[8586] | 1 | MODULE icedyn_adv_pra |
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| 2 | !!====================================================================== |
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| 3 | !! *** MODULE icedyn_adv_pra *** |
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| 4 | !! sea-ice : advection => Prather scheme |
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| 5 | !!====================================================================== |
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[9656] | 6 | !! History : ! 2008-03 (M. Vancoppenolle) original code |
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[9604] | 7 | !! 4.0 ! 2018 (many people) SI3 [aka Sea Ice cube] |
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[8586] | 8 | !!-------------------------------------------------------------------- |
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[9570] | 9 | #if defined key_si3 |
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[8586] | 10 | !!---------------------------------------------------------------------- |
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[9570] | 11 | !! 'key_si3' SI3 sea-ice model |
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[8586] | 12 | !!---------------------------------------------------------------------- |
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[8817] | 13 | !! ice_dyn_adv_pra : advection of sea ice using Prather scheme |
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| 14 | !! adv_x, adv_y : Prather scheme applied in i- and j-direction, resp. |
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| 15 | !! adv_pra_init : initialisation of the Prather scheme |
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| 16 | !! adv_pra_rst : read/write Prather field in ice restart file, or initialized to zero |
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[8586] | 17 | !!---------------------------------------------------------------------- |
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| 18 | USE dom_oce ! ocean domain |
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| 19 | USE ice ! sea-ice variables |
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| 20 | USE sbc_oce , ONLY : nn_fsbc ! frequency of sea-ice call |
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[11692] | 21 | USE icevar ! sea-ice: operations |
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[8586] | 22 | ! |
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| 23 | USE in_out_manager ! I/O manager |
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| 24 | USE iom ! I/O manager library |
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| 25 | USE lib_mpp ! MPP library |
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| 26 | USE lib_fortran ! fortran utilities (glob_sum + no signed zero) |
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| 27 | USE lbclnk ! lateral boundary conditions (or mpp links) |
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| 28 | |
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| 29 | IMPLICIT NONE |
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| 30 | PRIVATE |
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| 31 | |
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| 32 | PUBLIC ice_dyn_adv_pra ! called by icedyn_adv |
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| 33 | PUBLIC adv_pra_init ! called by icedyn_adv |
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| 34 | |
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| 35 | ! Moments for advection |
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| 36 | REAL(wp), ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: sxice, syice, sxxice, syyice, sxyice ! ice thickness |
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| 37 | REAL(wp), ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: sxsn , sysn , sxxsn , syysn , sxysn ! snow thickness |
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[11692] | 38 | REAL(wp), ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: sxa , sya , sxxa , syya , sxya ! ice concentration |
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[8586] | 39 | REAL(wp), ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: sxsal, sysal, sxxsal, syysal, sxysal ! ice salinity |
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| 40 | REAL(wp), ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: sxage, syage, sxxage, syyage, sxyage ! ice age |
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[11692] | 41 | REAL(wp), ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: sxopw, syopw, sxxopw, syyopw, sxyopw ! open water in sea ice |
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[9271] | 42 | REAL(wp), ALLOCATABLE, SAVE, DIMENSION(:,:,:,:) :: sxc0 , syc0 , sxxc0 , syyc0 , sxyc0 ! snow layers heat content |
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[8817] | 43 | REAL(wp), ALLOCATABLE, SAVE, DIMENSION(:,:,:,:) :: sxe , sye , sxxe , syye , sxye ! ice layers heat content |
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[8586] | 44 | REAL(wp), ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: sxap , syap , sxxap , syyap , sxyap ! melt pond fraction |
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| 45 | REAL(wp), ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: sxvp , syvp , sxxvp , syyvp , sxyvp ! melt pond volume |
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[8817] | 46 | |
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[8586] | 47 | !! * Substitutions |
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| 48 | # include "vectopt_loop_substitute.h90" |
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| 49 | !!---------------------------------------------------------------------- |
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[9598] | 50 | !! NEMO/ICE 4.0 , NEMO Consortium (2018) |
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[10069] | 51 | !! $Id$ |
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[10068] | 52 | !! Software governed by the CeCILL license (see ./LICENSE) |
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[8586] | 53 | !!---------------------------------------------------------------------- |
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| 54 | CONTAINS |
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| 55 | |
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| 56 | SUBROUTINE ice_dyn_adv_pra( kt, pu_ice, pv_ice, & |
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| 57 | & pato_i, pv_i, pv_s, psv_i, poa_i, pa_i, pa_ip, pv_ip, pe_s, pe_i ) |
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| 58 | !!---------------------------------------------------------------------- |
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| 59 | !! ** routine ice_dyn_adv_pra ** |
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| 60 | !! |
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| 61 | !! ** purpose : Computes and adds the advection trend to sea-ice |
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| 62 | !! |
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| 63 | !! ** method : Uses Prather second order scheme that advects tracers |
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| 64 | !! but also their quadratic forms. The method preserves |
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| 65 | !! tracer structures by conserving second order moments. |
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| 66 | !! |
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| 67 | !! Reference: Prather, 1986, JGR, 91, D6. 6671-6681. |
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| 68 | !!---------------------------------------------------------------------- |
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| 69 | INTEGER , INTENT(in ) :: kt ! time step |
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| 70 | REAL(wp), DIMENSION(:,:) , INTENT(in ) :: pu_ice ! ice i-velocity |
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| 71 | REAL(wp), DIMENSION(:,:) , INTENT(in ) :: pv_ice ! ice j-velocity |
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| 72 | REAL(wp), DIMENSION(:,:) , INTENT(inout) :: pato_i ! open water area |
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| 73 | REAL(wp), DIMENSION(:,:,:) , INTENT(inout) :: pv_i ! ice volume |
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| 74 | REAL(wp), DIMENSION(:,:,:) , INTENT(inout) :: pv_s ! snw volume |
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| 75 | REAL(wp), DIMENSION(:,:,:) , INTENT(inout) :: psv_i ! salt content |
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| 76 | REAL(wp), DIMENSION(:,:,:) , INTENT(inout) :: poa_i ! age content |
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| 77 | REAL(wp), DIMENSION(:,:,:) , INTENT(inout) :: pa_i ! ice concentration |
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| 78 | REAL(wp), DIMENSION(:,:,:) , INTENT(inout) :: pa_ip ! melt pond fraction |
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| 79 | REAL(wp), DIMENSION(:,:,:) , INTENT(inout) :: pv_ip ! melt pond volume |
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| 80 | REAL(wp), DIMENSION(:,:,:,:), INTENT(inout) :: pe_s ! snw heat content |
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| 81 | REAL(wp), DIMENSION(:,:,:,:), INTENT(inout) :: pe_i ! ice heat content |
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| 82 | ! |
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| 83 | INTEGER :: jk, jl, jt ! dummy loop indices |
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[11692] | 84 | INTEGER :: icycle ! number of sub-timestep for the advection |
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| 85 | REAL(wp) :: zdt ! - - |
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| 86 | REAL(wp), DIMENSION(1) :: zcflprv, zcflnow ! for global communication |
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| 87 | REAL(wp), DIMENSION(jpi,jpj,jpl) :: zarea |
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| 88 | REAL(wp), DIMENSION(jpi,jpj,1) :: z0opw |
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| 89 | REAL(wp), DIMENSION(jpi,jpj,jpl) :: z0ice, z0snw, z0ai, z0smi, z0oi |
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| 90 | REAL(wp), DIMENSION(jpi,jpj,jpl) :: z0ap , z0vp |
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| 91 | REAL(wp), DIMENSION(jpi,jpj,nlay_s,jpl) :: z0es |
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| 92 | REAL(wp), DIMENSION(jpi,jpj,nlay_i,jpl) :: z0ei |
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[8586] | 93 | !!---------------------------------------------------------------------- |
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| 94 | ! |
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| 95 | IF( kt == nit000 .AND. lwp ) WRITE(numout,*) '-- ice_dyn_adv_pra: Prather advection scheme' |
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| 96 | ! |
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[11692] | 97 | ! --- If ice drift is too fast, use subtime steps for advection (CFL test for stability) --- ! |
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| 98 | ! Note: the advection split is applied at the next time-step in order to avoid blocking global comm. |
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| 99 | ! this should not affect too much the stability |
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| 100 | zcflnow(1) = MAXVAL( ABS( pu_ice(:,:) ) * rdt_ice * r1_e1u(:,:) ) |
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| 101 | zcflnow(1) = MAX( zcflnow(1), MAXVAL( ABS( pv_ice(:,:) ) * rdt_ice * r1_e2v(:,:) ) ) |
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[8586] | 102 | |
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[11692] | 103 | ! non-blocking global communication send zcflnow and receive zcflprv |
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| 104 | CALL mpp_delay_max( 'icedyn_adv_pra', 'cflice', zcflnow(:), zcflprv(:), kt == nitend - nn_fsbc + 1 ) |
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| 105 | |
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| 106 | IF( zcflprv(1) > .5 ) THEN ; icycle = 2 |
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| 107 | ELSE ; icycle = 1 |
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[8586] | 108 | ENDIF |
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[11692] | 109 | zdt = rdt_ice / REAL(icycle) |
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[8586] | 110 | |
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| 111 | !------------------------- |
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| 112 | ! transported fields |
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| 113 | !------------------------- |
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| 114 | z0opw(:,:,1) = pato_i(:,:) * e1e2t(:,:) ! Open water area |
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| 115 | DO jl = 1, jpl |
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[11692] | 116 | zarea(:,:,jl) = e1e2t(:,:) |
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| 117 | z0snw(:,:,jl) = pv_s (:,:,jl) * e1e2t(:,:) ! Snow volume |
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| 118 | z0ice(:,:,jl) = pv_i (:,:,jl) * e1e2t(:,:) ! Ice volume |
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| 119 | z0ai (:,:,jl) = pa_i (:,:,jl) * e1e2t(:,:) ! Ice area |
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| 120 | z0smi(:,:,jl) = psv_i(:,:,jl) * e1e2t(:,:) ! Salt content |
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| 121 | z0oi (:,:,jl) = poa_i(:,:,jl) * e1e2t(:,:) ! Age content |
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[9271] | 122 | DO jk = 1, nlay_s |
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| 123 | z0es(:,:,jk,jl) = pe_s(:,:,jk,jl) * e1e2t(:,:) ! Snow heat content |
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| 124 | END DO |
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[8586] | 125 | DO jk = 1, nlay_i |
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| 126 | z0ei(:,:,jk,jl) = pe_i(:,:,jk,jl) * e1e2t(:,:) ! Ice heat content |
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| 127 | END DO |
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[8637] | 128 | IF ( ln_pnd_H12 ) THEN |
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[8586] | 129 | z0ap(:,:,jl) = pa_ip(:,:,jl) * e1e2t(:,:) ! Melt pond fraction |
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| 130 | z0vp(:,:,jl) = pv_ip(:,:,jl) * e1e2t(:,:) ! Melt pond volume |
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| 131 | ENDIF |
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| 132 | END DO |
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| 133 | |
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| 134 | ! !--------------------------------------------! |
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| 135 | IF( MOD( ( kt - 1) / nn_fsbc , 2 ) == 0 ) THEN !== odd ice time step: adv_x then adv_y ==! |
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| 136 | ! !--------------------------------------------! |
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[11692] | 137 | DO jt = 1, icycle |
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| 138 | CALL adv_x( zdt , pu_ice , 1._wp , zarea , z0opw , sxopw , sxxopw , syopw , syyopw , sxyopw ) !--- open water |
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| 139 | CALL adv_y( zdt , pv_ice , 0._wp , zarea , z0opw , sxopw , sxxopw , syopw , syyopw , sxyopw ) |
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| 140 | CALL adv_x( zdt , pu_ice , 1._wp , zarea , z0ice , sxice , sxxice , syice , syyice , sxyice ) !--- ice volume |
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| 141 | CALL adv_y( zdt , pv_ice , 0._wp , zarea , z0ice , sxice , sxxice , syice , syyice , sxyice ) |
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| 142 | CALL adv_x( zdt , pu_ice , 1._wp , zarea , z0snw , sxsn , sxxsn , sysn , syysn , sxysn ) !--- snow volume |
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| 143 | CALL adv_y( zdt , pv_ice , 0._wp , zarea , z0snw , sxsn , sxxsn , sysn , syysn , sxysn ) |
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| 144 | CALL adv_x( zdt , pu_ice , 1._wp , zarea , z0smi , sxsal , sxxsal , sysal , syysal , sxysal ) !--- ice salinity |
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| 145 | CALL adv_y( zdt , pv_ice , 0._wp , zarea , z0smi , sxsal , sxxsal , sysal , syysal , sxysal ) |
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| 146 | CALL adv_x( zdt , pu_ice , 1._wp , zarea , z0ai , sxa , sxxa , sya , syya , sxya ) !--- ice concentration |
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| 147 | CALL adv_y( zdt , pv_ice , 0._wp , zarea , z0ai , sxa , sxxa , sya , syya , sxya ) |
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| 148 | CALL adv_x( zdt , pu_ice , 1._wp , zarea , z0oi , sxage , sxxage , syage , syyage , sxyage ) !--- ice age |
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| 149 | CALL adv_y( zdt , pv_ice , 0._wp , zarea , z0oi , sxage , sxxage , syage , syyage , sxyage ) |
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| 150 | ! |
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| 151 | DO jk = 1, nlay_s !--- snow heat content |
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| 152 | CALL adv_x( zdt, pu_ice, 1._wp, zarea, z0es (:,:,jk,:), sxc0(:,:,jk,:), & |
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| 153 | & sxxc0(:,:,jk,:), syc0(:,:,jk,:), syyc0(:,:,jk,:), sxyc0(:,:,jk,:) ) |
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| 154 | CALL adv_y( zdt, pv_ice, 0._wp, zarea, z0es (:,:,jk,:), sxc0(:,:,jk,:), & |
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| 155 | & sxxc0(:,:,jk,:), syc0(:,:,jk,:), syyc0(:,:,jk,:), sxyc0(:,:,jk,:) ) |
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[8586] | 156 | END DO |
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[11692] | 157 | DO jk = 1, nlay_i !--- ice heat content |
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| 158 | CALL adv_x( zdt, pu_ice, 1._wp, zarea, z0ei(:,:,jk,:), sxe(:,:,jk,:), & |
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| 159 | & sxxe(:,:,jk,:), sye(:,:,jk,:), syye(:,:,jk,:), sxye(:,:,jk,:) ) |
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| 160 | CALL adv_y( zdt, pv_ice, 0._wp, zarea, z0ei(:,:,jk,:), sxe(:,:,jk,:), & |
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| 161 | & sxxe(:,:,jk,:), sye(:,:,jk,:), syye(:,:,jk,:), sxye(:,:,jk,:) ) |
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| 162 | END DO |
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| 163 | ! |
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| 164 | IF ( ln_pnd_H12 ) THEN |
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| 165 | CALL adv_x( zdt , pu_ice , 1._wp , zarea , z0ap , sxap , sxxap , syap , syyap , sxyap ) !--- melt pond fraction |
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| 166 | CALL adv_y( zdt , pv_ice , 0._wp , zarea , z0ap , sxap , sxxap , syap , syyap , sxyap ) |
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| 167 | CALL adv_x( zdt , pu_ice , 1._wp , zarea , z0vp , sxvp , sxxvp , syvp , syyvp , sxyvp ) !--- melt pond volume |
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| 168 | CALL adv_y( zdt , pv_ice , 0._wp , zarea , z0vp , sxvp , sxxvp , syvp , syyvp , sxyvp ) |
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| 169 | ENDIF |
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[8586] | 170 | END DO |
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| 171 | ! !--------------------------------------------! |
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| 172 | ELSE !== even ice time step: adv_y then adv_x ==! |
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| 173 | ! !--------------------------------------------! |
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[11692] | 174 | DO jt = 1, icycle |
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| 175 | CALL adv_y( zdt , pv_ice , 1._wp , zarea , z0opw , sxopw , sxxopw , syopw , syyopw , sxyopw ) !--- open water |
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| 176 | CALL adv_x( zdt , pu_ice , 0._wp , zarea , z0opw , sxopw , sxxopw , syopw , syyopw , sxyopw ) |
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| 177 | CALL adv_y( zdt , pv_ice , 1._wp , zarea , z0ice , sxice , sxxice , syice , syyice , sxyice ) !--- ice volume |
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| 178 | CALL adv_x( zdt , pu_ice , 0._wp , zarea , z0ice , sxice , sxxice , syice , syyice , sxyice ) |
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| 179 | CALL adv_y( zdt , pv_ice , 1._wp , zarea , z0snw , sxsn , sxxsn , sysn , syysn , sxysn ) !--- snow volume |
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| 180 | CALL adv_x( zdt , pu_ice , 0._wp , zarea , z0snw , sxsn , sxxsn , sysn , syysn , sxysn ) |
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| 181 | CALL adv_y( zdt , pv_ice , 1._wp , zarea , z0smi , sxsal , sxxsal , sysal , syysal , sxysal ) !--- ice salinity |
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| 182 | CALL adv_x( zdt , pu_ice , 0._wp , zarea , z0smi , sxsal , sxxsal , sysal , syysal , sxysal ) |
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| 183 | CALL adv_y( zdt , pv_ice , 1._wp , zarea , z0ai , sxa , sxxa , sya , syya , sxya ) !--- ice concentration |
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| 184 | CALL adv_x( zdt , pu_ice , 0._wp , zarea , z0ai , sxa , sxxa , sya , syya , sxya ) |
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| 185 | CALL adv_y( zdt , pv_ice , 1._wp , zarea , z0oi , sxage , sxxage , syage , syyage , sxyage ) !--- ice age |
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| 186 | CALL adv_x( zdt , pu_ice , 0._wp , zarea , z0oi , sxage , sxxage , syage , syyage , sxyage ) |
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| 187 | DO jk = 1, nlay_s !--- snow heat content |
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| 188 | CALL adv_y( zdt, pv_ice, 1._wp, zarea, z0es (:,:,jk,:), sxc0(:,:,jk,:), & |
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| 189 | & sxxc0(:,:,jk,:), syc0(:,:,jk,:), syyc0(:,:,jk,:), sxyc0(:,:,jk,:) ) |
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| 190 | CALL adv_x( zdt, pu_ice, 0._wp, zarea, z0es (:,:,jk,:), sxc0(:,:,jk,:), & |
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| 191 | & sxxc0(:,:,jk,:), syc0(:,:,jk,:), syyc0(:,:,jk,:), sxyc0(:,:,jk,:) ) |
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[8586] | 192 | END DO |
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[11692] | 193 | DO jk = 1, nlay_i !--- ice heat content |
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| 194 | CALL adv_y( zdt, pv_ice, 1._wp, zarea, z0ei(:,:,jk,:), sxe(:,:,jk,:), & |
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| 195 | & sxxe(:,:,jk,:), sye(:,:,jk,:), syye(:,:,jk,:), sxye(:,:,jk,:) ) |
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| 196 | CALL adv_x( zdt, pu_ice, 0._wp, zarea, z0ei(:,:,jk,:), sxe(:,:,jk,:), & |
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| 197 | & sxxe(:,:,jk,:), sye(:,:,jk,:), syye(:,:,jk,:), sxye(:,:,jk,:) ) |
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| 198 | END DO |
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| 199 | IF ( ln_pnd_H12 ) THEN |
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| 200 | CALL adv_y( zdt , pv_ice , 1._wp , zarea , z0ap , sxap , sxxap , syap , syyap , sxyap ) !--- melt pond fraction |
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| 201 | CALL adv_x( zdt , pu_ice , 0._wp , zarea , z0ap , sxap , sxxap , syap , syyap , sxyap ) |
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| 202 | CALL adv_y( zdt , pv_ice , 1._wp , zarea , z0vp , sxvp , sxxvp , syvp , syyvp , sxyvp ) !--- melt pond volume |
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| 203 | CALL adv_x( zdt , pu_ice , 0._wp , zarea , z0vp , sxvp , sxxvp , syvp , syyvp , sxyvp ) |
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| 204 | ENDIF |
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[8586] | 205 | END DO |
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| 206 | ENDIF |
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| 207 | |
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| 208 | !------------------------------------------- |
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| 209 | ! Recover the properties from their contents |
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| 210 | !------------------------------------------- |
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[9882] | 211 | pato_i(:,:) = z0opw(:,:,1) * r1_e1e2t(:,:) * tmask(:,:,1) |
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[8586] | 212 | DO jl = 1, jpl |
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[11692] | 213 | pv_i (:,:,jl) = z0ice(:,:,jl) * r1_e1e2t(:,:) * tmask(:,:,1) |
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| 214 | pv_s (:,:,jl) = z0snw(:,:,jl) * r1_e1e2t(:,:) * tmask(:,:,1) |
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| 215 | psv_i(:,:,jl) = z0smi(:,:,jl) * r1_e1e2t(:,:) * tmask(:,:,1) |
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| 216 | poa_i(:,:,jl) = z0oi (:,:,jl) * r1_e1e2t(:,:) * tmask(:,:,1) |
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| 217 | pa_i (:,:,jl) = z0ai (:,:,jl) * r1_e1e2t(:,:) * tmask(:,:,1) |
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[9271] | 218 | DO jk = 1, nlay_s |
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[9882] | 219 | pe_s(:,:,jk,jl) = z0es(:,:,jk,jl) * r1_e1e2t(:,:) * tmask(:,:,1) |
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[9271] | 220 | END DO |
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[8586] | 221 | DO jk = 1, nlay_i |
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[9882] | 222 | pe_i(:,:,jk,jl) = z0ei(:,:,jk,jl) * r1_e1e2t(:,:) * tmask(:,:,1) |
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[8586] | 223 | END DO |
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[8637] | 224 | IF ( ln_pnd_H12 ) THEN |
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[11692] | 225 | pa_ip(:,:,jl) = z0ap(:,:,jl) * r1_e1e2t(:,:) * tmask(:,:,1) |
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| 226 | pv_ip(:,:,jl) = z0vp(:,:,jl) * r1_e1e2t(:,:) * tmask(:,:,1) |
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[8586] | 227 | ENDIF |
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| 228 | END DO |
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| 229 | ! |
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[11692] | 230 | ! --- Ensure non-negative fields --- ! |
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| 231 | ! Remove negative values (conservation is ensured) |
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| 232 | ! (because advected fields are not perfectly bounded and tiny negative values can occur, e.g. -1.e-20) |
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| 233 | CALL ice_var_zapneg( zdt, pato_i, pv_i, pv_s, psv_i, poa_i, pa_i, pa_ip, pv_ip, pe_s, pe_i ) |
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[8586] | 234 | ! |
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[11692] | 235 | ! --- Ensure snow load is not too big --- ! |
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| 236 | CALL Hsnow( zdt, pv_i, pv_s, pa_i, pa_ip, pe_s ) |
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| 237 | ! |
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[8586] | 238 | IF( lrst_ice ) CALL adv_pra_rst( 'WRITE', kt ) !* write Prather fields in the restart file |
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| 239 | ! |
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| 240 | END SUBROUTINE ice_dyn_adv_pra |
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| 241 | |
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[8817] | 242 | |
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[11692] | 243 | SUBROUTINE adv_x( pdt, put , pcrh, psm , ps0 , & |
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[8586] | 244 | & psx, psxx, psy , psyy, psxy ) |
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| 245 | !!---------------------------------------------------------------------- |
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| 246 | !! ** routine adv_x ** |
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| 247 | !! |
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| 248 | !! ** purpose : Computes and adds the advection trend to sea-ice |
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| 249 | !! variable on x axis |
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| 250 | !!---------------------------------------------------------------------- |
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[11692] | 251 | REAL(wp) , INTENT(in ) :: pdt ! the time step |
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| 252 | REAL(wp) , INTENT(in ) :: pcrh ! call adv_x then adv_y (=1) or the opposite (=0) |
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| 253 | REAL(wp), DIMENSION(:,:) , INTENT(in ) :: put ! i-direction ice velocity at U-point [m/s] |
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| 254 | REAL(wp), DIMENSION(:,:,:), INTENT(inout) :: psm ! area |
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| 255 | REAL(wp), DIMENSION(:,:,:), INTENT(inout) :: ps0 ! field to be advected |
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| 256 | REAL(wp), DIMENSION(:,:,:), INTENT(inout) :: psx , psy ! 1st moments |
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| 257 | REAL(wp), DIMENSION(:,:,:), INTENT(inout) :: psxx, psyy, psxy ! 2nd moments |
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[8586] | 258 | !! |
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[11692] | 259 | INTEGER :: ji, jj, jl, jcat ! dummy loop indices |
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| 260 | REAL(wp) :: zs1max, zslpmax, ztemp ! local scalars |
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[8586] | 261 | REAL(wp) :: zs1new, zalf , zalfq , zbt ! - - |
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| 262 | REAL(wp) :: zs2new, zalf1, zalf1q, zbt1 ! - - |
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| 263 | REAL(wp), DIMENSION(jpi,jpj) :: zf0 , zfx , zfy , zbet ! 2D workspace |
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| 264 | REAL(wp), DIMENSION(jpi,jpj) :: zfm , zfxx , zfyy , zfxy ! - - |
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| 265 | REAL(wp), DIMENSION(jpi,jpj) :: zalg, zalg1, zalg1q ! - - |
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| 266 | !----------------------------------------------------------------------- |
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[11692] | 267 | ! |
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| 268 | jcat = SIZE( ps0 , 3 ) ! size of input arrays |
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| 269 | ! |
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| 270 | DO jl = 1, jcat ! loop on categories |
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| 271 | ! |
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| 272 | ! Limitation of moments. |
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| 273 | DO jj = 2, jpjm1 |
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| 274 | DO ji = 1, jpi |
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| 275 | ! Initialize volumes of boxes (=area if adv_x first called, =psm otherwise) |
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| 276 | psm (ji,jj,jl) = MAX( pcrh * e1e2t(ji,jj) + ( 1.0 - pcrh ) * psm(ji,jj,jl) , epsi20 ) |
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| 277 | ! |
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| 278 | zslpmax = MAX( 0._wp, ps0(ji,jj,jl) ) |
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| 279 | zs1max = 1.5 * zslpmax |
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| 280 | zs1new = MIN( zs1max, MAX( -zs1max, psx(ji,jj,jl) ) ) |
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| 281 | zs2new = MIN( 2.0 * zslpmax - 0.3334 * ABS( zs1new ), & |
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| 282 | & MAX( ABS( zs1new ) - zslpmax, psxx(ji,jj,jl) ) ) |
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| 283 | rswitch = ( 1.0 - MAX( 0._wp, SIGN( 1._wp, -zslpmax) ) ) * tmask(ji,jj,1) ! Case of empty boxes & Apply mask |
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[8586] | 284 | |
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[11692] | 285 | ps0 (ji,jj,jl) = zslpmax |
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| 286 | psx (ji,jj,jl) = zs1new * rswitch |
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| 287 | psxx(ji,jj,jl) = zs2new * rswitch |
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| 288 | psy (ji,jj,jl) = psy (ji,jj,jl) * rswitch |
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| 289 | psyy(ji,jj,jl) = psyy(ji,jj,jl) * rswitch |
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| 290 | psxy(ji,jj,jl) = MIN( zslpmax, MAX( -zslpmax, psxy(ji,jj,jl) ) ) * rswitch |
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| 291 | END DO |
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| 292 | END DO |
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[8586] | 293 | |
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[11692] | 294 | ! Calculate fluxes and moments between boxes i<-->i+1 |
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| 295 | DO jj = 2, jpjm1 ! Flux from i to i+1 WHEN u GT 0 |
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| 296 | DO ji = 1, jpi |
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| 297 | zbet(ji,jj) = MAX( 0._wp, SIGN( 1._wp, put(ji,jj) ) ) |
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| 298 | zalf = MAX( 0._wp, put(ji,jj) ) * pdt * e2u(ji,jj) / psm(ji,jj,jl) |
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| 299 | zalfq = zalf * zalf |
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| 300 | zalf1 = 1.0 - zalf |
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| 301 | zalf1q = zalf1 * zalf1 |
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| 302 | ! |
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| 303 | zfm (ji,jj) = zalf * psm (ji,jj,jl) |
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| 304 | zf0 (ji,jj) = zalf * ( ps0 (ji,jj,jl) + zalf1 * ( psx(ji,jj,jl) + (zalf1 - zalf) * psxx(ji,jj,jl) ) ) |
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| 305 | zfx (ji,jj) = zalfq * ( psx (ji,jj,jl) + 3.0 * zalf1 * psxx(ji,jj,jl) ) |
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| 306 | zfxx(ji,jj) = zalf * psxx(ji,jj,jl) * zalfq |
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| 307 | zfy (ji,jj) = zalf * ( psy (ji,jj,jl) + zalf1 * psxy(ji,jj,jl) ) |
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| 308 | zfxy(ji,jj) = zalfq * psxy(ji,jj,jl) |
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| 309 | zfyy(ji,jj) = zalf * psyy(ji,jj,jl) |
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[8586] | 310 | |
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[11692] | 311 | ! Readjust moments remaining in the box. |
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| 312 | psm (ji,jj,jl) = psm (ji,jj,jl) - zfm(ji,jj) |
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| 313 | ps0 (ji,jj,jl) = ps0 (ji,jj,jl) - zf0(ji,jj) |
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| 314 | psx (ji,jj,jl) = zalf1q * ( psx(ji,jj,jl) - 3.0 * zalf * psxx(ji,jj,jl) ) |
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| 315 | psxx(ji,jj,jl) = zalf1 * zalf1q * psxx(ji,jj,jl) |
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| 316 | psy (ji,jj,jl) = psy (ji,jj,jl) - zfy(ji,jj) |
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| 317 | psyy(ji,jj,jl) = psyy(ji,jj,jl) - zfyy(ji,jj) |
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| 318 | psxy(ji,jj,jl) = zalf1q * psxy(ji,jj,jl) |
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| 319 | END DO |
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[8586] | 320 | END DO |
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| 321 | |
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[11692] | 322 | DO jj = 2, jpjm1 ! Flux from i+1 to i when u LT 0. |
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| 323 | DO ji = 1, fs_jpim1 |
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| 324 | zalf = MAX( 0._wp, -put(ji,jj) ) * pdt * e2u(ji,jj) / psm(ji+1,jj,jl) |
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| 325 | zalg (ji,jj) = zalf |
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| 326 | zalfq = zalf * zalf |
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| 327 | zalf1 = 1.0 - zalf |
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| 328 | zalg1 (ji,jj) = zalf1 |
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| 329 | zalf1q = zalf1 * zalf1 |
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| 330 | zalg1q(ji,jj) = zalf1q |
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| 331 | ! |
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| 332 | zfm (ji,jj) = zfm (ji,jj) + zalf * psm (ji+1,jj,jl) |
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| 333 | zf0 (ji,jj) = zf0 (ji,jj) + zalf * ( ps0 (ji+1,jj,jl) & |
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| 334 | & - zalf1 * ( psx(ji+1,jj,jl) - (zalf1 - zalf ) * psxx(ji+1,jj,jl) ) ) |
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| 335 | zfx (ji,jj) = zfx (ji,jj) + zalfq * ( psx (ji+1,jj,jl) - 3.0 * zalf1 * psxx(ji+1,jj,jl) ) |
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| 336 | zfxx (ji,jj) = zfxx(ji,jj) + zalf * psxx(ji+1,jj,jl) * zalfq |
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| 337 | zfy (ji,jj) = zfy (ji,jj) + zalf * ( psy (ji+1,jj,jl) - zalf1 * psxy(ji+1,jj,jl) ) |
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| 338 | zfxy (ji,jj) = zfxy(ji,jj) + zalfq * psxy(ji+1,jj,jl) |
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| 339 | zfyy (ji,jj) = zfyy(ji,jj) + zalf * psyy(ji+1,jj,jl) |
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| 340 | END DO |
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[8586] | 341 | END DO |
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| 342 | |
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[11692] | 343 | DO jj = 2, jpjm1 ! Readjust moments remaining in the box. |
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| 344 | DO ji = fs_2, fs_jpim1 |
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| 345 | zbt = zbet(ji-1,jj) |
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| 346 | zbt1 = 1.0 - zbet(ji-1,jj) |
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| 347 | ! |
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| 348 | psm (ji,jj,jl) = zbt * psm(ji,jj,jl) + zbt1 * ( psm(ji,jj,jl) - zfm(ji-1,jj) ) |
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| 349 | ps0 (ji,jj,jl) = zbt * ps0(ji,jj,jl) + zbt1 * ( ps0(ji,jj,jl) - zf0(ji-1,jj) ) |
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| 350 | psx (ji,jj,jl) = zalg1q(ji-1,jj) * ( psx(ji,jj,jl) + 3.0 * zalg(ji-1,jj) * psxx(ji,jj,jl) ) |
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| 351 | psxx(ji,jj,jl) = zalg1 (ji-1,jj) * zalg1q(ji-1,jj) * psxx(ji,jj,jl) |
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| 352 | psy (ji,jj,jl) = zbt * psy (ji,jj,jl) + zbt1 * ( psy (ji,jj,jl) - zfy (ji-1,jj) ) |
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| 353 | psyy(ji,jj,jl) = zbt * psyy(ji,jj,jl) + zbt1 * ( psyy(ji,jj,jl) - zfyy(ji-1,jj) ) |
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| 354 | psxy(ji,jj,jl) = zalg1q(ji-1,jj) * psxy(ji,jj,jl) |
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| 355 | END DO |
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[8586] | 356 | END DO |
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| 357 | |
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[11692] | 358 | ! Put the temporary moments into appropriate neighboring boxes. |
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| 359 | DO jj = 2, jpjm1 ! Flux from i to i+1 IF u GT 0. |
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| 360 | DO ji = fs_2, fs_jpim1 |
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| 361 | zbt = zbet(ji-1,jj) |
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| 362 | zbt1 = 1.0 - zbet(ji-1,jj) |
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| 363 | psm(ji,jj,jl) = zbt * ( psm(ji,jj,jl) + zfm(ji-1,jj) ) + zbt1 * psm(ji,jj,jl) |
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| 364 | zalf = zbt * zfm(ji-1,jj) / psm(ji,jj,jl) |
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| 365 | zalf1 = 1.0 - zalf |
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| 366 | ztemp = zalf * ps0(ji,jj,jl) - zalf1 * zf0(ji-1,jj) |
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| 367 | ! |
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| 368 | ps0 (ji,jj,jl) = zbt * ( ps0(ji,jj,jl) + zf0(ji-1,jj) ) + zbt1 * ps0(ji,jj,jl) |
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| 369 | psx (ji,jj,jl) = zbt * ( zalf * zfx(ji-1,jj) + zalf1 * psx(ji,jj,jl) + 3.0 * ztemp ) + zbt1 * psx(ji,jj,jl) |
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| 370 | psxx(ji,jj,jl) = zbt * ( zalf * zalf * zfxx(ji-1,jj) + zalf1 * zalf1 * psxx(ji,jj,jl) & |
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| 371 | & + 5.0 * ( zalf * zalf1 * ( psx (ji,jj,jl) - zfx(ji-1,jj) ) - ( zalf1 - zalf ) * ztemp ) ) & |
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| 372 | & + zbt1 * psxx(ji,jj,jl) |
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| 373 | psxy(ji,jj,jl) = zbt * ( zalf * zfxy(ji-1,jj) + zalf1 * psxy(ji,jj,jl) & |
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| 374 | & + 3.0 * (- zalf1*zfy(ji-1,jj) + zalf * psy(ji,jj,jl) ) ) & |
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| 375 | & + zbt1 * psxy(ji,jj,jl) |
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| 376 | psy (ji,jj,jl) = zbt * ( psy (ji,jj,jl) + zfy (ji-1,jj) ) + zbt1 * psy (ji,jj,jl) |
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| 377 | psyy(ji,jj,jl) = zbt * ( psyy(ji,jj,jl) + zfyy(ji-1,jj) ) + zbt1 * psyy(ji,jj,jl) |
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| 378 | END DO |
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[8586] | 379 | END DO |
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| 380 | |
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[11692] | 381 | DO jj = 2, jpjm1 ! Flux from i+1 to i IF u LT 0. |
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| 382 | DO ji = fs_2, fs_jpim1 |
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| 383 | zbt = zbet(ji,jj) |
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| 384 | zbt1 = 1.0 - zbet(ji,jj) |
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| 385 | psm(ji,jj,jl) = zbt * psm(ji,jj,jl) + zbt1 * ( psm(ji,jj,jl) + zfm(ji,jj) ) |
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| 386 | zalf = zbt1 * zfm(ji,jj) / psm(ji,jj,jl) |
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| 387 | zalf1 = 1.0 - zalf |
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| 388 | ztemp = - zalf * ps0(ji,jj,jl) + zalf1 * zf0(ji,jj) |
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| 389 | ! |
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| 390 | ps0 (ji,jj,jl) = zbt * ps0 (ji,jj,jl) + zbt1 * ( ps0(ji,jj,jl) + zf0(ji,jj) ) |
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| 391 | psx (ji,jj,jl) = zbt * psx (ji,jj,jl) + zbt1 * ( zalf * zfx(ji,jj) + zalf1 * psx(ji,jj,jl) + 3.0 * ztemp ) |
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| 392 | psxx(ji,jj,jl) = zbt * psxx(ji,jj,jl) + zbt1 * ( zalf * zalf * zfxx(ji,jj) + zalf1 * zalf1 * psxx(ji,jj,jl) & |
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| 393 | & + 5.0 * ( zalf * zalf1 * ( - psx(ji,jj,jl) + zfx(ji,jj) ) & |
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| 394 | & + ( zalf1 - zalf ) * ztemp ) ) |
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| 395 | psxy(ji,jj,jl) = zbt * psxy(ji,jj,jl) + zbt1 * ( zalf * zfxy(ji,jj) + zalf1 * psxy(ji,jj,jl) & |
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| 396 | & + 3.0 * ( zalf1 * zfy(ji,jj) - zalf * psy(ji,jj,jl) ) ) |
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| 397 | psy (ji,jj,jl) = zbt * psy (ji,jj,jl) + zbt1 * ( psy (ji,jj,jl) + zfy (ji,jj) ) |
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| 398 | psyy(ji,jj,jl) = zbt * psyy(ji,jj,jl) + zbt1 * ( psyy(ji,jj,jl) + zfyy(ji,jj) ) |
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| 399 | END DO |
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[8586] | 400 | END DO |
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| 401 | |
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| 402 | END DO |
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| 403 | |
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| 404 | !-- Lateral boundary conditions |
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[11692] | 405 | CALL lbc_lnk_multi( 'icedyn_adv_pra', psm(:,:,1:jcat) , 'T', 1., ps0 , 'T', 1. & |
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| 406 | & , psx , 'T', -1., psy , 'T', -1. & ! caution gradient ==> the sign changes |
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| 407 | & , psxx , 'T', 1., psyy, 'T', 1. , psxy, 'T', 1. ) |
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[8586] | 408 | ! |
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| 409 | END SUBROUTINE adv_x |
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| 410 | |
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| 411 | |
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[11692] | 412 | SUBROUTINE adv_y( pdt, pvt , pcrh, psm , ps0 , & |
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[8586] | 413 | & psx, psxx, psy , psyy, psxy ) |
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| 414 | !!--------------------------------------------------------------------- |
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| 415 | !! ** routine adv_y ** |
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| 416 | !! |
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| 417 | !! ** purpose : Computes and adds the advection trend to sea-ice |
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| 418 | !! variable on y axis |
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| 419 | !!--------------------------------------------------------------------- |
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[11692] | 420 | REAL(wp) , INTENT(in ) :: pdt ! time step |
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| 421 | REAL(wp) , INTENT(in ) :: pcrh ! call adv_x then adv_y (=1) or the opposite (=0) |
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| 422 | REAL(wp), DIMENSION(:,:) , INTENT(in ) :: pvt ! j-direction ice velocity at V-point [m/s] |
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| 423 | REAL(wp), DIMENSION(:,:,:), INTENT(inout) :: psm ! area |
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| 424 | REAL(wp), DIMENSION(:,:,:), INTENT(inout) :: ps0 ! field to be advected |
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| 425 | REAL(wp), DIMENSION(:,:,:), INTENT(inout) :: psx , psy ! 1st moments |
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| 426 | REAL(wp), DIMENSION(:,:,:), INTENT(inout) :: psxx, psyy, psxy ! 2nd moments |
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[8586] | 427 | !! |
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[11692] | 428 | INTEGER :: ji, jj, jl, jcat ! dummy loop indices |
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| 429 | REAL(wp) :: zs1max, zslpmax, ztemp ! temporary scalars |
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[8586] | 430 | REAL(wp) :: zs1new, zalf , zalfq , zbt ! - - |
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| 431 | REAL(wp) :: zs2new, zalf1, zalf1q, zbt1 ! - - |
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| 432 | REAL(wp), DIMENSION(jpi,jpj) :: zf0, zfx , zfy , zbet ! 2D workspace |
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| 433 | REAL(wp), DIMENSION(jpi,jpj) :: zfm, zfxx, zfyy, zfxy ! - - |
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| 434 | REAL(wp), DIMENSION(jpi,jpj) :: zalg, zalg1, zalg1q ! - - |
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| 435 | !--------------------------------------------------------------------- |
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[11692] | 436 | ! |
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| 437 | jcat = SIZE( ps0 , 3 ) ! size of input arrays |
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| 438 | ! |
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| 439 | DO jl = 1, jcat ! loop on categories |
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| 440 | ! |
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| 441 | ! Limitation of moments. |
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| 442 | DO jj = 1, jpj |
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| 443 | DO ji = fs_2, fs_jpim1 |
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| 444 | ! Initialize volumes of boxes (=area if adv_x first called, =psm otherwise) |
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| 445 | psm(ji,jj,jl) = MAX( pcrh * e1e2t(ji,jj) + ( 1.0 - pcrh ) * psm(ji,jj,jl) , epsi20 ) |
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| 446 | ! |
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| 447 | zslpmax = MAX( 0._wp, ps0(ji,jj,jl) ) |
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| 448 | zs1max = 1.5 * zslpmax |
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| 449 | zs1new = MIN( zs1max, MAX( -zs1max, psy(ji,jj,jl) ) ) |
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| 450 | zs2new = MIN( ( 2.0 * zslpmax - 0.3334 * ABS( zs1new ) ), & |
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| 451 | & MAX( ABS( zs1new )-zslpmax, psyy(ji,jj,jl) ) ) |
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| 452 | rswitch = ( 1.0 - MAX( 0._wp, SIGN( 1._wp, -zslpmax) ) ) * tmask(ji,jj,1) ! Case of empty boxes & Apply mask |
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| 453 | ! |
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| 454 | ps0 (ji,jj,jl) = zslpmax |
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| 455 | psx (ji,jj,jl) = psx (ji,jj,jl) * rswitch |
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| 456 | psxx(ji,jj,jl) = psxx(ji,jj,jl) * rswitch |
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| 457 | psy (ji,jj,jl) = zs1new * rswitch |
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| 458 | psyy(ji,jj,jl) = zs2new * rswitch |
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| 459 | psxy(ji,jj,jl) = MIN( zslpmax, MAX( -zslpmax, psxy(ji,jj,jl) ) ) * rswitch |
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| 460 | END DO |
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[8586] | 461 | END DO |
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[11692] | 462 | |
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| 463 | ! Calculate fluxes and moments between boxes j<-->j+1 |
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| 464 | DO jj = 1, jpj ! Flux from j to j+1 WHEN v GT 0 |
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| 465 | DO ji = fs_2, fs_jpim1 |
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| 466 | zbet(ji,jj) = MAX( 0._wp, SIGN( 1._wp, pvt(ji,jj) ) ) |
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| 467 | zalf = MAX( 0._wp, pvt(ji,jj) ) * pdt * e1v(ji,jj) / psm(ji,jj,jl) |
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| 468 | zalfq = zalf * zalf |
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| 469 | zalf1 = 1.0 - zalf |
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| 470 | zalf1q = zalf1 * zalf1 |
---|
| 471 | ! |
---|
| 472 | zfm (ji,jj) = zalf * psm(ji,jj,jl) |
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| 473 | zf0 (ji,jj) = zalf * ( ps0(ji,jj,jl) + zalf1 * ( psy(ji,jj,jl) + (zalf1-zalf) * psyy(ji,jj,jl) ) ) |
---|
| 474 | zfy (ji,jj) = zalfq *( psy(ji,jj,jl) + 3.0*zalf1*psyy(ji,jj,jl) ) |
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| 475 | zfyy(ji,jj) = zalf * zalfq * psyy(ji,jj,jl) |
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| 476 | zfx (ji,jj) = zalf * ( psx(ji,jj,jl) + zalf1 * psxy(ji,jj,jl) ) |
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| 477 | zfxy(ji,jj) = zalfq * psxy(ji,jj,jl) |
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| 478 | zfxx(ji,jj) = zalf * psxx(ji,jj,jl) |
---|
| 479 | ! |
---|
| 480 | ! Readjust moments remaining in the box. |
---|
| 481 | psm (ji,jj,jl) = psm (ji,jj,jl) - zfm(ji,jj) |
---|
| 482 | ps0 (ji,jj,jl) = ps0 (ji,jj,jl) - zf0(ji,jj) |
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| 483 | psy (ji,jj,jl) = zalf1q * ( psy(ji,jj,jl) -3.0 * zalf * psyy(ji,jj,jl) ) |
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| 484 | psyy(ji,jj,jl) = zalf1 * zalf1q * psyy(ji,jj,jl) |
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| 485 | psx (ji,jj,jl) = psx (ji,jj,jl) - zfx(ji,jj) |
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| 486 | psxx(ji,jj,jl) = psxx(ji,jj,jl) - zfxx(ji,jj) |
---|
| 487 | psxy(ji,jj,jl) = zalf1q * psxy(ji,jj,jl) |
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| 488 | END DO |
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[8586] | 489 | END DO |
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[11692] | 490 | ! |
---|
| 491 | DO jj = 1, jpjm1 ! Flux from j+1 to j when v LT 0. |
---|
| 492 | DO ji = fs_2, fs_jpim1 |
---|
| 493 | zalf = ( MAX(0._wp, -pvt(ji,jj) ) * pdt * e1v(ji,jj) ) / psm(ji,jj+1,jl) |
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| 494 | zalg (ji,jj) = zalf |
---|
| 495 | zalfq = zalf * zalf |
---|
| 496 | zalf1 = 1.0 - zalf |
---|
| 497 | zalg1 (ji,jj) = zalf1 |
---|
| 498 | zalf1q = zalf1 * zalf1 |
---|
| 499 | zalg1q(ji,jj) = zalf1q |
---|
| 500 | ! |
---|
| 501 | zfm (ji,jj) = zfm (ji,jj) + zalf * psm (ji,jj+1,jl) |
---|
| 502 | zf0 (ji,jj) = zf0 (ji,jj) + zalf * ( ps0 (ji,jj+1,jl) & |
---|
| 503 | & - zalf1 * (psy(ji,jj+1,jl) - (zalf1 - zalf ) * psyy(ji,jj+1,jl) ) ) |
---|
| 504 | zfy (ji,jj) = zfy (ji,jj) + zalfq * ( psy (ji,jj+1,jl) - 3.0 * zalf1 * psyy(ji,jj+1,jl) ) |
---|
| 505 | zfyy (ji,jj) = zfyy(ji,jj) + zalf * psyy(ji,jj+1,jl) * zalfq |
---|
| 506 | zfx (ji,jj) = zfx (ji,jj) + zalf * ( psx (ji,jj+1,jl) - zalf1 * psxy(ji,jj+1,jl) ) |
---|
| 507 | zfxy (ji,jj) = zfxy(ji,jj) + zalfq * psxy(ji,jj+1,jl) |
---|
| 508 | zfxx (ji,jj) = zfxx(ji,jj) + zalf * psxx(ji,jj+1,jl) |
---|
| 509 | END DO |
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[8586] | 510 | END DO |
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| 511 | |
---|
[11692] | 512 | ! Readjust moments remaining in the box. |
---|
| 513 | DO jj = 2, jpjm1 |
---|
| 514 | DO ji = fs_2, fs_jpim1 |
---|
| 515 | zbt = zbet(ji,jj-1) |
---|
| 516 | zbt1 = ( 1.0 - zbet(ji,jj-1) ) |
---|
| 517 | ! |
---|
| 518 | psm (ji,jj,jl) = zbt * psm(ji,jj,jl) + zbt1 * ( psm(ji,jj,jl) - zfm(ji,jj-1) ) |
---|
| 519 | ps0 (ji,jj,jl) = zbt * ps0(ji,jj,jl) + zbt1 * ( ps0(ji,jj,jl) - zf0(ji,jj-1) ) |
---|
| 520 | psy (ji,jj,jl) = zalg1q(ji,jj-1) * ( psy(ji,jj,jl) + 3.0 * zalg(ji,jj-1) * psyy(ji,jj,jl) ) |
---|
| 521 | psyy(ji,jj,jl) = zalg1 (ji,jj-1) * zalg1q(ji,jj-1) * psyy(ji,jj,jl) |
---|
| 522 | psx (ji,jj,jl) = zbt * psx (ji,jj,jl) + zbt1 * ( psx (ji,jj,jl) - zfx (ji,jj-1) ) |
---|
| 523 | psxx(ji,jj,jl) = zbt * psxx(ji,jj,jl) + zbt1 * ( psxx(ji,jj,jl) - zfxx(ji,jj-1) ) |
---|
| 524 | psxy(ji,jj,jl) = zalg1q(ji,jj-1) * psxy(ji,jj,jl) |
---|
| 525 | END DO |
---|
[8586] | 526 | END DO |
---|
| 527 | |
---|
[11692] | 528 | ! Put the temporary moments into appropriate neighboring boxes. |
---|
| 529 | DO jj = 2, jpjm1 ! Flux from j to j+1 IF v GT 0. |
---|
| 530 | DO ji = fs_2, fs_jpim1 |
---|
| 531 | zbt = zbet(ji,jj-1) |
---|
| 532 | zbt1 = 1.0 - zbet(ji,jj-1) |
---|
| 533 | psm(ji,jj,jl) = zbt * ( psm(ji,jj,jl) + zfm(ji,jj-1) ) + zbt1 * psm(ji,jj,jl) |
---|
| 534 | zalf = zbt * zfm(ji,jj-1) / psm(ji,jj,jl) |
---|
| 535 | zalf1 = 1.0 - zalf |
---|
| 536 | ztemp = zalf * ps0(ji,jj,jl) - zalf1 * zf0(ji,jj-1) |
---|
| 537 | ! |
---|
| 538 | ps0(ji,jj,jl) = zbt * ( ps0(ji,jj,jl) + zf0(ji,jj-1) ) + zbt1 * ps0(ji,jj,jl) |
---|
| 539 | psy(ji,jj,jl) = zbt * ( zalf * zfy(ji,jj-1) + zalf1 * psy(ji,jj,jl) + 3.0 * ztemp ) & |
---|
| 540 | & + zbt1 * psy(ji,jj,jl) |
---|
| 541 | psyy(ji,jj,jl) = zbt * ( zalf * zalf * zfyy(ji,jj-1) + zalf1 * zalf1 * psyy(ji,jj,jl) & |
---|
| 542 | & + 5.0 * ( zalf * zalf1 * ( psy(ji,jj,jl) - zfy(ji,jj-1) ) - ( zalf1 - zalf ) * ztemp ) ) & |
---|
| 543 | & + zbt1 * psyy(ji,jj,jl) |
---|
| 544 | psxy(ji,jj,jl) = zbt * ( zalf * zfxy(ji,jj-1) + zalf1 * psxy(ji,jj,jl) & |
---|
| 545 | & + 3.0 * (- zalf1 * zfx(ji,jj-1) + zalf * psx(ji,jj,jl) ) ) & |
---|
| 546 | & + zbt1 * psxy(ji,jj,jl) |
---|
| 547 | psx (ji,jj,jl) = zbt * ( psx (ji,jj,jl) + zfx (ji,jj-1) ) + zbt1 * psx (ji,jj,jl) |
---|
| 548 | psxx(ji,jj,jl) = zbt * ( psxx(ji,jj,jl) + zfxx(ji,jj-1) ) + zbt1 * psxx(ji,jj,jl) |
---|
| 549 | END DO |
---|
[8586] | 550 | END DO |
---|
| 551 | |
---|
[11692] | 552 | DO jj = 2, jpjm1 ! Flux from j+1 to j IF v LT 0. |
---|
| 553 | DO ji = fs_2, fs_jpim1 |
---|
| 554 | zbt = zbet(ji,jj) |
---|
| 555 | zbt1 = 1.0 - zbet(ji,jj) |
---|
| 556 | psm(ji,jj,jl) = zbt * psm(ji,jj,jl) + zbt1 * ( psm(ji,jj,jl) + zfm(ji,jj) ) |
---|
| 557 | zalf = zbt1 * zfm(ji,jj) / psm(ji,jj,jl) |
---|
| 558 | zalf1 = 1.0 - zalf |
---|
| 559 | ztemp = - zalf * ps0(ji,jj,jl) + zalf1 * zf0(ji,jj) |
---|
| 560 | ! |
---|
| 561 | ps0 (ji,jj,jl) = zbt * ps0 (ji,jj,jl) + zbt1 * ( ps0(ji,jj,jl) + zf0(ji,jj) ) |
---|
| 562 | psy (ji,jj,jl) = zbt * psy (ji,jj,jl) + zbt1 * ( zalf * zfy(ji,jj) + zalf1 * psy(ji,jj,jl) + 3.0 * ztemp ) |
---|
| 563 | psyy(ji,jj,jl) = zbt * psyy(ji,jj,jl) + zbt1 * ( zalf * zalf * zfyy(ji,jj) + zalf1 * zalf1 * psyy(ji,jj,jl) & |
---|
| 564 | & + 5.0 * ( zalf * zalf1 * ( - psy(ji,jj,jl) + zfy(ji,jj) ) & |
---|
| 565 | & + ( zalf1 - zalf ) * ztemp ) ) |
---|
| 566 | psxy(ji,jj,jl) = zbt * psxy(ji,jj,jl) + zbt1 * ( zalf * zfxy(ji,jj) + zalf1 * psxy(ji,jj,jl) & |
---|
| 567 | & + 3.0 * ( zalf1 * zfx(ji,jj) - zalf * psx(ji,jj,jl) ) ) |
---|
| 568 | psx (ji,jj,jl) = zbt * psx (ji,jj,jl) + zbt1 * ( psx (ji,jj,jl) + zfx (ji,jj) ) |
---|
| 569 | psxx(ji,jj,jl) = zbt * psxx(ji,jj,jl) + zbt1 * ( psxx(ji,jj,jl) + zfxx(ji,jj) ) |
---|
| 570 | END DO |
---|
[8586] | 571 | END DO |
---|
[11692] | 572 | |
---|
[8586] | 573 | END DO |
---|
| 574 | |
---|
| 575 | !-- Lateral boundary conditions |
---|
[11692] | 576 | CALL lbc_lnk_multi( 'icedyn_adv_pra', psm(:,:,1:jcat) , 'T', 1., ps0 , 'T', 1. & |
---|
| 577 | & , psx , 'T', -1., psy , 'T', -1. & ! caution gradient ==> the sign changes |
---|
| 578 | & , psxx , 'T', 1., psyy, 'T', 1. , psxy, 'T', 1. ) |
---|
[8586] | 579 | ! |
---|
| 580 | END SUBROUTINE adv_y |
---|
| 581 | |
---|
[8817] | 582 | |
---|
[11692] | 583 | SUBROUTINE Hsnow( pdt, pv_i, pv_s, pa_i, pa_ip, pe_s ) |
---|
| 584 | !!------------------------------------------------------------------- |
---|
| 585 | !! *** ROUTINE Hsnow *** |
---|
| 586 | !! |
---|
| 587 | !! ** Purpose : 1- Check snow load after advection |
---|
| 588 | !! 2- Correct pond concentration to avoid a_ip > a_i |
---|
| 589 | !! |
---|
| 590 | !! ** Method : If snow load makes snow-ice interface to deplet below the ocean surface |
---|
| 591 | !! then put the snow excess in the ocean |
---|
| 592 | !! |
---|
| 593 | !! ** Notes : This correction is crucial because of the call to routine icecor afterwards |
---|
| 594 | !! which imposes a mini of ice thick. (rn_himin). This imposed mini can artificially |
---|
| 595 | !! make the snow very thick (if concentration decreases drastically) |
---|
| 596 | !! This behavior has been seen in Ultimate-Macho and supposedly it can also be true for Prather |
---|
| 597 | !!------------------------------------------------------------------- |
---|
| 598 | REAL(wp) , INTENT(in ) :: pdt ! tracer time-step |
---|
| 599 | REAL(wp), DIMENSION(:,:,:) , INTENT(inout) :: pv_i, pv_s, pa_i, pa_ip |
---|
| 600 | REAL(wp), DIMENSION(:,:,:,:), INTENT(inout) :: pe_s |
---|
| 601 | ! |
---|
| 602 | INTEGER :: ji, jj, jl ! dummy loop indices |
---|
| 603 | REAL(wp) :: z1_dt, zvs_excess, zfra |
---|
| 604 | !!------------------------------------------------------------------- |
---|
| 605 | ! |
---|
| 606 | z1_dt = 1._wp / pdt |
---|
| 607 | ! |
---|
| 608 | ! -- check snow load -- ! |
---|
| 609 | DO jl = 1, jpl |
---|
| 610 | DO jj = 1, jpj |
---|
| 611 | DO ji = 1, jpi |
---|
| 612 | IF ( pv_i(ji,jj,jl) > 0._wp ) THEN |
---|
| 613 | ! |
---|
| 614 | zvs_excess = MAX( 0._wp, pv_s(ji,jj,jl) - pv_i(ji,jj,jl) * (rau0-rhoi) * r1_rhos ) |
---|
| 615 | ! |
---|
| 616 | IF( zvs_excess > 0._wp ) THEN ! snow-ice interface deplets below the ocean surface |
---|
| 617 | ! put snow excess in the ocean |
---|
| 618 | zfra = ( pv_s(ji,jj,jl) - zvs_excess ) / MAX( pv_s(ji,jj,jl), epsi20 ) |
---|
| 619 | wfx_res(ji,jj) = wfx_res(ji,jj) + zvs_excess * rhos * z1_dt |
---|
| 620 | hfx_res(ji,jj) = hfx_res(ji,jj) - SUM( pe_s(ji,jj,1:nlay_s,jl) ) * ( 1._wp - zfra ) * z1_dt ! W.m-2 <0 |
---|
| 621 | ! correct snow volume and heat content |
---|
| 622 | pe_s(ji,jj,1:nlay_s,jl) = pe_s(ji,jj,1:nlay_s,jl) * zfra |
---|
| 623 | pv_s(ji,jj,jl) = pv_s(ji,jj,jl) - zvs_excess |
---|
| 624 | ENDIF |
---|
| 625 | ! |
---|
| 626 | ENDIF |
---|
| 627 | END DO |
---|
| 628 | END DO |
---|
| 629 | END DO |
---|
| 630 | ! |
---|
| 631 | !-- correct pond concentration to avoid a_ip > a_i -- ! |
---|
| 632 | WHERE( pa_ip(:,:,:) > pa_i(:,:,:) ) pa_ip(:,:,:) = pa_i(:,:,:) |
---|
| 633 | ! |
---|
| 634 | END SUBROUTINE Hsnow |
---|
| 635 | |
---|
| 636 | |
---|
[8586] | 637 | SUBROUTINE adv_pra_init |
---|
| 638 | !!------------------------------------------------------------------- |
---|
| 639 | !! *** ROUTINE adv_pra_init *** |
---|
| 640 | !! |
---|
| 641 | !! ** Purpose : allocate and initialize arrays for Prather advection |
---|
| 642 | !!------------------------------------------------------------------- |
---|
| 643 | INTEGER :: ierr |
---|
| 644 | !!------------------------------------------------------------------- |
---|
[8817] | 645 | ! |
---|
| 646 | ! !* allocate prather fields |
---|
[11692] | 647 | ALLOCATE( sxopw(jpi,jpj,1) , syopw(jpi,jpj,1) , sxxopw(jpi,jpj,1) , syyopw(jpi,jpj,1) , sxyopw(jpi,jpj,1) , & |
---|
[8586] | 648 | & sxice(jpi,jpj,jpl) , syice(jpi,jpj,jpl) , sxxice(jpi,jpj,jpl) , syyice(jpi,jpj,jpl) , sxyice(jpi,jpj,jpl) , & |
---|
| 649 | & sxsn (jpi,jpj,jpl) , sysn (jpi,jpj,jpl) , sxxsn (jpi,jpj,jpl) , syysn (jpi,jpj,jpl) , sxysn (jpi,jpj,jpl) , & |
---|
| 650 | & sxa (jpi,jpj,jpl) , sya (jpi,jpj,jpl) , sxxa (jpi,jpj,jpl) , syya (jpi,jpj,jpl) , sxya (jpi,jpj,jpl) , & |
---|
| 651 | & sxsal(jpi,jpj,jpl) , sysal(jpi,jpj,jpl) , sxxsal(jpi,jpj,jpl) , syysal(jpi,jpj,jpl) , sxysal(jpi,jpj,jpl) , & |
---|
| 652 | & sxage(jpi,jpj,jpl) , syage(jpi,jpj,jpl) , sxxage(jpi,jpj,jpl) , syyage(jpi,jpj,jpl) , sxyage(jpi,jpj,jpl) , & |
---|
| 653 | & sxap(jpi,jpj,jpl) , syap (jpi,jpj,jpl) , sxxap (jpi,jpj,jpl) , syyap (jpi,jpj,jpl) , sxyap (jpi,jpj,jpl) , & |
---|
| 654 | & sxvp(jpi,jpj,jpl) , syvp (jpi,jpj,jpl) , sxxvp (jpi,jpj,jpl) , syyvp (jpi,jpj,jpl) , sxyvp (jpi,jpj,jpl) , & |
---|
[9271] | 655 | ! |
---|
| 656 | & sxc0 (jpi,jpj,nlay_s,jpl) , syc0 (jpi,jpj,nlay_s,jpl) , sxxc0(jpi,jpj,nlay_s,jpl) , & |
---|
| 657 | & syyc0(jpi,jpj,nlay_s,jpl) , sxyc0(jpi,jpj,nlay_s,jpl) , & |
---|
| 658 | ! |
---|
| 659 | & sxe (jpi,jpj,nlay_i,jpl) , sye (jpi,jpj,nlay_i,jpl) , sxxe (jpi,jpj,nlay_i,jpl) , & |
---|
| 660 | & syye (jpi,jpj,nlay_i,jpl) , sxye (jpi,jpj,nlay_i,jpl) , & |
---|
[8586] | 661 | & STAT = ierr ) |
---|
| 662 | ! |
---|
[10425] | 663 | CALL mpp_sum( 'icedyn_adv_pra', ierr ) |
---|
[8586] | 664 | IF( ierr /= 0 ) CALL ctl_stop('STOP', 'adv_pra_init : unable to allocate ice arrays for Prather advection scheme') |
---|
| 665 | ! |
---|
[8817] | 666 | CALL adv_pra_rst( 'READ' ) !* read or initialize all required files |
---|
[8586] | 667 | ! |
---|
| 668 | END SUBROUTINE adv_pra_init |
---|
| 669 | |
---|
[8817] | 670 | |
---|
[8586] | 671 | SUBROUTINE adv_pra_rst( cdrw, kt ) |
---|
| 672 | !!--------------------------------------------------------------------- |
---|
| 673 | !! *** ROUTINE adv_pra_rst *** |
---|
| 674 | !! |
---|
[11692] | 675 | !! ** Purpose : Read or write file in restart file |
---|
[8586] | 676 | !! |
---|
| 677 | !! ** Method : use of IOM library |
---|
| 678 | !!---------------------------------------------------------------------- |
---|
| 679 | CHARACTER(len=*) , INTENT(in) :: cdrw ! "READ"/"WRITE" flag |
---|
| 680 | INTEGER, OPTIONAL, INTENT(in) :: kt ! ice time-step |
---|
| 681 | ! |
---|
| 682 | INTEGER :: jk, jl ! dummy loop indices |
---|
| 683 | INTEGER :: iter ! local integer |
---|
| 684 | INTEGER :: id1 ! local integer |
---|
| 685 | CHARACTER(len=25) :: znam |
---|
| 686 | CHARACTER(len=2) :: zchar, zchar1 |
---|
[8817] | 687 | REAL(wp), DIMENSION(jpi,jpj,jpl) :: z3d ! 3D workspace |
---|
[8586] | 688 | !!---------------------------------------------------------------------- |
---|
| 689 | ! |
---|
[8817] | 690 | ! !==========================! |
---|
| 691 | IF( TRIM(cdrw) == 'READ' ) THEN !== Read or initialize ==! |
---|
| 692 | ! !==========================! |
---|
| 693 | ! |
---|
| 694 | IF( ln_rstart ) THEN ; id1 = iom_varid( numrir, 'sxopw' , ldstop = .FALSE. ) ! file exist: id1>0 |
---|
| 695 | ELSE ; id1 = 0 ! no restart: id1=0 |
---|
| 696 | ENDIF |
---|
| 697 | ! |
---|
| 698 | IF( id1 > 0 ) THEN !** Read the restart file **! |
---|
[8586] | 699 | ! |
---|
[8817] | 700 | ! ! ice thickness |
---|
| 701 | CALL iom_get( numrir, jpdom_autoglo, 'sxice' , sxice ) |
---|
| 702 | CALL iom_get( numrir, jpdom_autoglo, 'syice' , syice ) |
---|
| 703 | CALL iom_get( numrir, jpdom_autoglo, 'sxxice', sxxice ) |
---|
| 704 | CALL iom_get( numrir, jpdom_autoglo, 'syyice', syyice ) |
---|
| 705 | CALL iom_get( numrir, jpdom_autoglo, 'sxyice', sxyice ) |
---|
| 706 | ! ! snow thickness |
---|
| 707 | CALL iom_get( numrir, jpdom_autoglo, 'sxsn' , sxsn ) |
---|
| 708 | CALL iom_get( numrir, jpdom_autoglo, 'sysn' , sysn ) |
---|
| 709 | CALL iom_get( numrir, jpdom_autoglo, 'sxxsn' , sxxsn ) |
---|
| 710 | CALL iom_get( numrir, jpdom_autoglo, 'syysn' , syysn ) |
---|
| 711 | CALL iom_get( numrir, jpdom_autoglo, 'sxysn' , sxysn ) |
---|
[11692] | 712 | ! ! ice concentration |
---|
[8817] | 713 | CALL iom_get( numrir, jpdom_autoglo, 'sxa' , sxa ) |
---|
| 714 | CALL iom_get( numrir, jpdom_autoglo, 'sya' , sya ) |
---|
| 715 | CALL iom_get( numrir, jpdom_autoglo, 'sxxa' , sxxa ) |
---|
| 716 | CALL iom_get( numrir, jpdom_autoglo, 'syya' , syya ) |
---|
| 717 | CALL iom_get( numrir, jpdom_autoglo, 'sxya' , sxya ) |
---|
| 718 | ! ! ice salinity |
---|
| 719 | CALL iom_get( numrir, jpdom_autoglo, 'sxsal' , sxsal ) |
---|
| 720 | CALL iom_get( numrir, jpdom_autoglo, 'sysal' , sysal ) |
---|
| 721 | CALL iom_get( numrir, jpdom_autoglo, 'sxxsal', sxxsal ) |
---|
| 722 | CALL iom_get( numrir, jpdom_autoglo, 'syysal', syysal ) |
---|
| 723 | CALL iom_get( numrir, jpdom_autoglo, 'sxysal', sxysal ) |
---|
| 724 | ! ! ice age |
---|
| 725 | CALL iom_get( numrir, jpdom_autoglo, 'sxage' , sxage ) |
---|
| 726 | CALL iom_get( numrir, jpdom_autoglo, 'syage' , syage ) |
---|
| 727 | CALL iom_get( numrir, jpdom_autoglo, 'sxxage', sxxage ) |
---|
| 728 | CALL iom_get( numrir, jpdom_autoglo, 'syyage', syyage ) |
---|
| 729 | CALL iom_get( numrir, jpdom_autoglo, 'sxyage', sxyage ) |
---|
| 730 | ! ! open water in sea ice |
---|
[9123] | 731 | CALL iom_get( numrir, jpdom_autoglo, 'sxopw' , sxopw ) |
---|
| 732 | CALL iom_get( numrir, jpdom_autoglo, 'syopw' , syopw ) |
---|
[8817] | 733 | CALL iom_get( numrir, jpdom_autoglo, 'sxxopw', sxxopw ) |
---|
| 734 | CALL iom_get( numrir, jpdom_autoglo, 'syyopw', syyopw ) |
---|
| 735 | CALL iom_get( numrir, jpdom_autoglo, 'sxyopw', sxyopw ) |
---|
[9271] | 736 | ! ! snow layers heat content |
---|
| 737 | DO jk = 1, nlay_s |
---|
| 738 | WRITE(zchar1,'(I2.2)') jk |
---|
| 739 | znam = 'sxc0'//'_l'//zchar1 ; CALL iom_get( numrir, jpdom_autoglo, znam , z3d ) ; sxc0 (:,:,jk,:) = z3d(:,:,:) |
---|
| 740 | znam = 'syc0'//'_l'//zchar1 ; CALL iom_get( numrir, jpdom_autoglo, znam , z3d ) ; syc0 (:,:,jk,:) = z3d(:,:,:) |
---|
| 741 | znam = 'sxxc0'//'_l'//zchar1 ; CALL iom_get( numrir, jpdom_autoglo, znam , z3d ) ; sxxc0(:,:,jk,:) = z3d(:,:,:) |
---|
| 742 | znam = 'syyc0'//'_l'//zchar1 ; CALL iom_get( numrir, jpdom_autoglo, znam , z3d ) ; syyc0(:,:,jk,:) = z3d(:,:,:) |
---|
| 743 | znam = 'sxyc0'//'_l'//zchar1 ; CALL iom_get( numrir, jpdom_autoglo, znam , z3d ) ; sxyc0(:,:,jk,:) = z3d(:,:,:) |
---|
| 744 | END DO |
---|
[8817] | 745 | ! ! ice layers heat content |
---|
[9271] | 746 | DO jk = 1, nlay_i |
---|
[8817] | 747 | WRITE(zchar1,'(I2.2)') jk |
---|
[9123] | 748 | znam = 'sxe'//'_l'//zchar1 ; CALL iom_get( numrir, jpdom_autoglo, znam , z3d ) ; sxe (:,:,jk,:) = z3d(:,:,:) |
---|
| 749 | znam = 'sye'//'_l'//zchar1 ; CALL iom_get( numrir, jpdom_autoglo, znam , z3d ) ; sye (:,:,jk,:) = z3d(:,:,:) |
---|
| 750 | znam = 'sxxe'//'_l'//zchar1 ; CALL iom_get( numrir, jpdom_autoglo, znam , z3d ) ; sxxe(:,:,jk,:) = z3d(:,:,:) |
---|
| 751 | znam = 'syye'//'_l'//zchar1 ; CALL iom_get( numrir, jpdom_autoglo, znam , z3d ) ; syye(:,:,jk,:) = z3d(:,:,:) |
---|
| 752 | znam = 'sxye'//'_l'//zchar1 ; CALL iom_get( numrir, jpdom_autoglo, znam , z3d ) ; sxye(:,:,jk,:) = z3d(:,:,:) |
---|
[8817] | 753 | END DO |
---|
[8586] | 754 | ! |
---|
[8817] | 755 | IF( ln_pnd_H12 ) THEN ! melt pond fraction |
---|
| 756 | CALL iom_get( numrir, jpdom_autoglo, 'sxap' , sxap ) |
---|
| 757 | CALL iom_get( numrir, jpdom_autoglo, 'syap' , syap ) |
---|
| 758 | CALL iom_get( numrir, jpdom_autoglo, 'sxxap', sxxap ) |
---|
| 759 | CALL iom_get( numrir, jpdom_autoglo, 'syyap', syyap ) |
---|
| 760 | CALL iom_get( numrir, jpdom_autoglo, 'sxyap', sxyap ) |
---|
| 761 | ! ! melt pond volume |
---|
| 762 | CALL iom_get( numrir, jpdom_autoglo, 'sxvp' , sxvp ) |
---|
| 763 | CALL iom_get( numrir, jpdom_autoglo, 'syvp' , syvp ) |
---|
| 764 | CALL iom_get( numrir, jpdom_autoglo, 'sxxvp', sxxvp ) |
---|
| 765 | CALL iom_get( numrir, jpdom_autoglo, 'syyvp', syyvp ) |
---|
| 766 | CALL iom_get( numrir, jpdom_autoglo, 'sxyvp', sxyvp ) |
---|
[8586] | 767 | ENDIF |
---|
| 768 | ! |
---|
[8817] | 769 | ELSE !** start rheology from rest **! |
---|
| 770 | ! |
---|
| 771 | IF(lwp) WRITE(numout,*) ' ==>> start from rest OR previous run without Prather, set moments to 0' |
---|
| 772 | ! |
---|
| 773 | sxice = 0._wp ; syice = 0._wp ; sxxice = 0._wp ; syyice = 0._wp ; sxyice = 0._wp ! ice thickness |
---|
| 774 | sxsn = 0._wp ; sysn = 0._wp ; sxxsn = 0._wp ; syysn = 0._wp ; sxysn = 0._wp ! snow thickness |
---|
[11692] | 775 | sxa = 0._wp ; sya = 0._wp ; sxxa = 0._wp ; syya = 0._wp ; sxya = 0._wp ! ice concentration |
---|
[8817] | 776 | sxsal = 0._wp ; sysal = 0._wp ; sxxsal = 0._wp ; syysal = 0._wp ; sxysal = 0._wp ! ice salinity |
---|
| 777 | sxage = 0._wp ; syage = 0._wp ; sxxage = 0._wp ; syyage = 0._wp ; sxyage = 0._wp ! ice age |
---|
| 778 | sxopw = 0._wp ; syopw = 0._wp ; sxxopw = 0._wp ; syyopw = 0._wp ; sxyopw = 0._wp ! open water in sea ice |
---|
[9271] | 779 | sxc0 = 0._wp ; syc0 = 0._wp ; sxxc0 = 0._wp ; syyc0 = 0._wp ; sxyc0 = 0._wp ! snow layers heat content |
---|
[8817] | 780 | sxe = 0._wp ; sye = 0._wp ; sxxe = 0._wp ; syye = 0._wp ; sxye = 0._wp ! ice layers heat content |
---|
| 781 | IF( ln_pnd_H12 ) THEN |
---|
| 782 | sxap = 0._wp ; syap = 0._wp ; sxxap = 0._wp ; syyap = 0._wp ; sxyap = 0._wp ! melt pond fraction |
---|
| 783 | sxvp = 0._wp ; syvp = 0._wp ; sxxvp = 0._wp ; syyvp = 0._wp ; sxyvp = 0._wp ! melt pond volume |
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[8586] | 784 | ENDIF |
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| 785 | ENDIF |
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| 786 | ! |
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[8817] | 787 | ! !=====================================! |
---|
| 788 | ELSEIF( TRIM(cdrw) == 'WRITE' ) THEN !== write in the ice restart file ==! |
---|
| 789 | ! !=====================================! |
---|
| 790 | IF(lwp) WRITE(numout,*) '---- ice-adv-rst ----' |
---|
[8586] | 791 | iter = kt + nn_fsbc - 1 ! ice restarts are written at kt == nitrst - nn_fsbc + 1 |
---|
| 792 | ! |
---|
[8817] | 793 | ! |
---|
| 794 | ! In case Prather scheme is used for advection, write second order moments |
---|
| 795 | ! ------------------------------------------------------------------------ |
---|
| 796 | ! |
---|
| 797 | ! ! ice thickness |
---|
| 798 | CALL iom_rstput( iter, nitrst, numriw, 'sxice' , sxice ) |
---|
| 799 | CALL iom_rstput( iter, nitrst, numriw, 'syice' , syice ) |
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| 800 | CALL iom_rstput( iter, nitrst, numriw, 'sxxice', sxxice ) |
---|
| 801 | CALL iom_rstput( iter, nitrst, numriw, 'syyice', syyice ) |
---|
| 802 | CALL iom_rstput( iter, nitrst, numriw, 'sxyice', sxyice ) |
---|
| 803 | ! ! snow thickness |
---|
| 804 | CALL iom_rstput( iter, nitrst, numriw, 'sxsn' , sxsn ) |
---|
| 805 | CALL iom_rstput( iter, nitrst, numriw, 'sysn' , sysn ) |
---|
| 806 | CALL iom_rstput( iter, nitrst, numriw, 'sxxsn' , sxxsn ) |
---|
| 807 | CALL iom_rstput( iter, nitrst, numriw, 'syysn' , syysn ) |
---|
| 808 | CALL iom_rstput( iter, nitrst, numriw, 'sxysn' , sxysn ) |
---|
[11692] | 809 | ! ! ice concentration |
---|
[8817] | 810 | CALL iom_rstput( iter, nitrst, numriw, 'sxa' , sxa ) |
---|
| 811 | CALL iom_rstput( iter, nitrst, numriw, 'sya' , sya ) |
---|
| 812 | CALL iom_rstput( iter, nitrst, numriw, 'sxxa' , sxxa ) |
---|
| 813 | CALL iom_rstput( iter, nitrst, numriw, 'syya' , syya ) |
---|
| 814 | CALL iom_rstput( iter, nitrst, numriw, 'sxya' , sxya ) |
---|
| 815 | ! ! ice salinity |
---|
| 816 | CALL iom_rstput( iter, nitrst, numriw, 'sxsal' , sxsal ) |
---|
| 817 | CALL iom_rstput( iter, nitrst, numriw, 'sysal' , sysal ) |
---|
| 818 | CALL iom_rstput( iter, nitrst, numriw, 'sxxsal', sxxsal ) |
---|
| 819 | CALL iom_rstput( iter, nitrst, numriw, 'syysal', syysal ) |
---|
| 820 | CALL iom_rstput( iter, nitrst, numriw, 'sxysal', sxysal ) |
---|
| 821 | ! ! ice age |
---|
| 822 | CALL iom_rstput( iter, nitrst, numriw, 'sxage' , sxage ) |
---|
| 823 | CALL iom_rstput( iter, nitrst, numriw, 'syage' , syage ) |
---|
| 824 | CALL iom_rstput( iter, nitrst, numriw, 'sxxage', sxxage ) |
---|
| 825 | CALL iom_rstput( iter, nitrst, numriw, 'syyage', syyage ) |
---|
| 826 | CALL iom_rstput( iter, nitrst, numriw, 'sxyage', sxyage ) |
---|
| 827 | ! ! open water in sea ice |
---|
[9123] | 828 | CALL iom_rstput( iter, nitrst, numriw, 'sxopw' , sxopw ) |
---|
| 829 | CALL iom_rstput( iter, nitrst, numriw, 'syopw' , syopw ) |
---|
[8817] | 830 | CALL iom_rstput( iter, nitrst, numriw, 'sxxopw', sxxopw ) |
---|
| 831 | CALL iom_rstput( iter, nitrst, numriw, 'syyopw', syyopw ) |
---|
| 832 | CALL iom_rstput( iter, nitrst, numriw, 'sxyopw', sxyopw ) |
---|
[9271] | 833 | ! ! snow layers heat content |
---|
| 834 | DO jk = 1, nlay_s |
---|
| 835 | WRITE(zchar1,'(I2.2)') jk |
---|
| 836 | znam = 'sxc0'//'_l'//zchar1 ; z3d(:,:,:) = sxc0 (:,:,jk,:) ; CALL iom_rstput( iter, nitrst, numriw, znam , z3d ) |
---|
| 837 | znam = 'syc0'//'_l'//zchar1 ; z3d(:,:,:) = syc0 (:,:,jk,:) ; CALL iom_rstput( iter, nitrst, numriw, znam , z3d ) |
---|
| 838 | znam = 'sxxc0'//'_l'//zchar1 ; z3d(:,:,:) = sxxc0(:,:,jk,:) ; CALL iom_rstput( iter, nitrst, numriw, znam , z3d ) |
---|
| 839 | znam = 'syyc0'//'_l'//zchar1 ; z3d(:,:,:) = syyc0(:,:,jk,:) ; CALL iom_rstput( iter, nitrst, numriw, znam , z3d ) |
---|
| 840 | znam = 'sxyc0'//'_l'//zchar1 ; z3d(:,:,:) = sxyc0(:,:,jk,:) ; CALL iom_rstput( iter, nitrst, numriw, znam , z3d ) |
---|
| 841 | END DO |
---|
[8817] | 842 | ! ! ice layers heat content |
---|
[9271] | 843 | DO jk = 1, nlay_i |
---|
[8817] | 844 | WRITE(zchar1,'(I2.2)') jk |
---|
[9123] | 845 | znam = 'sxe'//'_l'//zchar1 ; z3d(:,:,:) = sxe (:,:,jk,:) ; CALL iom_rstput( iter, nitrst, numriw, znam , z3d ) |
---|
| 846 | znam = 'sye'//'_l'//zchar1 ; z3d(:,:,:) = sye (:,:,jk,:) ; CALL iom_rstput( iter, nitrst, numriw, znam , z3d ) |
---|
| 847 | znam = 'sxxe'//'_l'//zchar1 ; z3d(:,:,:) = sxxe(:,:,jk,:) ; CALL iom_rstput( iter, nitrst, numriw, znam , z3d ) |
---|
| 848 | znam = 'syye'//'_l'//zchar1 ; z3d(:,:,:) = syye(:,:,jk,:) ; CALL iom_rstput( iter, nitrst, numriw, znam , z3d ) |
---|
| 849 | znam = 'sxye'//'_l'//zchar1 ; z3d(:,:,:) = sxye(:,:,jk,:) ; CALL iom_rstput( iter, nitrst, numriw, znam , z3d ) |
---|
[8586] | 850 | END DO |
---|
[8817] | 851 | ! |
---|
| 852 | IF( ln_pnd_H12 ) THEN ! melt pond fraction |
---|
| 853 | CALL iom_rstput( iter, nitrst, numriw, 'sxap' , sxap ) |
---|
| 854 | CALL iom_rstput( iter, nitrst, numriw, 'syap' , syap ) |
---|
| 855 | CALL iom_rstput( iter, nitrst, numriw, 'sxxap', sxxap ) |
---|
| 856 | CALL iom_rstput( iter, nitrst, numriw, 'syyap', syyap ) |
---|
| 857 | CALL iom_rstput( iter, nitrst, numriw, 'sxyap', sxyap ) |
---|
| 858 | ! ! melt pond volume |
---|
| 859 | CALL iom_rstput( iter, nitrst, numriw, 'sxvp' , sxvp ) |
---|
| 860 | CALL iom_rstput( iter, nitrst, numriw, 'syvp' , syvp ) |
---|
| 861 | CALL iom_rstput( iter, nitrst, numriw, 'sxxvp', sxxvp ) |
---|
| 862 | CALL iom_rstput( iter, nitrst, numriw, 'syyvp', syyvp ) |
---|
| 863 | CALL iom_rstput( iter, nitrst, numriw, 'sxyvp', sxyvp ) |
---|
[8586] | 864 | ENDIF |
---|
| 865 | ! |
---|
| 866 | ENDIF |
---|
| 867 | ! |
---|
| 868 | END SUBROUTINE adv_pra_rst |
---|
| 869 | |
---|
| 870 | #else |
---|
| 871 | !!---------------------------------------------------------------------- |
---|
[9570] | 872 | !! Default option Dummy module NO SI3 sea-ice model |
---|
[8586] | 873 | !!---------------------------------------------------------------------- |
---|
| 874 | #endif |
---|
| 875 | |
---|
| 876 | !!====================================================================== |
---|
| 877 | END MODULE icedyn_adv_pra |
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