frld=pfrld, palbi=alb_ice, psst=sst_m, pist=t_su )
- IF( nn_limflx == 2 ) CALL ice_lim_flx( t_su, alb_ice, qns_ice, qsr_ice, dqns_ice, evap_ice, devap_ice, nn_limflx )
- END SELECT
- CALL wrk_dealloc( jpi,jpj,jpl, zalb_os, zalb_cs )
- !----------------------------!
- ! --- ice thermodynamics --- !
- !----------------------------!
- CALL lim_thd( kt ) ! Ice thermodynamics
- !
- CALL lim_update2( kt ) ! Corrections
- !
- CALL lim_sbc_flx( kt ) ! Update surface ocean mass, heat and salt fluxes
- !
- IF(ln_limdiaout) CALL lim_diahsb( kt ) ! Diagnostics and outputs
- !
- CALL lim_wri( 1 ) ! Ice outputs
- !
- IF( kt == nit000 .AND. ln_rstart ) &
- & CALL iom_close( numrir ) ! close input ice restart file
- !
- IF( lrst_ice ) CALL lim_rst_write( kt ) ! Ice restart file
- !
- IF( ln_icectl ) CALL lim_ctl( kt ) ! alerts in case of model crash
- !
- ENDIF ! End sea-ice time step only
- !-------------------------!
- ! --- Ocean time step --- !
- !-------------------------!
- ! Update surface ocean stresses (only in ice-dynamic case) otherwise the atm.-ocean stresses are used everywhere
- IF( ln_limdyn ) CALL lim_sbc_tau( kt, ub(:,:,1), vb(:,:,1) ) ! using before instantaneous surf. currents
- !!gm remark, the ocean-ice stress is not saved in ice diag call above ..... find a solution!!!
- !
- IF( nn_timing == 1 ) CALL timing_stop('sbc_ice_lim')
- !
- END SUBROUTINE sbc_ice_lim
-
- SUBROUTINE sbc_lim_init
- !!----------------------------------------------------------------------
- !! *** ROUTINE sbc_lim_init ***
- !!
- !! ** purpose : Allocate all the dynamic arrays of the LIM-3 modules
- !!----------------------------------------------------------------------
- INTEGER :: ierr
- INTEGER :: ji, jj
- !!----------------------------------------------------------------------
- IF(lwp) WRITE(numout,*)
- IF(lwp) WRITE(numout,*) 'sbc_ice_lim : update ocean surface boudary condition'
- IF(lwp) WRITE(numout,*) '~~~~~~~~~~~ via Louvain la Neuve Ice Model (LIM-3) time stepping'
- !
- ! Open the reference and configuration namelist files and namelist output file
- CALL ctl_opn( numnam_ice_ref, 'namelist_ice_ref', 'OLD', 'FORMATTED', 'SEQUENTIAL', -1, numout, lwp )
- CALL ctl_opn( numnam_ice_cfg, 'namelist_ice_cfg', 'OLD', 'FORMATTED', 'SEQUENTIAL', -1, numout, lwp )
- IF(lwm) CALL ctl_opn( numoni, 'output.namelist.ice', 'UNKNOWN', 'FORMATTED', 'SEQUENTIAL', -1, numout, lwp, 1 )
- CALL ice_run ! set some ice run parameters
- !
- ! ! Allocate the ice arrays
- ierr = ice_alloc () ! ice variables
- ierr = ierr + dom_ice_alloc () ! domain
- ierr = ierr + sbc_ice_alloc () ! surface forcing
- ierr = ierr + thd_ice_alloc () ! thermodynamics
- ierr = ierr + lim_itd_me_alloc () ! ice thickness distribution - mechanics
- !
- IF( lk_mpp ) CALL mpp_sum( ierr )
- IF( ierr /= 0 ) CALL ctl_stop('STOP', 'sbc_lim_init : unable to allocate ice arrays')
- !
- ! ! adequation jpk versus ice/snow layers/categories
- IF( jpl > jpk .OR. (nlay_i+1) > jpk .OR. nlay_s > jpk ) &
- & CALL ctl_stop( 'STOP', &
- & 'sbc_lim_init: the 3rd dimension of workspace arrays is too small.', &
- & 'use more ocean levels or less ice/snow layers/categories.' )
- !
- CALL lim_itd_init ! ice thickness distribution initialization
- !
- CALL lim_hdf_init ! set ice horizontal diffusion computation parameters
- !
- CALL lim_thd_init ! set ice thermodynics parameters
- !
- CALL lim_thd_sal_init ! set ice salinity parameters
- !
- CALL lim_msh ! ice mesh initialization
- !
- CALL lim_itd_me_init ! ice thickness distribution initialization for mecanical deformation
- ! ! Initial sea-ice state
- IF( .NOT. ln_rstart ) THEN ! start from rest: sea-ice deduced from sst
- numit = 0
- numit = nit000 - 1
- CALL lim_istate
- ELSE ! start from a restart file
- CALL lim_rst_read
- numit = nit000 - 1
- ENDIF
- CALL lim_var_agg(2)
- CALL lim_var_glo2eqv
- !
- CALL lim_sbc_init ! ice surface boundary condition
- !
- IF( ln_limdiaout) CALL lim_diahsb_init ! initialization for diags
- !
- fr_i(:,:) = at_i(:,:) ! initialisation of sea-ice fraction
- tn_ice(:,:,:) = t_su(:,:,:) ! initialisation of surface temp for coupled simu
- !
- DO jj = 1, jpj
- DO ji = 1, jpi
- IF( gphit(ji,jj) > 0._wp ) THEN ; rn_amax_2d(ji,jj) = rn_amax_n ! NH
- ELSE ; rn_amax_2d(ji,jj) = rn_amax_s ! SH
- ENDIF
- ENDDO
- ENDDO
- !
- nstart = numit + nn_fsbc
- nitrun = nitend - nit000 + 1
- nlast = numit + nitrun
- !
- IF( nstock == 0 ) nstock = nlast + 1
- !
- END SUBROUTINE sbc_lim_init
- SUBROUTINE ice_run
- !!-------------------------------------------------------------------
- !! *** ROUTINE ice_run ***
- !!
- !! ** Purpose : Definition some run parameter for ice model
- !!
- !! ** Method : Read the namicerun namelist and check the parameter
- !! values called at the first timestep (nit000)
- !!
- !! ** input : Namelist namicerun
- !!-------------------------------------------------------------------
- INTEGER :: ios ! Local integer output status for namelist read
- NAMELIST/namicerun/ jpl, nlay_i, nlay_s, cn_icerst_in, cn_icerst_indir, cn_icerst_out, cn_icerst_outdir, &
- & ln_limdyn, rn_amax_n, rn_amax_s, ln_limdiahsb, ln_limdiaout, ln_icectl, iiceprt, jiceprt
- !!-------------------------------------------------------------------
- !
- REWIND( numnam_ice_ref ) ! Namelist namicerun in reference namelist : Parameters for ice
- READ ( numnam_ice_ref, namicerun, IOSTAT = ios, ERR = 901)
- 901 IF( ios /= 0 ) CALL ctl_nam ( ios , 'namicerun in reference namelist', lwp )
- REWIND( numnam_ice_cfg ) ! Namelist namicerun in configuration namelist : Parameters for ice
- READ ( numnam_ice_cfg, namicerun, IOSTAT = ios, ERR = 902 )
- 902 IF( ios /= 0 ) CALL ctl_nam ( ios , 'namicerun in configuration namelist', lwp )
- IF(lwm) WRITE ( numoni, namicerun )
- !
- !
- IF(lwp) THEN ! control print
- WRITE(numout,*)
- WRITE(numout,*) 'ice_run : ice share parameters for dynamics/advection/thermo of sea-ice'
- WRITE(numout,*) ' ~~~~~~'
- WRITE(numout,*) ' number of ice categories = ', jpl
- WRITE(numout,*) ' number of ice layers = ', nlay_i
- WRITE(numout,*) ' number of snow layers = ', nlay_s
- WRITE(numout,*) ' switch for ice dynamics (1) or not (0) ln_limdyn = ', ln_limdyn
- WRITE(numout,*) ' maximum ice concentration for NH = ', rn_amax_n
- WRITE(numout,*) ' maximum ice concentration for SH = ', rn_amax_s
- WRITE(numout,*) ' Diagnose heat/salt budget or not ln_limdiahsb = ', ln_limdiahsb
- WRITE(numout,*) ' Output heat/salt budget or not ln_limdiaout = ', ln_limdiaout
- WRITE(numout,*) ' control prints in ocean.out for (i,j)=(iiceprt,jiceprt) = ', ln_icectl
- WRITE(numout,*) ' i-index for control prints (ln_icectl=true) = ', iiceprt
- WRITE(numout,*) ' j-index for control prints (ln_icectl=true) = ', jiceprt
- ENDIF
- !
- ! sea-ice timestep and inverse
- rdt_ice = nn_fsbc * rdttra(1)
- r1_rdtice = 1._wp / rdt_ice
- ! inverse of nlay_i and nlay_s
- r1_nlay_i = 1._wp / REAL( nlay_i, wp )
- r1_nlay_s = 1._wp / REAL( nlay_s, wp )
- !
- #if defined key_bdy
- IF( lwp .AND. ln_limdiahsb ) CALL ctl_warn('online conservation check activated but it does not work with BDY')
- #endif
- !
- END SUBROUTINE ice_run
- SUBROUTINE lim_itd_init
- !!------------------------------------------------------------------
- !! *** ROUTINE lim_itd_init ***
- !!
- !! ** Purpose : Initializes the ice thickness distribution
- !! ** Method : ...
- !! ** input : Namelist namiceitd
- !!-------------------------------------------------------------------
- INTEGER :: ios ! Local integer output status for namelist read
- NAMELIST/namiceitd/ nn_catbnd, rn_himean
- !
- INTEGER :: jl ! dummy loop index
- REAL(wp) :: zc1, zc2, zc3, zx1 ! local scalars
- REAL(wp) :: zhmax, znum, zden, zalpha !
- !!------------------------------------------------------------------
- !
- REWIND( numnam_ice_ref ) ! Namelist namiceitd in reference namelist : Parameters for ice
- READ ( numnam_ice_ref, namiceitd, IOSTAT = ios, ERR = 903)
- 903 IF( ios /= 0 ) CALL ctl_nam ( ios , 'namiceitd in reference namelist', lwp )
- REWIND( numnam_ice_cfg ) ! Namelist namiceitd in configuration namelist : Parameters for ice
- READ ( numnam_ice_cfg, namiceitd, IOSTAT = ios, ERR = 904 )
- 904 IF( ios /= 0 ) CALL ctl_nam ( ios , 'namiceitd in configuration namelist', lwp )
- IF(lwm) WRITE ( numoni, namiceitd )
- !
- !
- IF(lwp) THEN ! control print
- WRITE(numout,*)
- WRITE(numout,*) 'ice_itd : ice cat distribution'
- WRITE(numout,*) ' ~~~~~~'
- WRITE(numout,*) ' shape of ice categories distribution nn_catbnd = ', nn_catbnd
- WRITE(numout,*) ' mean ice thickness in the domain (only active if nn_catbnd=2) rn_himean = ', rn_himean
- ENDIF
- !----------------------------------
- !- Thickness categories boundaries
- !----------------------------------
- IF(lwp) WRITE(numout,*)
- IF(lwp) WRITE(numout,*) 'lim_itd_init : Initialization of ice cat distribution '
- IF(lwp) WRITE(numout,*) '~~~~~~~~~~~~'
- hi_max(:) = 0._wp
- SELECT CASE ( nn_catbnd )
- !----------------------
- CASE (1) ! tanh function (CICE)
- !----------------------
- zc1 = 3._wp / REAL( jpl, wp )
- zc2 = 10._wp * zc1
- zc3 = 3._wp
- DO jl = 1, jpl
- zx1 = REAL( jl-1, wp ) / REAL( jpl, wp )
- hi_max(jl) = hi_max(jl-1) + zc1 + zc2 * (1._wp + TANH( zc3 * (zx1 - 1._wp ) ) )
- END DO
- !----------------------
- CASE (2) ! h^(-alpha) function
- !----------------------
- zalpha = 0.05 ! exponent of the transform function
- zhmax = 3.*rn_himean
- DO jl = 1, jpl
- znum = jpl * ( zhmax+1 )**zalpha
- zden = ( jpl - jl ) * ( zhmax+1 )**zalpha + jl
- hi_max(jl) = ( znum / zden )**(1./zalpha) - 1
- END DO
- END SELECT
- DO jl = 1, jpl
- hi_mean(jl) = ( hi_max(jl) + hi_max(jl-1) ) * 0.5_wp
- END DO
- ! Set hi_max(jpl) to a big value to ensure that all ice is thinner than hi_max(jpl)
- hi_max(jpl) = 99._wp
- IF(lwp) WRITE(numout,*) ' Thickness category boundaries '
- IF(lwp) WRITE(numout,*) ' hi_max ', hi_max(0:jpl)
- !
- END SUBROUTINE lim_itd_init
-
- SUBROUTINE ice_lim_flx( ptn_ice, palb_ice, pqns_ice, pqsr_ice, pdqn_ice, pevap_ice, pdevap_ice, k_limflx )
- !!---------------------------------------------------------------------
- !! *** ROUTINE ice_lim_flx ***
- !!
- !! ** Purpose : update the ice surface boundary condition by averaging and / or
- !! redistributing fluxes on ice categories
- !!
- !! ** Method : average then redistribute
- !!
- !! ** Action :
- !!---------------------------------------------------------------------
- INTEGER , INTENT(in ) :: k_limflx ! =-1 do nothing; =0 average ;
- ! =1 average and redistribute ; =2 redistribute
- REAL(wp), DIMENSION(:,:,:), INTENT(in ) :: ptn_ice ! ice surface temperature
- REAL(wp), DIMENSION(:,:,:), INTENT(in ) :: palb_ice ! ice albedo
- REAL(wp), DIMENSION(:,:,:), INTENT(inout) :: pqns_ice ! non solar flux
- REAL(wp), DIMENSION(:,:,:), INTENT(inout) :: pqsr_ice ! net solar flux
- REAL(wp), DIMENSION(:,:,:), INTENT(inout) :: pdqn_ice ! non solar flux sensitivity
- REAL(wp), DIMENSION(:,:,:), INTENT(inout) :: pevap_ice ! sublimation
- REAL(wp), DIMENSION(:,:,:), INTENT(inout) :: pdevap_ice ! sublimation sensitivity
- !
- INTEGER :: jl ! dummy loop index
- !
- REAL(wp), POINTER, DIMENSION(:,:) :: zalb_m ! Mean albedo over all categories
- REAL(wp), POINTER, DIMENSION(:,:) :: ztem_m ! Mean temperature over all categories
- !
- REAL(wp), POINTER, DIMENSION(:,:) :: z_qsr_m ! Mean solar heat flux over all categories
- REAL(wp), POINTER, DIMENSION(:,:) :: z_qns_m ! Mean non solar heat flux over all categories
- REAL(wp), POINTER, DIMENSION(:,:) :: z_evap_m ! Mean sublimation over all categories
- REAL(wp), POINTER, DIMENSION(:,:) :: z_dqn_m ! Mean d(qns)/dT over all categories
- REAL(wp), POINTER, DIMENSION(:,:) :: z_devap_m ! Mean d(evap)/dT over all categories
- !!----------------------------------------------------------------------
- IF( nn_timing == 1 ) CALL timing_start('ice_lim_flx')
- !
- !
- SELECT CASE( k_limflx ) !== averaged on all ice categories ==!
- CASE( 0 , 1 )
- CALL wrk_alloc( jpi,jpj, z_qsr_m, z_qns_m, z_evap_m, z_dqn_m, z_devap_m)
- !
- z_qns_m (:,:) = fice_ice_ave ( pqns_ice (:,:,:) )
- z_qsr_m (:,:) = fice_ice_ave ( pqsr_ice (:,:,:) )
- z_dqn_m (:,:) = fice_ice_ave ( pdqn_ice (:,:,:) )
- z_evap_m (:,:) = fice_ice_ave ( pevap_ice (:,:,:) )
- z_devap_m(:,:) = fice_ice_ave ( pdevap_ice (:,:,:) )
- DO jl = 1, jpl
- pdqn_ice (:,:,jl) = z_dqn_m(:,:)
- pdevap_ice(:,:,jl) = z_devap_m(:,:)
- END DO
- !
- DO jl = 1, jpl
- pqns_ice (:,:,jl) = z_qns_m(:,:)
- pqsr_ice (:,:,jl) = z_qsr_m(:,:)
- pevap_ice(:,:,jl) = z_evap_m(:,:)
- END DO
- !
- CALL wrk_dealloc( jpi,jpj, z_qsr_m, z_qns_m, z_evap_m, z_dqn_m, z_devap_m)
- END SELECT
- SELECT CASE( k_limflx ) !== redistribution on all ice categories ==!
- CASE( 1 , 2 )
- CALL wrk_alloc( jpi,jpj, zalb_m, ztem_m )
- !
- zalb_m(:,:) = fice_ice_ave ( palb_ice (:,:,:) )
- ztem_m(:,:) = fice_ice_ave ( ptn_ice (:,:,:) )
- DO jl = 1, jpl
- pqns_ice (:,:,jl) = pqns_ice (:,:,jl) + pdqn_ice (:,:,jl) * ( ptn_ice(:,:,jl) - ztem_m(:,:) )
- pevap_ice(:,:,jl) = pevap_ice(:,:,jl) + pdevap_ice(:,:,jl) * ( ptn_ice(:,:,jl) - ztem_m(:,:) )
- pqsr_ice (:,:,jl) = pqsr_ice (:,:,jl) * ( 1._wp - palb_ice(:,:,jl) ) / ( 1._wp - zalb_m(:,:) )
- END DO
- !
- CALL wrk_dealloc( jpi,jpj, zalb_m, ztem_m )
- END SELECT
- !
- IF( nn_timing == 1 ) CALL timing_stop('ice_lim_flx')
- !
- END SUBROUTINE ice_lim_flx
- SUBROUTINE sbc_lim_bef
- !!----------------------------------------------------------------------
- !! *** ROUTINE sbc_lim_bef ***
- !!
- !! ** purpose : store ice variables at "before" time step
- !!----------------------------------------------------------------------
- a_i_b (:,:,:) = a_i (:,:,:) ! ice area
- e_i_b (:,:,:,:) = e_i (:,:,:,:) ! ice thermal energy
- v_i_b (:,:,:) = v_i (:,:,:) ! ice volume
- v_s_b (:,:,:) = v_s (:,:,:) ! snow volume
- e_s_b (:,:,:,:) = e_s (:,:,:,:) ! snow thermal energy
- smv_i_b(:,:,:) = smv_i(:,:,:) ! salt content
- oa_i_b (:,:,:) = oa_i (:,:,:) ! areal age content
- u_ice_b(:,:) = u_ice(:,:)
- v_ice_b(:,:) = v_ice(:,:)
-
- END SUBROUTINE sbc_lim_bef
- SUBROUTINE sbc_lim_diag0
- !!----------------------------------------------------------------------
- !! *** ROUTINE sbc_lim_diag0 ***
- !!
- !! ** purpose : set ice-ocean and ice-atm. fluxes to zeros at the beggining
- !! of the time step
- !!----------------------------------------------------------------------
- sfx (:,:) = 0._wp ;
- sfx_bri(:,:) = 0._wp ;
- sfx_sni(:,:) = 0._wp ; sfx_opw(:,:) = 0._wp
- sfx_bog(:,:) = 0._wp ; sfx_dyn(:,:) = 0._wp
- sfx_bom(:,:) = 0._wp ; sfx_sum(:,:) = 0._wp
- sfx_res(:,:) = 0._wp ; sfx_sub(:,:) = 0._wp
-
- wfx_snw(:,:) = 0._wp ; wfx_ice(:,:) = 0._wp
- wfx_sni(:,:) = 0._wp ; wfx_opw(:,:) = 0._wp
- wfx_bog(:,:) = 0._wp ; wfx_dyn(:,:) = 0._wp
- wfx_bom(:,:) = 0._wp ; wfx_sum(:,:) = 0._wp
- wfx_res(:,:) = 0._wp ; wfx_sub(:,:) = 0._wp
- wfx_spr(:,:) = 0._wp ;
- wfx_snw_dyn(:,:) = 0._wp ; wfx_snw_sum(:,:) = 0._wp
- wfx_snw_sub(:,:) = 0._wp ; wfx_ice_sub(:,:) = 0._wp
-
- hfx_thd(:,:) = 0._wp ;
- hfx_snw(:,:) = 0._wp ; hfx_opw(:,:) = 0._wp
- hfx_bog(:,:) = 0._wp ; hfx_dyn(:,:) = 0._wp
- hfx_bom(:,:) = 0._wp ; hfx_sum(:,:) = 0._wp
- hfx_res(:,:) = 0._wp ; hfx_sub(:,:) = 0._wp
- hfx_spr(:,:) = 0._wp ; hfx_dif(:,:) = 0._wp
- hfx_err(:,:) = 0._wp ; hfx_err_rem(:,:) = 0._wp
- hfx_err_dif(:,:) = 0._wp
- wfx_err_sub(:,:) = 0._wp
-
- afx_tot(:,:) = 0._wp ;
- afx_dyn(:,:) = 0._wp ; afx_thd(:,:) = 0._wp
- diag_heat(:,:) = 0._wp ; diag_smvi(:,:) = 0._wp ;
- diag_vice(:,:) = 0._wp ; diag_vsnw(:,:) = 0._wp ;
- ! SIMIP diagnostics
- diag_dms_dyn(:,:) = 0._wp ; diag_dmi_dyn(:,:) = 0._wp
- diag_fc_bo(:,:) = 0._wp ; diag_fc_su(:,:) = 0._wp
-
- END SUBROUTINE sbc_lim_diag0
-
- FUNCTION fice_cell_ave ( ptab )
- !!--------------------------------------------------------------------------
- !! * Compute average over categories, for grid cell (ice covered and free ocean)
- !!--------------------------------------------------------------------------
- REAL (wp), DIMENSION (jpi,jpj) :: fice_cell_ave
- REAL (wp), DIMENSION (jpi,jpj,jpl), INTENT (in) :: ptab
- INTEGER :: jl ! Dummy loop index
-
- fice_cell_ave (:,:) = 0.0_wp
- DO jl = 1, jpl
- fice_cell_ave (:,:) = fice_cell_ave (:,:) + a_i (:,:,jl) * ptab (:,:,jl)
- END DO
-
- END FUNCTION fice_cell_ave
-
-
- FUNCTION fice_ice_ave ( ptab )
- !!--------------------------------------------------------------------------
- !! * Compute average over categories, for ice covered part of grid cell
- !!--------------------------------------------------------------------------
- REAL (kind=wp), DIMENSION (jpi,jpj) :: fice_ice_ave
- REAL (kind=wp), DIMENSION (jpi,jpj,jpl), INTENT(in) :: ptab
- fice_ice_ave (:,:) = 0.0_wp
- WHERE ( at_i (:,:) > 0.0_wp ) fice_ice_ave (:,:) = fice_cell_ave ( ptab (:,:,:)) / at_i (:,:)
- END FUNCTION fice_ice_ave
- #else
- !!----------------------------------------------------------------------
- !! Default option Dummy module NO LIM 3.0 sea-ice model
- !!----------------------------------------------------------------------
- CONTAINS
- SUBROUTINE sbc_ice_lim ( kt, kblk ) ! Dummy routine
- INTEGER, INTENT(in) :: kt, kblk
- WRITE(*,*) 'sbc_ice_lim: You should not have seen this print! error?', kt, kblk
- END SUBROUTINE sbc_ice_lim
- SUBROUTINE sbc_lim_init ! Dummy routine
- END SUBROUTINE sbc_lim_init
- #endif
- !!======================================================================
- END MODULE sbcice_lim
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