[179] | 1 | c |
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| 2 | c $Header$ |
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| 3 | c |
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[2] | 4 | SUBROUTINE physiq (nlon,nlev,nqmax , |
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| 5 | . debut,lafin,rjourvrai,rjour_ecri,gmtime,pdtphys, |
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| 6 | . paprs,pplay,pphi,pphis,paire,presnivs,clesphy0, |
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| 7 | . u,v,t,qx, |
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[177] | 8 | . omega, cufi, cvfi, |
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[2] | 9 | . d_u, d_v, d_t, d_qx, d_ps) |
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| 10 | USE ioipsl |
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[177] | 11 | USE histcom |
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[271] | 12 | USE writephys |
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[177] | 13 | |
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[2] | 14 | IMPLICIT none |
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| 15 | c====================================================================== |
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| 16 | c |
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| 17 | c Auteur(s) Z.X. Li (LMD/CNRS) date: 19930818 |
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| 18 | c |
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| 19 | c Objet: Moniteur general de la physique du modele |
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| 20 | cAA Modifications quant aux traceurs : |
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| 21 | cAA - uniformisation des parametrisations ds phytrac |
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| 22 | cAA - stockage des moyennes des champs necessaires |
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| 23 | cAA en mode traceur off-line |
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| 24 | c====================================================================== |
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| 25 | c modif ( P. Le Van , 12/10/98 ) |
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| 26 | c |
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| 27 | c Arguments: |
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| 28 | c |
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| 29 | c nlon----input-I-nombre de points horizontaux |
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| 30 | c nlev----input-I-nombre de couches verticales |
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| 31 | c nqmax---input-I-nombre de traceurs (y compris vapeur d'eau) = 1 |
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| 32 | c debut---input-L-variable logique indiquant le premier passage |
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| 33 | c lafin---input-L-variable logique indiquant le dernier passage |
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| 34 | c rjour---input-R-numero du jour de l'experience |
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| 35 | c gmtime--input-R-temps universel dans la journee (0 a 86400 s) |
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| 36 | c pdtphys-input-R-pas d'integration pour la physique (seconde) |
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| 37 | c paprs---input-R-pression pour chaque inter-couche (en Pa) |
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| 38 | c pplay---input-R-pression pour le mileu de chaque couche (en Pa) |
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| 39 | c pphi----input-R-geopotentiel de chaque couche (g z) (reference sol) |
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| 40 | c pphis---input-R-geopotentiel du sol |
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| 41 | c paire---input-R-aire de chaque maille |
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| 42 | c presnivs-input_R_pressions approximat. des milieux couches ( en PA) |
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| 43 | c u-------input-R-vitesse dans la direction X (de O a E) en m/s |
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| 44 | c v-------input-R-vitesse Y (de S a N) en m/s |
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| 45 | c t-------input-R-temperature (K) |
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| 46 | c qx------input-R-humidite specifique (kg/kg) et d'autres traceurs |
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| 47 | c d_t_dyn-input-R-tendance dynamique pour "t" (K/s) |
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[46] | 48 | c d_q_dyn-input-R-tendance dynamique pour "q" (kg/kg/s) |
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[2] | 49 | c omega---input-R-vitesse verticale en Pa/s |
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[171] | 50 | c cufi----input-R-resolution des mailles en x (m) |
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| 51 | c cvfi----input-R-resolution des mailles en y (m) |
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[2] | 52 | c |
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| 53 | c d_u-----output-R-tendance physique de "u" (m/s/s) |
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| 54 | c d_v-----output-R-tendance physique de "v" (m/s/s) |
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| 55 | c d_t-----output-R-tendance physique de "t" (K/s) |
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| 56 | c d_qx----output-R-tendance physique de "qx" (kg/kg/s) |
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| 57 | c d_ps----output-R-tendance physique de la pression au sol |
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| 58 | c====================================================================== |
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| 59 | #include "dimensions.h" |
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[80] | 60 | integer jjmp1 |
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| 61 | parameter (jjmp1=jjm+1-1/jjm) |
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[2] | 62 | #include "dimphy.h" |
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| 63 | #include "regdim.h" |
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| 64 | #include "indicesol.h" |
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| 65 | #include "dimsoil.h" |
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| 66 | #include "clesphys.h" |
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| 67 | #include "control.h" |
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[53] | 68 | #include "temps.h" |
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[2] | 69 | c====================================================================== |
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| 70 | LOGICAL check ! Verifier la conservation du modele en eau |
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| 71 | PARAMETER (check=.FALSE.) |
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[46] | 72 | LOGICAL ok_stratus ! Ajouter artificiellement les stratus |
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| 73 | PARAMETER (ok_stratus=.FALSE.) |
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[2] | 74 | c====================================================================== |
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| 75 | c Parametres lies au coupleur OASIS: |
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| 76 | #include "oasis.h" |
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[179] | 77 | INTEGER,SAVE :: npas, nexca |
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[2] | 78 | logical rnpb |
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| 79 | parameter(rnpb=.true.) |
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[112] | 80 | c PARAMETER (npas=1440) |
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| 81 | c PARAMETER (nexca=48) |
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[46] | 82 | EXTERNAL fromcpl, intocpl, inicma |
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[132] | 83 | c ocean = type de modele ocean a utiliser: force, slab, couple |
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[223] | 84 | character*6 ocean |
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| 85 | SAVE ocean |
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| 86 | |
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| 87 | c parameter (ocean = 'force ') |
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[178] | 88 | c parameter (ocean = 'couple') |
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[158] | 89 | logical ok_ocean |
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[2] | 90 | c====================================================================== |
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| 91 | c Clef controlant l'activation du cycle diurne: |
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| 92 | ccc LOGICAL cycle_diurne |
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| 93 | ccc PARAMETER (cycle_diurne=.FALSE.) |
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| 94 | c====================================================================== |
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| 95 | c Modele thermique du sol, a activer pour le cycle diurne: |
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| 96 | ccc LOGICAL soil_model |
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| 97 | ccc PARAMETER (soil_model=.FALSE.) |
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[98] | 98 | logical ok_veget |
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[223] | 99 | save ok_veget |
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| 100 | c parameter (ok_veget = .true.) |
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[205] | 101 | c parameter (ok_veget = .false.) |
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[2] | 102 | c====================================================================== |
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| 103 | c Dans les versions precedentes, l'eau liquide nuageuse utilisee dans |
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| 104 | c le calcul du rayonnement est celle apres la precipitation des nuages. |
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| 105 | c Si cette cle new_oliq est activee, ce sera une valeur moyenne entre |
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| 106 | c la condensation et la precipitation. Cette cle augmente les impacts |
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| 107 | c radiatifs des nuages. |
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| 108 | ccc LOGICAL new_oliq |
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| 109 | ccc PARAMETER (new_oliq=.FALSE.) |
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| 110 | c====================================================================== |
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| 111 | c Clefs controlant deux parametrisations de l'orographie: |
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| 112 | cc LOGICAL ok_orodr |
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| 113 | ccc PARAMETER (ok_orodr=.FALSE.) |
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| 114 | ccc LOGICAL ok_orolf |
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| 115 | ccc PARAMETER (ok_orolf=.FALSE.) |
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| 116 | c====================================================================== |
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| 117 | LOGICAL ok_journe ! sortir le fichier journalier |
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[223] | 118 | save ok_journe |
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| 119 | c PARAMETER (ok_journe=.true.) |
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[2] | 120 | c |
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| 121 | LOGICAL ok_mensuel ! sortir le fichier mensuel |
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[223] | 122 | save ok_mensuel |
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| 123 | c PARAMETER (ok_mensuel=.true.) |
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[2] | 124 | c |
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| 125 | LOGICAL ok_instan ! sortir le fichier instantane |
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[223] | 126 | save ok_instan |
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| 127 | c PARAMETER (ok_instan=.true.) |
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[2] | 128 | c |
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| 129 | LOGICAL ok_region ! sortir le fichier regional |
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| 130 | PARAMETER (ok_region=.FALSE.) |
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| 131 | c====================================================================== |
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| 132 | c |
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| 133 | INTEGER ivap ! indice de traceurs pour vapeur d'eau |
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| 134 | PARAMETER (ivap=1) |
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| 135 | INTEGER iliq ! indice de traceurs pour eau liquide |
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| 136 | PARAMETER (iliq=2) |
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[98] | 137 | |
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[2] | 138 | INTEGER nvm ! nombre de vegetations |
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| 139 | PARAMETER (nvm=8) |
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| 140 | REAL veget(klon,nvm) ! couverture vegetale |
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| 141 | SAVE veget |
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[98] | 142 | |
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[2] | 143 | c |
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[98] | 144 | c |
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[2] | 145 | c Variables argument: |
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| 146 | c |
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| 147 | INTEGER nlon |
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| 148 | INTEGER nlev |
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| 149 | INTEGER nqmax |
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| 150 | REAL rjourvrai, rjour_ecri |
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| 151 | REAL gmtime |
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| 152 | REAL pdtphys |
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| 153 | LOGICAL debut, lafin |
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| 154 | REAL paprs(klon,klev+1) |
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| 155 | REAL pplay(klon,klev) |
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| 156 | REAL pphi(klon,klev) |
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| 157 | REAL pphis(klon) |
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| 158 | REAL paire(klon) |
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| 159 | REAL presnivs(klev) |
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| 160 | REAL znivsig(klev) |
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[171] | 161 | REAL zsurf(nbsrf) |
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| 162 | real cufi(klon), cvfi(klon) |
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[2] | 163 | |
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| 164 | REAL u(klon,klev) |
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| 165 | REAL v(klon,klev) |
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| 166 | REAL t(klon,klev) |
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| 167 | REAL qx(klon,klev,nqmax) |
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| 168 | |
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[46] | 169 | REAL t_ancien(klon,klev), q_ancien(klon,klev) |
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| 170 | SAVE t_ancien, q_ancien |
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| 171 | LOGICAL ancien_ok |
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| 172 | SAVE ancien_ok |
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| 173 | |
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[2] | 174 | REAL d_t_dyn(klon,klev) |
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[46] | 175 | REAL d_q_dyn(klon,klev) |
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[2] | 176 | |
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| 177 | REAL omega(klon,klev) |
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| 178 | |
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| 179 | REAL d_u(klon,klev) |
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| 180 | REAL d_v(klon,klev) |
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| 181 | REAL d_t(klon,klev) |
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| 182 | REAL d_qx(klon,klev,nqmax) |
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| 183 | REAL d_ps(klon) |
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| 184 | |
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| 185 | INTEGER longcles |
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| 186 | PARAMETER ( longcles = 20 ) |
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| 187 | REAL clesphy0( longcles ) |
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| 188 | c |
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| 189 | c Variables quasi-arguments |
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| 190 | c |
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| 191 | REAL xjour |
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| 192 | SAVE xjour |
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| 193 | c |
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| 194 | c |
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| 195 | c Variables propres a la physique |
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| 196 | c |
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| 197 | REAL dtime |
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| 198 | SAVE dtime ! pas temporel de la physique |
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| 199 | c |
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| 200 | INTEGER radpas |
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| 201 | SAVE radpas ! frequence d'appel rayonnement |
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| 202 | c |
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| 203 | REAL radsol(klon) |
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| 204 | SAVE radsol ! bilan radiatif au sol |
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| 205 | c |
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| 206 | REAL rlat(klon) |
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| 207 | SAVE rlat ! latitude pour chaque point |
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| 208 | c |
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| 209 | REAL rlon(klon) |
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| 210 | SAVE rlon ! longitude pour chaque point |
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| 211 | c |
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| 212 | cc INTEGER iflag_con |
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| 213 | cc SAVE iflag_con ! indicateur de la convection |
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| 214 | c |
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| 215 | INTEGER itap |
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| 216 | SAVE itap ! compteur pour la physique |
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| 217 | c |
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| 218 | REAL co2_ppm |
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| 219 | SAVE co2_ppm ! concentration du CO2 |
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| 220 | c |
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| 221 | REAL solaire |
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| 222 | SAVE solaire ! constante solaire |
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| 223 | c |
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| 224 | REAL ftsol(klon,nbsrf) |
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| 225 | SAVE ftsol ! temperature du sol |
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| 226 | c |
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| 227 | REAL ftsoil(klon,nsoilmx,nbsrf) |
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| 228 | SAVE ftsoil ! temperature dans le sol |
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| 229 | c |
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[98] | 230 | REAL fevap(klon,nbsrf) |
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| 231 | SAVE fevap ! evaporation |
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[177] | 232 | REAL fluxlat(klon,nbsrf) |
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| 233 | SAVE fluxlat |
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[98] | 234 | c |
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[2] | 235 | REAL deltat(klon) |
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| 236 | SAVE deltat ! ecart avec la SST de reference |
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| 237 | c |
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| 238 | REAL fqsol(klon,nbsrf) |
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| 239 | SAVE fqsol ! humidite du sol |
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| 240 | c |
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| 241 | REAL fsnow(klon,nbsrf) |
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| 242 | SAVE fsnow ! epaisseur neigeuse |
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| 243 | c |
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[98] | 244 | REAL falbe(klon,nbsrf) |
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| 245 | SAVE falbe ! albedo par type de surface |
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[282] | 246 | REAL falblw(klon,nbsrf) |
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| 247 | SAVE falblw ! albedo par type de surface |
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| 248 | |
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[98] | 249 | c |
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[2] | 250 | c |
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| 251 | c Parametres de l'Orographie a l'Echelle Sous-Maille (OESM): |
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| 252 | c |
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| 253 | REAL zmea(klon) |
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| 254 | SAVE zmea ! orographie moyenne |
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| 255 | c |
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| 256 | REAL zstd(klon) |
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| 257 | SAVE zstd ! deviation standard de l'OESM |
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| 258 | c |
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| 259 | REAL zsig(klon) |
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| 260 | SAVE zsig ! pente de l'OESM |
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| 261 | c |
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| 262 | REAL zgam(klon) |
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| 263 | save zgam ! anisotropie de l'OESM |
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| 264 | c |
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| 265 | REAL zthe(klon) |
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| 266 | SAVE zthe ! orientation de l'OESM |
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| 267 | c |
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| 268 | REAL zpic(klon) |
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| 269 | SAVE zpic ! Maximum de l'OESM |
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| 270 | c |
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| 271 | REAL zval(klon) |
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| 272 | SAVE zval ! Minimum de l'OESM |
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| 273 | c |
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| 274 | REAL rugoro(klon) |
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| 275 | SAVE rugoro ! longueur de rugosite de l'OESM |
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| 276 | c |
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| 277 | REAL zulow(klon),zvlow(klon),zustr(klon), zvstr(klon) |
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| 278 | c |
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| 279 | REAL zuthe(klon),zvthe(klon) |
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| 280 | SAVE zuthe |
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| 281 | SAVE zvthe |
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[158] | 282 | INTEGER igwd,idx(klon),itest(klon) |
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[2] | 283 | c |
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[258] | 284 | REAL agesno(klon,nbsrf) |
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[2] | 285 | SAVE agesno ! age de la neige |
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| 286 | c |
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[230] | 287 | REAL alb_neig(klon) |
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| 288 | SAVE alb_neig ! albedo de la neige |
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| 289 | cKE43 |
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| 290 | c Variables liees a la convection de K. Emanuel (sb): |
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[2] | 291 | c |
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[230] | 292 | REAL ema_workcbmf(klon) ! cloud base mass flux |
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| 293 | SAVE ema_workcbmf |
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| 294 | |
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| 295 | REAL ema_cbmf(klon) ! cloud base mass flux |
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| 296 | SAVE ema_cbmf |
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| 297 | |
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| 298 | REAL ema_pcb(klon) ! cloud base pressure |
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| 299 | SAVE ema_pcb |
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| 300 | |
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| 301 | REAL ema_pct(klon) ! cloud top pressure |
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| 302 | SAVE ema_pct |
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| 303 | |
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| 304 | REAL bas, top ! cloud base and top levels |
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| 305 | SAVE bas |
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| 306 | SAVE top |
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| 307 | |
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| 308 | REAL Ma(klon,klev) ! undilute upward mass flux |
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| 309 | SAVE Ma |
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| 310 | REAL ema_work1(klon, klev), ema_work2(klon, klev) |
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| 311 | SAVE ema_work1, ema_work2 |
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| 312 | REAL wdn(klon), tdn(klon), qdn(klon) |
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| 313 | c Variables locales pour la couche limite (al1): |
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| 314 | c |
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| 315 | cAl1 REAL pblh(klon) ! Hauteur de couche limite |
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| 316 | cAl1 SAVE pblh |
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| 317 | c34EK |
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| 318 | c |
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[2] | 319 | c Variables locales: |
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| 320 | c |
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| 321 | REAL cdragh(klon) ! drag coefficient pour T and Q |
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| 322 | REAL cdragm(klon) ! drag coefficient pour vent |
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| 323 | cAA |
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| 324 | cAA Pour phytrac |
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| 325 | cAA |
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| 326 | REAL ycoefh(klon,klev) ! coef d'echange pour phytrac |
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| 327 | REAL yu1(klon) ! vents dans la premiere couche U |
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| 328 | REAL yv1(klon) ! vents dans la premiere couche V |
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| 329 | LOGICAL offline ! Controle du stockage ds "physique" |
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[80] | 330 | PARAMETER (offline=.false.) |
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[53] | 331 | INTEGER physid |
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[2] | 332 | REAL pfrac_impa(klon,klev)! Produits des coefs lessivage impaction |
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| 333 | save pfrac_impa |
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| 334 | REAL pfrac_nucl(klon,klev)! Produits des coefs lessivage nucleation |
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| 335 | save pfrac_nucl |
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| 336 | REAL pfrac_1nucl(klon,klev)! Produits des coefs lessi nucl (alpha = 1) |
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| 337 | save pfrac_1nucl |
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| 338 | REAL frac_impa(klon,klev) ! fractions d'aerosols lessivees (impaction) |
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| 339 | REAL frac_nucl(klon,klev) ! idem (nucleation) |
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| 340 | cAA |
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| 341 | REAL rain_fall(klon) ! pluie |
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| 342 | REAL snow_fall(klon) ! neige |
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[158] | 343 | save snow_fall, rain_fall |
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[2] | 344 | REAL evap(klon), devap(klon) ! evaporation et sa derivee |
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| 345 | REAL sens(klon), dsens(klon) ! chaleur sensible et sa derivee |
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[258] | 346 | REAL dlw(klon) ! derivee infra rouge |
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[2] | 347 | REAL bils(klon) ! bilan de chaleur au sol |
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| 348 | REAL fder(klon) ! Derive de flux (sensible et latente) |
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[158] | 349 | save fder |
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[2] | 350 | REAL ve(klon) ! integr. verticale du transport meri. de l'energie |
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| 351 | REAL vq(klon) ! integr. verticale du transport meri. de l'eau |
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| 352 | REAL ue(klon) ! integr. verticale du transport zonal de l'energie |
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| 353 | REAL uq(klon) ! integr. verticale du transport zonal de l'eau |
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| 354 | c |
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| 355 | REAL frugs(klon,nbsrf) ! longueur de rugosite |
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[158] | 356 | save frugs |
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[2] | 357 | REAL zxrugs(klon) ! longueur de rugosite |
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| 358 | c |
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| 359 | c Conditions aux limites |
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| 360 | c |
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| 361 | INTEGER julien |
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| 362 | c |
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| 363 | INTEGER lmt_pas |
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| 364 | SAVE lmt_pas ! frequence de mise a jour |
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| 365 | REAL pctsrf(klon,nbsrf) |
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| 366 | SAVE pctsrf ! sous-fraction du sol |
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| 367 | REAL albsol(klon) |
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| 368 | SAVE albsol ! albedo du sol total |
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[282] | 369 | REAL albsollw(klon) |
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| 370 | SAVE albsollw ! albedo du sol total |
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[295] | 371 | REAL albsol1(klon) |
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| 372 | SAVE albsol1 ! albedo du sol total |
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| 373 | REAL albsollw1(klon) |
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| 374 | SAVE albsollw1 ! albedo du sol total |
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[282] | 375 | |
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[2] | 376 | REAL wo(klon,klev) |
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| 377 | SAVE wo ! ozone |
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| 378 | c====================================================================== |
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| 379 | c |
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| 380 | c Declaration des procedures appelees |
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| 381 | c |
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| 382 | EXTERNAL angle ! calculer angle zenithal du soleil |
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| 383 | EXTERNAL alboc ! calculer l'albedo sur ocean |
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| 384 | EXTERNAL albsno ! calculer albedo sur neige |
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| 385 | EXTERNAL ajsec ! ajustement sec |
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| 386 | EXTERNAL clmain ! couche limite |
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| 387 | EXTERNAL condsurf ! lire les conditions aux limites |
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| 388 | EXTERNAL conlmd ! convection (schema LMD) |
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[230] | 389 | cKE43 |
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[373] | 390 | EXTERNAL conema3 ! convect4.3 |
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[2] | 391 | EXTERNAL fisrtilp ! schema de condensation a grande echelle (pluie) |
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| 392 | cAA |
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| 393 | EXTERNAL fisrtilp_tr ! schema de condensation a grande echelle (pluie) |
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| 394 | c ! stockage des coefficients necessaires au |
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| 395 | c ! lessivage OFF-LINE et ON-LINE |
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| 396 | cAA |
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| 397 | EXTERNAL hgardfou ! verifier les temperatures |
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| 398 | EXTERNAL nuage ! calculer les proprietes radiatives |
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| 399 | EXTERNAL o3cm ! initialiser l'ozone |
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| 400 | EXTERNAL orbite ! calculer l'orbite terrestre |
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| 401 | EXTERNAL ozonecm ! prescrire l'ozone |
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| 402 | EXTERNAL phyetat0 ! lire l'etat initial de la physique |
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| 403 | EXTERNAL phyredem ! ecrire l'etat de redemarrage de la physique |
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| 404 | EXTERNAL radlwsw ! rayonnements solaire et infrarouge |
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| 405 | EXTERNAL suphec ! initialiser certaines constantes |
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| 406 | EXTERNAL transp ! transport total de l'eau et de l'energie |
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| 407 | EXTERNAL ecribina ! ecrire le fichier binaire global |
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| 408 | EXTERNAL ecribins ! ecrire le fichier binaire global |
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| 409 | EXTERNAL ecrirega ! ecrire le fichier binaire regional |
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| 410 | EXTERNAL ecriregs ! ecrire le fichier binaire regional |
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| 411 | c |
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| 412 | c Variables locales |
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| 413 | c |
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[373] | 414 | real clwcon(klon,klev),rnebcon(klon,klev) |
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| 415 | real clwcon0(klon,klev),rnebcon0(klon,klev) |
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| 416 | save rnebcon, clwcon |
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| 417 | |
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| 418 | REAL rhcl(klon,klev) ! humiditi relative ciel clair |
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[2] | 419 | REAL dialiq(klon,klev) ! eau liquide nuageuse |
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| 420 | REAL diafra(klon,klev) ! fraction nuageuse |
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| 421 | REAL cldliq(klon,klev) ! eau liquide nuageuse |
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| 422 | REAL cldfra(klon,klev) ! fraction nuageuse |
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| 423 | REAL cldtau(klon,klev) ! epaisseur optique |
---|
| 424 | REAL cldemi(klon,klev) ! emissivite infrarouge |
---|
| 425 | c |
---|
[98] | 426 | C§§§ PB |
---|
| 427 | REAL fluxq(klon,klev, nbsrf) ! flux turbulent d'humidite |
---|
| 428 | REAL fluxt(klon,klev, nbsrf) ! flux turbulent de chaleur |
---|
| 429 | REAL fluxu(klon,klev, nbsrf) ! flux turbulent de vitesse u |
---|
| 430 | REAL fluxv(klon,klev, nbsrf) ! flux turbulent de vitesse v |
---|
[2] | 431 | c |
---|
[98] | 432 | REAL zxfluxt(klon, klev) |
---|
| 433 | REAL zxfluxq(klon, klev) |
---|
| 434 | REAL zxfluxu(klon, klev) |
---|
| 435 | REAL zxfluxv(klon, klev) |
---|
| 436 | C§§§ |
---|
[2] | 437 | REAL heat(klon,klev) ! chauffage solaire |
---|
| 438 | REAL heat0(klon,klev) ! chauffage solaire ciel clair |
---|
| 439 | REAL cool(klon,klev) ! refroidissement infrarouge |
---|
| 440 | REAL cool0(klon,klev) ! refroidissement infrarouge ciel clair |
---|
| 441 | REAL topsw(klon), toplw(klon), solsw(klon), sollw(klon) |
---|
[177] | 442 | real sollwdown(klon) ! downward LW flux at surface |
---|
[2] | 443 | REAL topsw0(klon), toplw0(klon), solsw0(klon), sollw0(klon) |
---|
| 444 | REAL albpla(klon) |
---|
| 445 | c Le rayonnement n'est pas calcule tous les pas, il faut donc |
---|
| 446 | c sauvegarder les sorties du rayonnement |
---|
[177] | 447 | SAVE heat,cool,albpla,topsw,toplw,solsw,sollw,sollwdown |
---|
[2] | 448 | SAVE topsw0,toplw0,solsw0,sollw0, heat0, cool0 |
---|
| 449 | INTEGER itaprad |
---|
| 450 | SAVE itaprad |
---|
| 451 | c |
---|
| 452 | REAL conv_q(klon,klev) ! convergence de l'humidite (kg/kg/s) |
---|
| 453 | REAL conv_t(klon,klev) ! convergence de la temperature(K/s) |
---|
| 454 | c |
---|
| 455 | REAL cldl(klon),cldm(klon),cldh(klon) !nuages bas, moyen et haut |
---|
| 456 | REAL cldt(klon),cldq(klon) !nuage total, eau liquide integree |
---|
| 457 | c |
---|
| 458 | REAL zxtsol(klon), zxqsol(klon), zxsnow(klon) |
---|
| 459 | c |
---|
| 460 | REAL dist, rmu0(klon), fract(klon) |
---|
| 461 | REAL zdtime, zlongi |
---|
| 462 | c |
---|
| 463 | CHARACTER*2 str2 |
---|
[235] | 464 | CHARACTER*2 iqn |
---|
[2] | 465 | c |
---|
[46] | 466 | REAL qcheck |
---|
| 467 | REAL z_avant(klon), z_apres(klon), z_factor(klon) |
---|
| 468 | LOGICAL zx_ajustq |
---|
| 469 | c |
---|
[2] | 470 | REAL za, zb |
---|
[373] | 471 | REAL zx_t, zx_qs, zdelta, zcor, zfra, zlvdcp, zlsdcp |
---|
| 472 | real zqsat(klon,klev) |
---|
| 473 | INTEGER i, k, iq, ig, j, nsrf, ll |
---|
[2] | 474 | REAL t_coup |
---|
| 475 | PARAMETER (t_coup=234.0) |
---|
| 476 | c |
---|
| 477 | REAL zphi(klon,klev) |
---|
[230] | 478 | REAL zx_tmp_x(iim), zx_tmp_yjjmp1 |
---|
| 479 | REAL zx_relief(iim,jjmp1) |
---|
| 480 | REAL zx_aire(iim,jjmp1) |
---|
| 481 | cKE43 |
---|
| 482 | c Variables locales pour la convection de K. Emanuel (sb): |
---|
[2] | 483 | c |
---|
[230] | 484 | REAL upwd(klon,klev) ! saturated updraft mass flux |
---|
| 485 | REAL dnwd(klon,klev) ! saturated downdraft mass flux |
---|
| 486 | REAL dnwd0(klon,klev) ! unsaturated downdraft mass flux |
---|
| 487 | REAL tvp(klon,klev) ! virtual temp of lifted parcel |
---|
| 488 | REAL cape(klon) ! CAPE |
---|
| 489 | SAVE cape |
---|
| 490 | REAL pbase(klon) ! cloud base pressure |
---|
| 491 | SAVE pbase |
---|
| 492 | REAL bbase(klon) ! cloud base buoyancy |
---|
| 493 | SAVE bbase |
---|
| 494 | REAL rflag(klon) ! flag fonctionnement de convect |
---|
[263] | 495 | INTEGER iflagctrl(klon) ! flag fonctionnement de convect |
---|
[230] | 496 | c -- convect43: |
---|
| 497 | INTEGER ntra ! nb traceurs pour convect4.3 |
---|
| 498 | REAL pori_con(klon) ! pressure at the origin level of lifted parcel |
---|
| 499 | REAL plcl_con(klon),dtma_con(klon),dtlcl_con(klon) |
---|
| 500 | REAL dtvpdt1(klon,klev), dtvpdq1(klon,klev) |
---|
| 501 | REAL dplcldt(klon), dplcldr(klon) |
---|
| 502 | c? . condm_con(klon,klev),conda_con(klon,klev), |
---|
| 503 | c? . mr_con(klon,klev),ep_con(klon,klev) |
---|
| 504 | c? . ,sadiab(klon,klev),wadiab(klon,klev) |
---|
| 505 | c -- |
---|
| 506 | c34EK |
---|
| 507 | c |
---|
[2] | 508 | c Variables du changement |
---|
| 509 | c |
---|
| 510 | c con: convection |
---|
| 511 | c lsc: condensation a grande echelle (Large-Scale-Condensation) |
---|
| 512 | c ajs: ajustement sec |
---|
| 513 | c eva: evaporation de l'eau liquide nuageuse |
---|
| 514 | c vdf: couche limite (Vertical DiFfusion) |
---|
| 515 | REAL d_t_con(klon,klev),d_q_con(klon,klev) |
---|
| 516 | REAL d_u_con(klon,klev),d_v_con(klon,klev) |
---|
| 517 | REAL d_t_lsc(klon,klev),d_q_lsc(klon,klev),d_ql_lsc(klon,klev) |
---|
[46] | 518 | REAL d_t_ajs(klon,klev), d_q_ajs(klon,klev) |
---|
[2] | 519 | REAL d_t_eva(klon,klev),d_q_eva(klon,klev) |
---|
| 520 | REAL rneb(klon,klev) |
---|
| 521 | c |
---|
| 522 | REAL pmfu(klon,klev), pmfd(klon,klev) |
---|
| 523 | REAL pen_u(klon,klev), pen_d(klon,klev) |
---|
| 524 | REAL pde_u(klon,klev), pde_d(klon,klev) |
---|
| 525 | INTEGER kcbot(klon), kctop(klon), kdtop(klon) |
---|
| 526 | REAL pmflxr(klon,klev+1), pmflxs(klon,klev+1) |
---|
[23] | 527 | REAL prfl(klon,klev+1), psfl(klon,klev+1) |
---|
[2] | 528 | c |
---|
| 529 | INTEGER ibas_con(klon), itop_con(klon) |
---|
| 530 | REAL rain_con(klon), rain_lsc(klon) |
---|
| 531 | REAL snow_con(klon), snow_lsc(klon) |
---|
| 532 | REAL d_ts(klon,nbsrf) |
---|
| 533 | c |
---|
| 534 | REAL d_u_vdf(klon,klev), d_v_vdf(klon,klev) |
---|
| 535 | REAL d_t_vdf(klon,klev), d_q_vdf(klon,klev) |
---|
| 536 | c |
---|
| 537 | REAL d_u_oro(klon,klev), d_v_oro(klon,klev) |
---|
| 538 | REAL d_t_oro(klon,klev) |
---|
| 539 | REAL d_u_lif(klon,klev), d_v_lif(klon,klev) |
---|
| 540 | REAL d_t_lif(klon,klev) |
---|
[230] | 541 | |
---|
[373] | 542 | REAL ratqs(klon,klev),ratqss(klon,klev),ratqsc(klon,klev) |
---|
| 543 | real ratqsbas,ratqshaut |
---|
| 544 | save ratqsbas,ratqshaut, ratqs |
---|
[287] | 545 | real zpt_conv(klon,klev) |
---|
[230] | 546 | |
---|
[373] | 547 | c Parametres lies au nouveau schema de nuages (SB, PDF) |
---|
| 548 | real fact_cldcon |
---|
| 549 | real facttemps |
---|
| 550 | logical ok_newmicro |
---|
| 551 | save ok_newmicro |
---|
| 552 | save fact_cldcon,facttemps |
---|
[385] | 553 | real facteur |
---|
[373] | 554 | |
---|
| 555 | integer iflag_cldcon |
---|
| 556 | save iflag_cldcon |
---|
| 557 | |
---|
| 558 | logical ptconv(klon,klev) |
---|
| 559 | |
---|
[2] | 560 | c |
---|
| 561 | c Variables liees a l'ecriture de la bande histoire physique |
---|
| 562 | c |
---|
| 563 | INTEGER ecrit_mth |
---|
| 564 | SAVE ecrit_mth ! frequence d'ecriture (fichier mensuel) |
---|
| 565 | c |
---|
| 566 | INTEGER ecrit_day |
---|
| 567 | SAVE ecrit_day ! frequence d'ecriture (fichier journalier) |
---|
| 568 | c |
---|
| 569 | INTEGER ecrit_ins |
---|
| 570 | SAVE ecrit_ins ! frequence d'ecriture (fichier instantane) |
---|
| 571 | c |
---|
| 572 | INTEGER ecrit_reg |
---|
| 573 | SAVE ecrit_reg ! frequence d'ecriture |
---|
| 574 | c |
---|
[353] | 575 | integer itau_w ! pas de temps ecriture = itap + itau_phy |
---|
[2] | 576 | c |
---|
| 577 | c |
---|
| 578 | c Variables locales pour effectuer les appels en serie |
---|
| 579 | c |
---|
| 580 | REAL t_seri(klon,klev), q_seri(klon,klev) |
---|
[385] | 581 | REAL ql_seri(klon,klev),qs_seri(klon,klev) |
---|
[2] | 582 | REAL u_seri(klon,klev), v_seri(klon,klev) |
---|
| 583 | c |
---|
| 584 | REAL tr_seri(klon,klev,nbtr) |
---|
[235] | 585 | REAL d_tr(klon,klev,nbtr) |
---|
[2] | 586 | |
---|
| 587 | REAL zx_rh(klon,klev) |
---|
| 588 | |
---|
| 589 | INTEGER length |
---|
| 590 | PARAMETER ( length = 100 ) |
---|
| 591 | REAL tabcntr0( length ) |
---|
| 592 | c |
---|
[80] | 593 | INTEGER ndex2d(iim*jjmp1),ndex3d(iim*jjmp1*klev) |
---|
[2] | 594 | REAL zx_tmp_fi2d(klon) |
---|
[80] | 595 | REAL zx_tmp_2d(iim,jjmp1), zx_tmp_3d(iim,jjmp1,klev) |
---|
| 596 | REAL zx_lon(iim,jjmp1), zx_lat(iim,jjmp1) |
---|
[2] | 597 | c |
---|
| 598 | INTEGER nid_day, nid_mth, nid_ins |
---|
| 599 | SAVE nid_day, nid_mth, nid_ins |
---|
| 600 | c |
---|
[152] | 601 | INTEGER nhori, nvert |
---|
[295] | 602 | REAL zsto, zout |
---|
| 603 | real zjulian |
---|
| 604 | save zjulian |
---|
[2] | 605 | |
---|
| 606 | character*20 modname |
---|
| 607 | character*80 abort_message |
---|
| 608 | logical ok_sync |
---|
[205] | 609 | real date0 |
---|
[353] | 610 | integer idayref |
---|
[2] | 611 | |
---|
[271] | 612 | C essai writephys |
---|
| 613 | integer fid_day, fid_mth, fid_ins |
---|
| 614 | parameter (fid_ins = 1, fid_day = 2, fid_mth = 3) |
---|
| 615 | integer prof2d_on, prof3d_on, prof2d_av, prof3d_av |
---|
| 616 | parameter (prof2d_on = 1, prof3d_on = 2, |
---|
| 617 | . prof2d_av = 3, prof3d_av = 4) |
---|
| 618 | character*30 nom_fichier |
---|
| 619 | character*10 varname |
---|
| 620 | character*40 vartitle |
---|
| 621 | character*20 varunits |
---|
[385] | 622 | C Variables liees au bilan d'energie et d'enthalpi |
---|
| 623 | INTEGER if_ebil ! level for energy conserv. dignostics |
---|
| 624 | SAVE if_ebil |
---|
| 625 | REAL ztsol(klon) |
---|
| 626 | REAL h_vcol_tot, h_dair_tot, h_qw_tot, h_ql_tot |
---|
| 627 | $ , h_qs_tot, qw_tot, ql_tot, qs_tot , ec_tot |
---|
| 628 | SAVE h_vcol_tot, h_dair_tot, h_qw_tot, h_ql_tot |
---|
| 629 | $ , h_qs_tot, qw_tot, ql_tot, qs_tot , ec_tot |
---|
| 630 | REAL d_h_vcol, d_h_dair, d_qt, d_qw, d_ql, d_qs, d_ec |
---|
| 631 | REAL d_h_vcol_phy |
---|
| 632 | REAL fs_bound, fq_bound |
---|
| 633 | SAVE d_h_vcol_phy |
---|
| 634 | REAL zero_v(klon) |
---|
| 635 | CHARACTER*15 ztit |
---|
| 636 | INTEGER ip_ebil ! PRINT level for energy conserv. diag. |
---|
| 637 | SAVE ip_ebil |
---|
| 638 | DATA ip_ebil/2/ |
---|
[2] | 639 | c |
---|
| 640 | c Declaration des constantes et des fonctions thermodynamiques |
---|
| 641 | c |
---|
| 642 | #include "YOMCST.h" |
---|
| 643 | #include "YOETHF.h" |
---|
| 644 | #include "FCTTRE.h" |
---|
| 645 | c====================================================================== |
---|
| 646 | modname = 'physiq' |
---|
[385] | 647 | if_ebil = 2 |
---|
| 648 | IF (if_ebil.ge.1) THEN |
---|
| 649 | DO i=1,klon |
---|
| 650 | zero_v(i)=0. |
---|
| 651 | END DO |
---|
| 652 | END IF |
---|
[2] | 653 | ok_sync=.TRUE. |
---|
| 654 | IF (nqmax .LT. 2) THEN |
---|
| 655 | PRINT*, 'eaux vapeur et liquide sont indispensables' |
---|
| 656 | CALL ABORT |
---|
| 657 | ENDIF |
---|
| 658 | IF (debut) THEN |
---|
| 659 | CALL suphec ! initialiser constantes et parametres phys. |
---|
| 660 | ENDIF |
---|
[88] | 661 | |
---|
| 662 | |
---|
[2] | 663 | c====================================================================== |
---|
| 664 | xjour = rjourvrai |
---|
| 665 | c |
---|
| 666 | c Si c'est le debut, il faut initialiser plusieurs choses |
---|
| 667 | c ******** |
---|
| 668 | c |
---|
| 669 | IF (debut) THEN |
---|
[385] | 670 | C |
---|
| 671 | IF (if_ebil.ge.1) d_h_vcol_phy=0. |
---|
[223] | 672 | c |
---|
| 673 | c appel a la lecture du run.def physique |
---|
| 674 | c |
---|
| 675 | call conf_phys(ocean, ok_veget, ok_journe, ok_mensuel, |
---|
[373] | 676 | . ok_instan, fact_cldcon, facttemps,ok_newmicro, |
---|
| 677 | . iflag_cldcon,ratqsbas,ratqshaut) |
---|
[223] | 678 | |
---|
[2] | 679 | DO k = 2, nvm ! pas de vegetation |
---|
| 680 | DO i = 1, klon |
---|
| 681 | veget(i,k) = 0.0 |
---|
| 682 | ENDDO |
---|
| 683 | ENDDO |
---|
| 684 | DO i = 1, klon |
---|
| 685 | veget(i,1) = 1.0 ! il n'y a que du desert |
---|
| 686 | ENDDO |
---|
| 687 | PRINT*, 'Pas de vegetation; desert partout' |
---|
| 688 | c |
---|
[98] | 689 | c |
---|
[2] | 690 | c Initialiser les compteurs: |
---|
| 691 | c |
---|
| 692 | |
---|
[158] | 693 | frugs = 0. |
---|
[2] | 694 | itap = 0 |
---|
| 695 | itaprad = 0 |
---|
| 696 | c |
---|
| 697 | CALL phyetat0 ("startphy.nc",dtime,co2_ppm,solaire, |
---|
[98] | 698 | . rlat,rlon,pctsrf, ftsol,ftsoil,deltat,fqsol,fsnow, |
---|
[177] | 699 | . falbe, fevap, rain_fall,snow_fall,solsw, sollwdown, |
---|
[258] | 700 | . dlw,radsol,frugs,agesno,clesphy0, |
---|
[46] | 701 | . zmea,zstd,zsig,zgam,zthe,zpic,zval,rugoro,tabcntr0, |
---|
[373] | 702 | . t_ancien, q_ancien, ancien_ok, rnebcon, ratqs,clwcon ) |
---|
[2] | 703 | |
---|
| 704 | c |
---|
| 705 | radpas = NINT( 86400./dtime/nbapp_rad) |
---|
| 706 | |
---|
| 707 | c |
---|
| 708 | CALL printflag( tabcntr0,radpas,ok_ocean,ok_oasis ,ok_journe, |
---|
| 709 | , ok_instan, ok_region ) |
---|
| 710 | c |
---|
| 711 | IF (ABS(dtime-pdtphys).GT.0.001) THEN |
---|
| 712 | PRINT*, 'Pas physique n est pas correcte',dtime,pdtphys |
---|
| 713 | abort_message=' See above ' |
---|
| 714 | call abort_gcm(modname,abort_message,1) |
---|
| 715 | ENDIF |
---|
| 716 | IF (nlon .NE. klon) THEN |
---|
| 717 | PRINT*, 'nlon et klon ne sont pas coherents', nlon, klon |
---|
| 718 | abort_message=' See above ' |
---|
| 719 | call abort_gcm(modname,abort_message,1) |
---|
| 720 | ENDIF |
---|
| 721 | IF (nlev .NE. klev) THEN |
---|
| 722 | PRINT*, 'nlev et klev ne sont pas coherents', nlev, klev |
---|
| 723 | abort_message=' See above ' |
---|
| 724 | call abort_gcm(modname,abort_message,1) |
---|
| 725 | ENDIF |
---|
| 726 | c |
---|
| 727 | IF (dtime*FLOAT(radpas).GT.21600..AND.cycle_diurne) THEN |
---|
| 728 | PRINT*, 'Nbre d appels au rayonnement insuffisant' |
---|
| 729 | PRINT*, "Au minimum 4 appels par jour si cycle diurne" |
---|
| 730 | abort_message=' See above ' |
---|
| 731 | call abort_gcm(modname,abort_message,1) |
---|
| 732 | ENDIF |
---|
| 733 | PRINT*, "Clef pour la convection, iflag_con=", iflag_con |
---|
| 734 | c |
---|
[230] | 735 | cKE43 |
---|
| 736 | c Initialisation pour la convection de K.E. (sb): |
---|
[301] | 737 | IF (iflag_con.GE.3) THEN |
---|
[230] | 738 | |
---|
| 739 | PRINT*, "*** Convection de Kerry Emanuel 4.3 " |
---|
| 740 | PRINT*, "On va utiliser le melange convectif des traceurs qui" |
---|
| 741 | PRINT*, "est calcule dans convect4.3" |
---|
| 742 | PRINT*, " !!! penser aux logical flags de phytrac" |
---|
| 743 | |
---|
| 744 | DO i = 1, klon |
---|
| 745 | ema_cbmf(i) = 0. |
---|
| 746 | ema_pcb(i) = 0. |
---|
| 747 | ema_pct(i) = 0. |
---|
| 748 | ema_workcbmf(i) = 0. |
---|
| 749 | ENDDO |
---|
| 750 | ENDIF |
---|
| 751 | c34EK |
---|
[2] | 752 | IF (ok_orodr) THEN |
---|
| 753 | DO i=1,klon |
---|
| 754 | rugoro(i) = MAX(1.0e-05, zstd(i)*zsig(i)/2.0) |
---|
| 755 | ENDDO |
---|
| 756 | CALL SUGWD(klon,klev,paprs,pplay) |
---|
| 757 | DO i=1,klon |
---|
| 758 | zuthe(i)=0. |
---|
| 759 | zvthe(i)=0. |
---|
| 760 | if(zstd(i).gt.10.)then |
---|
| 761 | zuthe(i)=(1.-zgam(i))*cos(zthe(i)) |
---|
| 762 | zvthe(i)=(1.-zgam(i))*sin(zthe(i)) |
---|
| 763 | endif |
---|
| 764 | ENDDO |
---|
| 765 | ENDIF |
---|
| 766 | c |
---|
| 767 | c |
---|
| 768 | lmt_pas = NINT(86400./dtime * 1.0) ! tous les jours |
---|
| 769 | PRINT*,'La frequence de lecture surface est de ', lmt_pas |
---|
| 770 | c |
---|
| 771 | ecrit_mth = NINT(86400./dtime *ecritphy) ! tous les ecritphy jours |
---|
| 772 | IF (ok_mensuel) THEN |
---|
| 773 | PRINT*, 'La frequence de sortie mensuelle est de ', ecrit_mth |
---|
| 774 | ENDIF |
---|
| 775 | ecrit_day = NINT(86400./dtime *1.0) ! tous les jours |
---|
| 776 | IF (ok_journe) THEN |
---|
| 777 | PRINT*, 'La frequence de sortie journaliere est de ',ecrit_day |
---|
| 778 | ENDIF |
---|
| 779 | ccc ecrit_ins = NINT(86400./dtime *0.5) ! 2 fois par jour |
---|
[80] | 780 | ccc ecrit_ins = NINT(86400./dtime *0.25) ! 4 fois par jour |
---|
[364] | 781 | ecrit_ins = NINT(86400./dtime/12.) ! toutes les deux heures |
---|
[80] | 782 | ecrit_ins = NINT(86400./dtime/48.) ! a chaque pas de temps |
---|
[2] | 783 | IF (ok_instan) THEN |
---|
| 784 | PRINT*, 'La frequence de sortie instant. est de ', ecrit_ins |
---|
| 785 | ENDIF |
---|
| 786 | ecrit_reg = NINT(86400./dtime *0.25) ! 4 fois par jour |
---|
| 787 | IF (ok_region) THEN |
---|
| 788 | PRINT*, 'La frequence de sortie region est de ', ecrit_reg |
---|
| 789 | ENDIF |
---|
[112] | 790 | |
---|
[2] | 791 | c |
---|
[112] | 792 | c Initialiser le couplage si necessaire |
---|
[2] | 793 | c |
---|
[112] | 794 | npas = 0 |
---|
| 795 | nexca = 0 |
---|
| 796 | if (ocean == 'couple') then |
---|
| 797 | npas = itaufin/ iphysiq |
---|
| 798 | nexca = 86400 / dtime |
---|
| 799 | write(*,*)' ##### Ocean couple #####' |
---|
| 800 | write(*,*)' Valeurs des pas de temps' |
---|
| 801 | write(*,*)' npas = ', npas |
---|
| 802 | write(*,*)' nexca = ', nexca |
---|
| 803 | endif |
---|
| 804 | c |
---|
| 805 | c |
---|
[295] | 806 | c Gestion calendrier |
---|
| 807 | |
---|
| 808 | c |
---|
[2] | 809 | IF (ok_journe) THEN |
---|
| 810 | c |
---|
[353] | 811 | idayref = day_ref |
---|
| 812 | CALL ymds2ju(annee_ref, 1, idayref, 0.0, zjulian) |
---|
[2] | 813 | c |
---|
[80] | 814 | CALL gr_fi_ecrit(1,klon,iim,jjmp1,rlon,zx_lon) |
---|
[2] | 815 | DO i = 1, iim |
---|
| 816 | zx_lon(i,1) = rlon(i+1) |
---|
[80] | 817 | zx_lon(i,jjmp1) = rlon(i+1) |
---|
[2] | 818 | ENDDO |
---|
| 819 | DO ll=1,klev |
---|
| 820 | znivsig(ll)=float(ll) |
---|
| 821 | ENDDO |
---|
[80] | 822 | CALL gr_fi_ecrit(1,klon,iim,jjmp1,rlat,zx_lat) |
---|
[353] | 823 | write(*,*)'zx_lon = ',zx_lon(:,1) |
---|
| 824 | write(*,*)'zx_lat = ',zx_lat(1,:) |
---|
[340] | 825 | CALL histbeg("histday", iim,zx_lon(:,1), jjmp1,zx_lat(1,:), |
---|
[353] | 826 | . 1,iim,1,jjmp1, itau_phy, zjulian, dtime, |
---|
[2] | 827 | . nhori, nid_day) |
---|
[353] | 828 | write(*,*)'Journee ', itau_phy, zjulian |
---|
[230] | 829 | CALL histvert(nid_day, "presnivs", "Vertical levels", "mb", |
---|
| 830 | . klev, presnivs, nvert) |
---|
| 831 | c call histvert(nid_day, 'sig_s', 'Niveaux sigma','-', |
---|
| 832 | c . klev, znivsig, nvert) |
---|
[2] | 833 | c |
---|
| 834 | zsto = dtime |
---|
| 835 | zout = dtime * FLOAT(ecrit_day) |
---|
[271] | 836 | C Essai writephys |
---|
[282] | 837 | c nom_fichier = 'histday1' |
---|
| 838 | c call writephy_ini(fid_day,nom_fichier,klon,iim,jjmp1,klev, |
---|
| 839 | c . rlon,rlat, presnivs, |
---|
| 840 | c . zjulian, dtime) |
---|
| 841 | c call writephy_def(prof2d_on, fid_day, "once", zsto, zout, 0) |
---|
| 842 | c call writephy_def(prof3d_on, fid_day, "once", zsto, zout, |
---|
| 843 | c . klev) |
---|
| 844 | c call writephy_def(prof2d_av, fid_day, "ave(X)", zsto, zout, 0) |
---|
| 845 | c call writephy_def(prof3d_av, fid_day, "ave(X)", zsto, zout, |
---|
| 846 | c . klev) |
---|
[271] | 847 | |
---|
[2] | 848 | c |
---|
| 849 | CALL histdef(nid_day, "phis", "Surface geop. height", "-", |
---|
[80] | 850 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 851 | . "once", zsto,zout) |
---|
| 852 | c |
---|
| 853 | CALL histdef(nid_day, "aire", "Grid area", "-", |
---|
[80] | 854 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 855 | . "once", zsto,zout) |
---|
| 856 | c |
---|
| 857 | c Champs 2D: |
---|
| 858 | c |
---|
| 859 | CALL histdef(nid_day, "tsol", "Surface Temperature", "K", |
---|
[80] | 860 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 861 | . "ave(X)", zsto,zout) |
---|
| 862 | c |
---|
[98] | 863 | CALL histdef(nid_day, "tter", "Surface Temperature", "K", |
---|
| 864 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 865 | . "ave(X)", zsto,zout) |
---|
| 866 | c |
---|
| 867 | CALL histdef(nid_day, "tlic", "Surface Temperature", "K", |
---|
| 868 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 869 | . "ave(X)", zsto,zout) |
---|
| 870 | c |
---|
| 871 | CALL histdef(nid_day, "toce", "Surface Temperature", "K", |
---|
| 872 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 873 | . "ave(X)", zsto,zout) |
---|
| 874 | c |
---|
| 875 | CALL histdef(nid_day, "tsic", "Surface Temperature", "K", |
---|
| 876 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 877 | . "ave(X)", zsto,zout) |
---|
| 878 | c |
---|
[2] | 879 | CALL histdef(nid_day, "psol", "Surface Pressure", "Pa", |
---|
[80] | 880 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 881 | . "ave(X)", zsto,zout) |
---|
| 882 | c |
---|
| 883 | CALL histdef(nid_day, "rain", "Precipitation", "mm/day", |
---|
[80] | 884 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 885 | . "ave(X)", zsto,zout) |
---|
| 886 | c |
---|
| 887 | CALL histdef(nid_day, "snow", "Snow fall", "mm/day", |
---|
[80] | 888 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 889 | . "ave(X)", zsto,zout) |
---|
| 890 | c |
---|
[171] | 891 | CALL histdef(nid_day, "snow_cov", "Snow cover", "mm", |
---|
| 892 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 893 | . "ave(X)", zsto,zout) |
---|
| 894 | c |
---|
[2] | 895 | CALL histdef(nid_day, "evap", "Evaporation", "mm/day", |
---|
[80] | 896 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 897 | . "ave(X)", zsto,zout) |
---|
| 898 | c |
---|
| 899 | CALL histdef(nid_day, "tops", "Solar rad. at TOA", "W/m2", |
---|
[80] | 900 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 901 | . "ave(X)", zsto,zout) |
---|
| 902 | c |
---|
| 903 | CALL histdef(nid_day, "topl", "IR rad. at TOA", "W/m2", |
---|
[80] | 904 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 905 | . "ave(X)", zsto,zout) |
---|
| 906 | c |
---|
| 907 | CALL histdef(nid_day, "sols", "Solar rad. at surf.", "W/m2", |
---|
[80] | 908 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 909 | . "ave(X)", zsto,zout) |
---|
| 910 | c |
---|
| 911 | CALL histdef(nid_day, "soll", "IR rad. at surface", "W/m2", |
---|
[80] | 912 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 913 | . "ave(X)", zsto,zout) |
---|
| 914 | c |
---|
[177] | 915 | CALL histdef(nid_day, "solldown", "Down. IR rad. at surface", |
---|
| 916 | . "W/m2", iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 917 | . "ave(X)", zsto,zout) |
---|
| 918 | c |
---|
[2] | 919 | CALL histdef(nid_day, "bils", "Surf. total heat flux", "W/m2", |
---|
[80] | 920 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 921 | . "ave(X)", zsto,zout) |
---|
| 922 | c |
---|
| 923 | CALL histdef(nid_day, "sens", "Sensible heat flux", "W/m2", |
---|
[80] | 924 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 925 | . "ave(X)", zsto,zout) |
---|
| 926 | c |
---|
| 927 | CALL histdef(nid_day, "fder", "Heat flux derivation", "W/m2", |
---|
[80] | 928 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 929 | . "ave(X)", zsto,zout) |
---|
| 930 | c |
---|
| 931 | CALL histdef(nid_day, "frtu", "Zonal wind stress", "Pa", |
---|
[80] | 932 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 933 | . "ave(X)", zsto,zout) |
---|
| 934 | c |
---|
| 935 | CALL histdef(nid_day, "frtv", "Meridional wind stress", "Pa", |
---|
[80] | 936 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 937 | . "ave(X)", zsto,zout) |
---|
| 938 | c |
---|
[98] | 939 | C §§§ PB flux pour chauqe sous surface |
---|
| 940 | C |
---|
| 941 | DO nsrf = 1, nbsrf |
---|
| 942 | C |
---|
| 943 | call histdef(nid_day, "pourc_"//clnsurf(nsrf), |
---|
| 944 | $ "Fraction"//clnsurf(nsrf), "W/m2", |
---|
| 945 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 946 | $ "ave(X)", zsto,zout) |
---|
[177] | 947 | C |
---|
| 948 | call histdef(nid_day, "tsol_"//clnsurf(nsrf), |
---|
| 949 | $ "Fraction"//clnsurf(nsrf), "W/m2", |
---|
| 950 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 951 | $ "ave(X)", zsto,zout) |
---|
| 952 | C |
---|
[98] | 953 | call histdef(nid_day, "sens_"//clnsurf(nsrf), |
---|
| 954 | $ "Sensible heat flux "//clnsurf(nsrf), "W/m2", |
---|
| 955 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 956 | $ "ave(X)", zsto,zout) |
---|
| 957 | c |
---|
| 958 | call histdef(nid_day, "lat_"//clnsurf(nsrf), |
---|
| 959 | $ "Latent heat flux "//clnsurf(nsrf), "W/m2", |
---|
| 960 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 961 | $ "ave(X)", zsto,zout) |
---|
| 962 | C |
---|
| 963 | call histdef(nid_day, "taux_"//clnsurf(nsrf), |
---|
| 964 | $ "Zonal wind stress"//clnsurf(nsrf),"Pa", |
---|
| 965 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 966 | $ "ave(X)", zsto,zout) |
---|
| 967 | |
---|
| 968 | call histdef(nid_day, "tauy_"//clnsurf(nsrf), |
---|
| 969 | $ "Meridional xind stress "//clnsurf(nsrf), "Pa", |
---|
| 970 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 971 | $ "ave(X)", zsto,zout) |
---|
[177] | 972 | C |
---|
| 973 | call histdef(nid_day, "albe_"//clnsurf(nsrf), |
---|
[223] | 974 | $ "Albedo surf. "//clnsurf(nsrf), "W/m2", |
---|
[177] | 975 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 976 | $ "ave(X)", zsto,zout) |
---|
| 977 | C |
---|
| 978 | call histdef(nid_day, "rugs_"//clnsurf(nsrf), |
---|
| 979 | $ "Latent heat flux "//clnsurf(nsrf), "W/m2", |
---|
| 980 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 981 | $ "ave(X)", zsto,zout) |
---|
| 982 | |
---|
[98] | 983 | C§§§ |
---|
| 984 | END DO |
---|
| 985 | |
---|
[2] | 986 | CALL histdef(nid_day, "sicf", "Sea-ice fraction", "-", |
---|
[80] | 987 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 988 | . "ave(X)", zsto,zout) |
---|
| 989 | c |
---|
| 990 | CALL histdef(nid_day, "cldl", "Low-level cloudiness", "-", |
---|
[80] | 991 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 992 | . "ave(X)", zsto,zout) |
---|
| 993 | c |
---|
| 994 | CALL histdef(nid_day, "cldm", "Mid-level cloudiness", "-", |
---|
[80] | 995 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 996 | . "ave(X)", zsto,zout) |
---|
| 997 | c |
---|
| 998 | CALL histdef(nid_day, "cldh", "High-level cloudiness", "-", |
---|
[80] | 999 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1000 | . "ave(X)", zsto,zout) |
---|
| 1001 | c |
---|
| 1002 | CALL histdef(nid_day, "cldt", "Total cloudiness", "-", |
---|
[80] | 1003 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1004 | . "ave(X)", zsto,zout) |
---|
| 1005 | c |
---|
| 1006 | CALL histdef(nid_day, "cldq", "Cloud liquid water path", "-", |
---|
[80] | 1007 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1008 | . "ave(X)", zsto,zout) |
---|
| 1009 | c |
---|
| 1010 | c Champs 3D: |
---|
| 1011 | c |
---|
| 1012 | CALL histdef(nid_day, "temp", "Air temperature", "K", |
---|
[80] | 1013 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1014 | . "ave(X)", zsto,zout) |
---|
| 1015 | c |
---|
| 1016 | CALL histdef(nid_day, "ovap", "Specific humidity", "Kg/Kg", |
---|
[80] | 1017 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1018 | . "ave(X)", zsto,zout) |
---|
| 1019 | c |
---|
| 1020 | CALL histdef(nid_day, "geop", "Geopotential height", "m", |
---|
[80] | 1021 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1022 | . "ave(X)", zsto,zout) |
---|
| 1023 | c |
---|
| 1024 | CALL histdef(nid_day, "vitu", "Zonal wind", "m/s", |
---|
[80] | 1025 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1026 | . "ave(X)", zsto,zout) |
---|
| 1027 | c |
---|
| 1028 | CALL histdef(nid_day, "vitv", "Meridional wind", "m/s", |
---|
[80] | 1029 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1030 | . "ave(X)", zsto,zout) |
---|
| 1031 | c |
---|
| 1032 | CALL histdef(nid_day, "vitw", "Vertical wind", "m/s", |
---|
[80] | 1033 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1034 | . "ave(X)", zsto,zout) |
---|
| 1035 | c |
---|
| 1036 | CALL histdef(nid_day, "pres", "Air pressure", "Pa", |
---|
[80] | 1037 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1038 | . "ave(X)", zsto,zout) |
---|
| 1039 | c |
---|
| 1040 | CALL histend(nid_day) |
---|
| 1041 | c |
---|
[29] | 1042 | ndex2d = 0 |
---|
| 1043 | ndex3d = 0 |
---|
[2] | 1044 | c |
---|
| 1045 | ENDIF ! fin de test sur ok_journe |
---|
| 1046 | c |
---|
| 1047 | IF (ok_mensuel) THEN |
---|
| 1048 | c |
---|
[353] | 1049 | idayref = day_ref |
---|
| 1050 | CALL ymds2ju(annee_ref, 1, idayref, 0.0, zjulian) |
---|
[2] | 1051 | c |
---|
[80] | 1052 | CALL gr_fi_ecrit(1,klon,iim,jjmp1,rlon,zx_lon) |
---|
[2] | 1053 | DO i = 1, iim |
---|
| 1054 | zx_lon(i,1) = rlon(i+1) |
---|
[80] | 1055 | zx_lon(i,jjmp1) = rlon(i+1) |
---|
[2] | 1056 | ENDDO |
---|
| 1057 | DO ll=1,klev |
---|
| 1058 | znivsig(ll)=float(ll) |
---|
| 1059 | ENDDO |
---|
[80] | 1060 | CALL gr_fi_ecrit(1,klon,iim,jjmp1,rlat,zx_lat) |
---|
[340] | 1061 | CALL histbeg("histmth.nc", iim,zx_lon(:,1), jjmp1,zx_lat(1,:), |
---|
[353] | 1062 | . 1,iim,1,jjmp1, itau_phy, zjulian, dtime, |
---|
[2] | 1063 | . nhori, nid_mth) |
---|
[353] | 1064 | write(*,*)'Mensuel ', itau_phy, zjulian |
---|
[230] | 1065 | CALL histvert(nid_mth, "presnivs", "Vertical levels", "mb", |
---|
| 1066 | . klev, presnivs, nvert) |
---|
| 1067 | c call histvert(nid_mth, 'sig_s', 'Niveaux sigma','-', |
---|
| 1068 | c . klev, znivsig, nvert) |
---|
[2] | 1069 | c |
---|
| 1070 | zsto = dtime |
---|
| 1071 | zout = dtime * ecrit_mth |
---|
| 1072 | c |
---|
| 1073 | CALL histdef(nid_mth, "phis", "Surface geop. height", "-", |
---|
[80] | 1074 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1075 | . "once", zsto,zout) |
---|
| 1076 | c |
---|
| 1077 | CALL histdef(nid_mth, "aire", "Grid area", "-", |
---|
[80] | 1078 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1079 | . "once", zsto,zout) |
---|
| 1080 | c |
---|
| 1081 | c Champs 2D: |
---|
| 1082 | c |
---|
| 1083 | CALL histdef(nid_mth, "tsol", "Surface Temperature", "K", |
---|
[80] | 1084 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1085 | . "ave(X)", zsto,zout) |
---|
| 1086 | c |
---|
| 1087 | CALL histdef(nid_mth, "psol", "Surface Pressure", "Pa", |
---|
[80] | 1088 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1089 | . "ave(X)", zsto,zout) |
---|
| 1090 | c |
---|
| 1091 | CALL histdef(nid_mth, "qsol", "Surface humidity", "mm", |
---|
[80] | 1092 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1093 | . "ave(X)", zsto,zout) |
---|
| 1094 | c |
---|
| 1095 | CALL histdef(nid_mth, "rain", "Precipitation", "mm/day", |
---|
[80] | 1096 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1097 | . "ave(X)", zsto,zout) |
---|
| 1098 | c |
---|
| 1099 | CALL histdef(nid_mth, "plul", "Large-scale Precip.", "mm/day", |
---|
[80] | 1100 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1101 | . "ave(X)", zsto,zout) |
---|
| 1102 | c |
---|
| 1103 | CALL histdef(nid_mth, "pluc", "Convective Precip.", "mm/day", |
---|
[80] | 1104 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1105 | . "ave(X)", zsto,zout) |
---|
| 1106 | c |
---|
| 1107 | CALL histdef(nid_mth, "snow", "Snow fall", "mm/day", |
---|
[80] | 1108 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1109 | . "ave(X)", zsto,zout) |
---|
| 1110 | c |
---|
[171] | 1111 | CALL histdef(nid_mth, "snow_cov", "Snow cover", "mm", |
---|
| 1112 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1113 | . "ave(X)", zsto,zout) |
---|
| 1114 | c |
---|
[2] | 1115 | CALL histdef(nid_mth, "evap", "Evaporation", "mm/day", |
---|
[80] | 1116 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1117 | . "ave(X)", zsto,zout) |
---|
| 1118 | c |
---|
| 1119 | CALL histdef(nid_mth, "tops", "Solar rad. at TOA", "W/m2", |
---|
[80] | 1120 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1121 | . "ave(X)", zsto,zout) |
---|
| 1122 | c |
---|
| 1123 | CALL histdef(nid_mth, "topl", "IR rad. at TOA", "W/m2", |
---|
[80] | 1124 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1125 | . "ave(X)", zsto,zout) |
---|
| 1126 | c |
---|
| 1127 | CALL histdef(nid_mth, "sols", "Solar rad. at surf.", "W/m2", |
---|
[80] | 1128 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1129 | . "ave(X)", zsto,zout) |
---|
| 1130 | c |
---|
| 1131 | CALL histdef(nid_mth, "soll", "IR rad. at surface", "W/m2", |
---|
[80] | 1132 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1133 | . "ave(X)", zsto,zout) |
---|
| 1134 | c |
---|
[177] | 1135 | CALL histdef(nid_mth, "solldown", "Down. IR rad. at surface", |
---|
| 1136 | . "W/m2", iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1137 | . "ave(X)", zsto,zout) |
---|
| 1138 | c |
---|
[2] | 1139 | CALL histdef(nid_mth, "tops0", "Solar rad. at TOA", "W/m2", |
---|
[80] | 1140 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1141 | . "ave(X)", zsto,zout) |
---|
| 1142 | c |
---|
| 1143 | CALL histdef(nid_mth, "topl0", "IR rad. at TOA", "W/m2", |
---|
[80] | 1144 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1145 | . "ave(X)", zsto,zout) |
---|
| 1146 | c |
---|
| 1147 | CALL histdef(nid_mth, "sols0", "Solar rad. at surf.", "W/m2", |
---|
[80] | 1148 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1149 | . "ave(X)", zsto,zout) |
---|
| 1150 | c |
---|
| 1151 | CALL histdef(nid_mth, "soll0", "IR rad. at surface", "W/m2", |
---|
[80] | 1152 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1153 | . "ave(X)", zsto,zout) |
---|
| 1154 | c |
---|
| 1155 | CALL histdef(nid_mth, "bils", "Surf. total heat flux", "W/m2", |
---|
[80] | 1156 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1157 | . "ave(X)", zsto,zout) |
---|
| 1158 | c |
---|
| 1159 | CALL histdef(nid_mth, "sens", "Sensible heat flux", "W/m2", |
---|
[80] | 1160 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1161 | . "ave(X)", zsto,zout) |
---|
| 1162 | c |
---|
| 1163 | CALL histdef(nid_mth, "fder", "Heat flux derivation", "W/m2", |
---|
[80] | 1164 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1165 | . "ave(X)", zsto,zout) |
---|
| 1166 | c |
---|
| 1167 | CALL histdef(nid_mth, "frtu", "Zonal wind stress", "Pa", |
---|
[80] | 1168 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1169 | . "ave(X)", zsto,zout) |
---|
| 1170 | c |
---|
| 1171 | CALL histdef(nid_mth, "frtv", "Meridional wind stress", "Pa", |
---|
[80] | 1172 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1173 | . "ave(X)", zsto,zout) |
---|
| 1174 | c |
---|
[98] | 1175 | DO nsrf = 1, nbsrf |
---|
| 1176 | C |
---|
| 1177 | call histdef(nid_mth, "pourc_"//clnsurf(nsrf), |
---|
| 1178 | $ "Fraction "//clnsurf(nsrf), "W/m2", |
---|
| 1179 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1180 | $ "ave(X)", zsto,zout) |
---|
| 1181 | C |
---|
[177] | 1182 | call histdef(nid_mth, "tsol_"//clnsurf(nsrf), |
---|
| 1183 | $ "Fraction "//clnsurf(nsrf), "W/m2", |
---|
| 1184 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1185 | $ "ave(X)", zsto,zout) |
---|
| 1186 | C |
---|
[98] | 1187 | call histdef(nid_mth, "sens_"//clnsurf(nsrf), |
---|
| 1188 | $ "Sensible heat flux "//clnsurf(nsrf), "W/m2", |
---|
| 1189 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1190 | $ "ave(X)", zsto,zout) |
---|
| 1191 | c |
---|
| 1192 | call histdef(nid_mth, "lat_"//clnsurf(nsrf), |
---|
| 1193 | $ "Latent heat flux "//clnsurf(nsrf), "W/m2", |
---|
| 1194 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1195 | $ "ave(X)", zsto,zout) |
---|
| 1196 | C |
---|
| 1197 | call histdef(nid_mth, "taux_"//clnsurf(nsrf), |
---|
| 1198 | $ "Zonal wind stress"//clnsurf(nsrf), "Pa", |
---|
| 1199 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1200 | $ "ave(X)", zsto,zout) |
---|
| 1201 | |
---|
| 1202 | call histdef(nid_mth, "tauy_"//clnsurf(nsrf), |
---|
| 1203 | $ "Meridional xind stress "//clnsurf(nsrf), "Pa", |
---|
| 1204 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1205 | $ "ave(X)", zsto,zout) |
---|
[177] | 1206 | c |
---|
| 1207 | call histdef(nid_mth, "albe_"//clnsurf(nsrf), |
---|
[223] | 1208 | $ "Albedo surf. "//clnsurf(nsrf), "W/m2", |
---|
[177] | 1209 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1210 | $ "ave(X)", zsto,zout) |
---|
| 1211 | c |
---|
| 1212 | call histdef(nid_mth, "rugs_"//clnsurf(nsrf), |
---|
| 1213 | $ "Latent heat flux "//clnsurf(nsrf), "W/m2", |
---|
| 1214 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1215 | $ "ave(X)", zsto,zout) |
---|
[258] | 1216 | c |
---|
| 1217 | CALL histdef(nid_mth, "ages_"//clnsurf(nsrf), "Snow age","day", |
---|
| 1218 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1219 | . "ave(X)", zsto,zout) |
---|
| 1220 | |
---|
[98] | 1221 | END DO |
---|
| 1222 | C |
---|
[2] | 1223 | CALL histdef(nid_mth, "sicf", "Sea-ice fraction", "-", |
---|
[80] | 1224 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1225 | . "ave(X)", zsto,zout) |
---|
| 1226 | c |
---|
| 1227 | CALL histdef(nid_mth, "albs", "Surface albedo", "-", |
---|
[80] | 1228 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1229 | . "ave(X)", zsto,zout) |
---|
[282] | 1230 | CALL histdef(nid_mth, "albslw", "Surface albedo LW", "-", |
---|
| 1231 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1232 | . "ave(X)", zsto,zout) |
---|
[2] | 1233 | c |
---|
| 1234 | CALL histdef(nid_mth, "cdrm", "Momentum drag coef.", "-", |
---|
[80] | 1235 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1236 | . "ave(X)", zsto,zout) |
---|
| 1237 | c |
---|
| 1238 | CALL histdef(nid_mth, "cdrh", "Heat drag coef.", "-", |
---|
[80] | 1239 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1240 | . "ave(X)", zsto,zout) |
---|
| 1241 | c |
---|
| 1242 | CALL histdef(nid_mth, "cldl", "Low-level cloudiness", "-", |
---|
[80] | 1243 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1244 | . "ave(X)", zsto,zout) |
---|
| 1245 | c |
---|
| 1246 | CALL histdef(nid_mth, "cldm", "Mid-level cloudiness", "-", |
---|
[80] | 1247 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1248 | . "ave(X)", zsto,zout) |
---|
| 1249 | c |
---|
| 1250 | CALL histdef(nid_mth, "cldh", "High-level cloudiness", "-", |
---|
[80] | 1251 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1252 | . "ave(X)", zsto,zout) |
---|
| 1253 | c |
---|
| 1254 | CALL histdef(nid_mth, "cldt", "Total cloudiness", "-", |
---|
[80] | 1255 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1256 | . "ave(X)", zsto,zout) |
---|
| 1257 | c |
---|
| 1258 | CALL histdef(nid_mth, "cldq", "Cloud liquid water path", "-", |
---|
[80] | 1259 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1260 | . "ave(X)", zsto,zout) |
---|
| 1261 | c |
---|
| 1262 | CALL histdef(nid_mth, "ue", "Zonal energy transport", "-", |
---|
[80] | 1263 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1264 | . "ave(X)", zsto,zout) |
---|
| 1265 | c |
---|
| 1266 | CALL histdef(nid_mth, "ve", "Merid energy transport", "-", |
---|
[80] | 1267 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1268 | . "ave(X)", zsto,zout) |
---|
| 1269 | c |
---|
| 1270 | CALL histdef(nid_mth, "uq", "Zonal humidity transport", "-", |
---|
[80] | 1271 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1272 | . "ave(X)", zsto,zout) |
---|
| 1273 | c |
---|
| 1274 | CALL histdef(nid_mth, "vq", "Merid humidity transport", "-", |
---|
[80] | 1275 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1276 | . "ave(X)", zsto,zout) |
---|
[230] | 1277 | cKE43 |
---|
[301] | 1278 | IF (iflag_con .GE. 3) THEN ! sb |
---|
[230] | 1279 | c |
---|
| 1280 | CALL histdef(nid_mth, "cape", "Conv avlbl pot ener", "J/Kg", |
---|
| 1281 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1282 | . "ave(X)", zsto,zout) |
---|
| 1283 | c |
---|
| 1284 | CALL histdef(nid_mth, "pbase", "Cld base pressure", "hPa", |
---|
| 1285 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1286 | . "ave(X)", zsto,zout) |
---|
| 1287 | c |
---|
| 1288 | CALL histdef(nid_mth, "ptop", "Cld top pressure", "hPa", |
---|
| 1289 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1290 | . "ave(X)", zsto,zout) |
---|
| 1291 | c |
---|
| 1292 | CALL histdef(nid_mth, "fbase", "Cld base mass flux", "Kg/m2/s", |
---|
| 1293 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1294 | . "ave(X)", zsto,zout) |
---|
| 1295 | c |
---|
| 1296 | c |
---|
| 1297 | ENDIF |
---|
| 1298 | c34EK |
---|
| 1299 | c |
---|
[2] | 1300 | c Champs 3D: |
---|
| 1301 | c |
---|
| 1302 | CALL histdef(nid_mth, "temp", "Air temperature", "K", |
---|
[80] | 1303 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1304 | . "ave(X)", zsto,zout) |
---|
| 1305 | c |
---|
| 1306 | CALL histdef(nid_mth, "ovap", "Specific humidity", "Kg/Kg", |
---|
[80] | 1307 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1308 | . "ave(X)", zsto,zout) |
---|
| 1309 | c |
---|
| 1310 | CALL histdef(nid_mth, "geop", "Geopotential height", "m", |
---|
[80] | 1311 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1312 | . "ave(X)", zsto,zout) |
---|
| 1313 | c |
---|
| 1314 | CALL histdef(nid_mth, "vitu", "Zonal wind", "m/s", |
---|
[80] | 1315 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1316 | . "ave(X)", zsto,zout) |
---|
| 1317 | c |
---|
| 1318 | CALL histdef(nid_mth, "vitv", "Meridional wind", "m/s", |
---|
[80] | 1319 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1320 | . "ave(X)", zsto,zout) |
---|
| 1321 | c |
---|
| 1322 | CALL histdef(nid_mth, "vitw", "Vertical wind", "m/s", |
---|
[80] | 1323 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1324 | . "ave(X)", zsto,zout) |
---|
| 1325 | c |
---|
| 1326 | CALL histdef(nid_mth, "pres", "Air pressure", "Pa", |
---|
[80] | 1327 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1328 | . "ave(X)", zsto,zout) |
---|
| 1329 | c |
---|
| 1330 | CALL histdef(nid_mth, "rneb", "Cloud fraction", "-", |
---|
[80] | 1331 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1332 | . "ave(X)", zsto,zout) |
---|
| 1333 | c |
---|
| 1334 | CALL histdef(nid_mth, "rhum", "Relative humidity", "-", |
---|
[80] | 1335 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1336 | . "ave(X)", zsto,zout) |
---|
| 1337 | c |
---|
| 1338 | CALL histdef(nid_mth, "oliq", "Liquid water content", "kg/kg", |
---|
[80] | 1339 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1340 | . "ave(X)", zsto,zout) |
---|
| 1341 | c |
---|
| 1342 | CALL histdef(nid_mth, "dtdyn", "Dynamics dT", "K/s", |
---|
[80] | 1343 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1344 | . "ave(X)", zsto,zout) |
---|
| 1345 | c |
---|
| 1346 | CALL histdef(nid_mth, "dqdyn", "Dynamics dQ", "Kg/Kg/s", |
---|
[80] | 1347 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1348 | . "ave(X)", zsto,zout) |
---|
| 1349 | c |
---|
| 1350 | CALL histdef(nid_mth, "dtcon", "Convection dT", "K/s", |
---|
[80] | 1351 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1352 | . "ave(X)", zsto,zout) |
---|
| 1353 | c |
---|
[373] | 1354 | CALL histdef(nid_mth, "ducon", "Convection du", "m/s2", |
---|
| 1355 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
| 1356 | . "ave(X)", zsto,zout) |
---|
| 1357 | c |
---|
[2] | 1358 | CALL histdef(nid_mth, "dqcon", "Convection dQ", "Kg/Kg/s", |
---|
[80] | 1359 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1360 | . "ave(X)", zsto,zout) |
---|
| 1361 | c |
---|
| 1362 | CALL histdef(nid_mth, "dtlsc", "Condensation dT", "K/s", |
---|
[80] | 1363 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1364 | . "ave(X)", zsto,zout) |
---|
| 1365 | c |
---|
| 1366 | CALL histdef(nid_mth, "dqlsc", "Condensation dQ", "Kg/Kg/s", |
---|
[80] | 1367 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1368 | . "ave(X)", zsto,zout) |
---|
| 1369 | c |
---|
| 1370 | CALL histdef(nid_mth, "dtvdf", "Boundary-layer dT", "K/s", |
---|
[80] | 1371 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1372 | . "ave(X)", zsto,zout) |
---|
| 1373 | c |
---|
| 1374 | CALL histdef(nid_mth, "dqvdf", "Boundary-layer dQ", "Kg/Kg/s", |
---|
[80] | 1375 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1376 | . "ave(X)", zsto,zout) |
---|
| 1377 | c |
---|
| 1378 | CALL histdef(nid_mth, "dteva", "Reevaporation dT", "K/s", |
---|
[80] | 1379 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1380 | . "ave(X)", zsto,zout) |
---|
| 1381 | c |
---|
| 1382 | CALL histdef(nid_mth, "dqeva", "Reevaporation dQ", "Kg/Kg/s", |
---|
[80] | 1383 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1384 | . "ave(X)", zsto,zout) |
---|
[230] | 1385 | |
---|
| 1386 | CALL histdef(nid_mth, "ptconv", "POINTS CONVECTIFS"," ", |
---|
[301] | 1387 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[230] | 1388 | . "ave(X)", zsto,zout) |
---|
| 1389 | |
---|
| 1390 | CALL histdef(nid_mth, "ratqs", "RATQS"," ", |
---|
[301] | 1391 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[230] | 1392 | . "ave(X)", zsto,zout) |
---|
| 1393 | |
---|
[2] | 1394 | c |
---|
[46] | 1395 | CALL histdef(nid_mth, "dtajs", "Dry adjust. dT", "K/s", |
---|
[80] | 1396 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[46] | 1397 | . "ave(X)", zsto,zout) |
---|
| 1398 | |
---|
| 1399 | CALL histdef(nid_mth, "dqajs", "Dry adjust. dQ", "Kg/Kg/s", |
---|
[80] | 1400 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[46] | 1401 | . "ave(X)", zsto,zout) |
---|
[2] | 1402 | c |
---|
| 1403 | CALL histdef(nid_mth, "dtswr", "SW radiation dT", "K/s", |
---|
[80] | 1404 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1405 | . "ave(X)", zsto,zout) |
---|
| 1406 | c |
---|
| 1407 | CALL histdef(nid_mth, "dtsw0", "SW radiation dT", "K/s", |
---|
[80] | 1408 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1409 | . "ave(X)", zsto,zout) |
---|
| 1410 | c |
---|
| 1411 | CALL histdef(nid_mth, "dtlwr", "LW radiation dT", "K/s", |
---|
[80] | 1412 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1413 | . "ave(X)", zsto,zout) |
---|
| 1414 | c |
---|
| 1415 | CALL histdef(nid_mth, "dtlw0", "LW radiation dT", "K/s", |
---|
[80] | 1416 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1417 | . "ave(X)", zsto,zout) |
---|
| 1418 | c |
---|
| 1419 | CALL histdef(nid_mth, "duvdf", "Boundary-layer dU", "m/s2", |
---|
[80] | 1420 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1421 | . "ave(X)", zsto,zout) |
---|
| 1422 | c |
---|
| 1423 | CALL histdef(nid_mth, "dvvdf", "Boundary-layer dV", "m/s2", |
---|
[80] | 1424 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1425 | . "ave(X)", zsto,zout) |
---|
| 1426 | c |
---|
| 1427 | IF (ok_orodr) THEN |
---|
| 1428 | CALL histdef(nid_mth, "duoro", "Orography dU", "m/s2", |
---|
[80] | 1429 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1430 | . "ave(X)", zsto,zout) |
---|
| 1431 | c |
---|
| 1432 | CALL histdef(nid_mth, "dvoro", "Orography dV", "m/s2", |
---|
[80] | 1433 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1434 | . "ave(X)", zsto,zout) |
---|
| 1435 | c |
---|
| 1436 | ENDIF |
---|
| 1437 | C |
---|
| 1438 | IF (ok_orolf) THEN |
---|
| 1439 | CALL histdef(nid_mth, "dulif", "Orography dU", "m/s2", |
---|
[80] | 1440 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1441 | . "ave(X)", zsto,zout) |
---|
| 1442 | c |
---|
| 1443 | CALL histdef(nid_mth, "dvlif", "Orography dV", "m/s2", |
---|
[80] | 1444 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1445 | . "ave(X)", zsto,zout) |
---|
| 1446 | ENDIF |
---|
| 1447 | C |
---|
| 1448 | CALL histdef(nid_mth, "ozone", "Ozone concentration", "-", |
---|
[80] | 1449 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1450 | . "ave(X)", zsto,zout) |
---|
| 1451 | c |
---|
| 1452 | if (nqmax.GE.3) THEN |
---|
| 1453 | DO iq=1,nqmax-2 |
---|
| 1454 | IF (iq.LE.99) THEN |
---|
| 1455 | WRITE(str2,'(i2.2)') iq |
---|
| 1456 | CALL histdef(nid_mth, "trac"//str2, "Tracer No."//str2, "-", |
---|
[80] | 1457 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1458 | . "ave(X)", zsto,zout) |
---|
| 1459 | ELSE |
---|
| 1460 | PRINT*, "Trop de traceurs" |
---|
| 1461 | CALL abort |
---|
| 1462 | ENDIF |
---|
| 1463 | ENDDO |
---|
| 1464 | ENDIF |
---|
| 1465 | c |
---|
[230] | 1466 | cKE43 |
---|
[301] | 1467 | IF (iflag_con.GE.3) THEN ! (sb) |
---|
[230] | 1468 | c |
---|
| 1469 | CALL histdef(nid_mth, "upwd", "saturated updraft", "Kg/m2/s", |
---|
| 1470 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
| 1471 | . "ave(X)", zsto,zout) |
---|
| 1472 | c |
---|
| 1473 | CALL histdef(nid_mth, "dnwd", "saturated downdraft","Kg/m2/s", |
---|
| 1474 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
| 1475 | . "ave(X)", zsto,zout) |
---|
| 1476 | c |
---|
| 1477 | CALL histdef(nid_mth, "dnwd0", "unsat. downdraft", "Kg/m2/s", |
---|
| 1478 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
| 1479 | . "ave(X)", zsto,zout) |
---|
| 1480 | c |
---|
| 1481 | CALL histdef(nid_mth,"Ma","undilute adiab updraft","Kg/m2/s", |
---|
| 1482 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
| 1483 | . "ave(X)", zsto,zout) |
---|
| 1484 | c |
---|
| 1485 | c |
---|
| 1486 | ENDIF |
---|
| 1487 | c34EK |
---|
[2] | 1488 | CALL histend(nid_mth) |
---|
| 1489 | c |
---|
[29] | 1490 | ndex2d = 0 |
---|
| 1491 | ndex3d = 0 |
---|
[2] | 1492 | c |
---|
| 1493 | ENDIF ! fin de test sur ok_mensuel |
---|
| 1494 | c |
---|
| 1495 | c |
---|
| 1496 | IF (ok_instan) THEN |
---|
| 1497 | c |
---|
[353] | 1498 | idayref = day_ref |
---|
| 1499 | CALL ymds2ju(annee_ref, 1, idayref, 0.0, zjulian) |
---|
[2] | 1500 | c |
---|
[80] | 1501 | CALL gr_fi_ecrit(1,klon,iim,jjmp1,rlon,zx_lon) |
---|
[2] | 1502 | DO i = 1, iim |
---|
| 1503 | zx_lon(i,1) = rlon(i+1) |
---|
[80] | 1504 | zx_lon(i,jjmp1) = rlon(i+1) |
---|
[2] | 1505 | ENDDO |
---|
| 1506 | DO ll=1,klev |
---|
| 1507 | znivsig(ll)=float(ll) |
---|
| 1508 | ENDDO |
---|
[80] | 1509 | CALL gr_fi_ecrit(1,klon,iim,jjmp1,rlat,zx_lat) |
---|
[353] | 1510 | CALL histbeg("histins", iim,zx_lon(:,1), jjmp1,zx_lat(1,:), |
---|
| 1511 | . 1,iim,1,jjmp1, itau_phy, zjulian, dtime, |
---|
[2] | 1512 | . nhori, nid_ins) |
---|
[353] | 1513 | write(*,*)'Inst ', itau_phy, zjulian |
---|
[230] | 1514 | CALL histvert(nid_ins, "presnivs", "Vertical levels", "mb", |
---|
| 1515 | . klev, presnivs, nvert) |
---|
| 1516 | c call histvert(nid_ins, 'sig_s', 'Niveaux sigma','-', |
---|
| 1517 | c . klev, znivsig, nvert) |
---|
[2] | 1518 | c |
---|
[80] | 1519 | c |
---|
[2] | 1520 | zsto = dtime * ecrit_ins |
---|
| 1521 | zout = dtime * ecrit_ins |
---|
| 1522 | C |
---|
| 1523 | CALL histdef(nid_ins, "phis", "Surface geop. height", "-", |
---|
[80] | 1524 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1525 | . "once", zsto,zout) |
---|
| 1526 | c |
---|
| 1527 | CALL histdef(nid_ins, "aire", "Grid area", "-", |
---|
[80] | 1528 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1529 | . "once", zsto,zout) |
---|
| 1530 | c |
---|
| 1531 | c Champs 2D: |
---|
| 1532 | c |
---|
[98] | 1533 | CALL histdef(nid_ins, "tsol", "Surface Temperature", "K", |
---|
| 1534 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1535 | . "inst(X)", zsto,zout) |
---|
| 1536 | c |
---|
| 1537 | CALL histdef(nid_ins, "psol", "Surface Pressure", "Pa", |
---|
[80] | 1538 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1539 | . "inst(X)", zsto,zout) |
---|
| 1540 | c |
---|
[263] | 1541 | CALL histdef(nid_ins, "plul", "Large-scale Precip.", "mm/day", |
---|
| 1542 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1543 | . "inst(X)", zsto,zout) |
---|
| 1544 | c |
---|
| 1545 | CALL histdef(nid_ins, "pluc", "Convective Precip.", "mm/day", |
---|
| 1546 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1547 | . "inst(X)", zsto,zout) |
---|
| 1548 | |
---|
[258] | 1549 | CALL histdef(nid_ins, "qsol", "Surface humidity", "mm", |
---|
| 1550 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1551 | . "inst(X)", zsto,zout) |
---|
| 1552 | c |
---|
[385] | 1553 | CALL histdef(nid_ins, "cdrm", "Momentum drag coef.", "-", |
---|
| 1554 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1555 | . "inst(X)", zsto,zout) |
---|
| 1556 | c |
---|
| 1557 | CALL histdef(nid_ins, "cdrh", "Heat drag coef.", "-", |
---|
| 1558 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1559 | . "inst(X)", zsto,zout) |
---|
| 1560 | c |
---|
[258] | 1561 | CALL histdef(nid_ins, "rain", "Precipitation", "mm/day", |
---|
| 1562 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1563 | . "inst(X)", zsto,zout) |
---|
| 1564 | c |
---|
| 1565 | CALL histdef(nid_ins, "snow", "Snow fall", "mm/day", |
---|
| 1566 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1567 | . "inst(X)", zsto,zout) |
---|
| 1568 | c |
---|
| 1569 | CALL histdef(nid_ins, "snow_cov", "Snow cover", "mm", |
---|
| 1570 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1571 | . "inst(X)", zsto,zout) |
---|
| 1572 | c |
---|
[2] | 1573 | CALL histdef(nid_ins, "topl", "OLR", "W/m2", |
---|
[80] | 1574 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[2] | 1575 | . "inst(X)", zsto,zout) |
---|
| 1576 | c |
---|
[80] | 1577 | CALL histdef(nid_ins, "evap", "Evaporation", "mm/day", |
---|
| 1578 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1579 | . "inst(X)", zsto,zout) |
---|
| 1580 | c |
---|
| 1581 | CALL histdef(nid_ins, "sols", "Solar rad. at surf.", "W/m2", |
---|
| 1582 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1583 | . "inst(X)", zsto,zout) |
---|
| 1584 | c |
---|
| 1585 | CALL histdef(nid_ins, "soll", "IR rad. at surface", "W/m2", |
---|
| 1586 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1587 | . "inst(X)", zsto,zout) |
---|
| 1588 | c |
---|
[177] | 1589 | CALL histdef(nid_ins, "solldown", "Down. IR rad. at surface", |
---|
| 1590 | . "W/m2", iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
[258] | 1591 | . "inst(X)", zsto,zout) |
---|
[177] | 1592 | c |
---|
[80] | 1593 | CALL histdef(nid_ins, "bils", "Surf. total heat flux", "W/m2", |
---|
| 1594 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1595 | . "inst(X)", zsto,zout) |
---|
| 1596 | c |
---|
| 1597 | CALL histdef(nid_ins, "sens", "Sensible heat flux", "W/m2", |
---|
| 1598 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1599 | . "inst(X)", zsto,zout) |
---|
| 1600 | c |
---|
| 1601 | CALL histdef(nid_ins, "fder", "Heat flux derivation", "W/m2", |
---|
| 1602 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1603 | . "inst(X)", zsto,zout) |
---|
| 1604 | c |
---|
| 1605 | CALL histdef(nid_ins, "dtsvdfo", "Boundary-layer dTs(o)", "K/s", |
---|
| 1606 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1607 | . "inst(X)", zsto,zout) |
---|
| 1608 | c |
---|
| 1609 | CALL histdef(nid_ins, "dtsvdft", "Boundary-layer dTs(t)", "K/s", |
---|
| 1610 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1611 | . "inst(X)", zsto,zout) |
---|
| 1612 | c |
---|
| 1613 | CALL histdef(nid_ins, "dtsvdfg", "Boundary-layer dTs(g)", "K/s", |
---|
| 1614 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1615 | . "inst(X)", zsto,zout) |
---|
| 1616 | c |
---|
| 1617 | CALL histdef(nid_ins, "dtsvdfi", "Boundary-layer dTs(g)", "K/s", |
---|
| 1618 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1619 | . "inst(X)", zsto,zout) |
---|
[98] | 1620 | |
---|
| 1621 | DO nsrf = 1, nbsrf |
---|
| 1622 | C |
---|
| 1623 | call histdef(nid_ins, "pourc_"//clnsurf(nsrf), |
---|
| 1624 | $ "Fraction"//clnsurf(nsrf), "W/m2", |
---|
| 1625 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1626 | $ "inst(X)", zsto,zout) |
---|
| 1627 | |
---|
| 1628 | call histdef(nid_ins, "sens_"//clnsurf(nsrf), |
---|
| 1629 | $ "Sensible heat flux "//clnsurf(nsrf), "W/m2", |
---|
| 1630 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1631 | $ "inst(X)", zsto,zout) |
---|
[80] | 1632 | c |
---|
[98] | 1633 | call histdef(nid_ins, "tsol_"//clnsurf(nsrf), |
---|
| 1634 | $ "Surface Temperature"//clnsurf(nsrf), "W/m2", |
---|
| 1635 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1636 | $ "inst(X)", zsto,zout) |
---|
| 1637 | c |
---|
| 1638 | call histdef(nid_ins, "lat_"//clnsurf(nsrf), |
---|
| 1639 | $ "Latent heat flux "//clnsurf(nsrf), "W/m2", |
---|
| 1640 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1641 | $ "inst(X)", zsto,zout) |
---|
| 1642 | C |
---|
| 1643 | call histdef(nid_ins, "taux_"//clnsurf(nsrf), |
---|
| 1644 | $ "Zonal wind stress"//clnsurf(nsrf),"Pa", |
---|
| 1645 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1646 | $ "inst(X)", zsto,zout) |
---|
| 1647 | |
---|
| 1648 | call histdef(nid_ins, "tauy_"//clnsurf(nsrf), |
---|
| 1649 | $ "Meridional xind stress "//clnsurf(nsrf), "Pa", |
---|
| 1650 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1651 | $ "inst(X)", zsto,zout) |
---|
[171] | 1652 | c |
---|
| 1653 | call histdef(nid_ins, "albe_"//clnsurf(nsrf), |
---|
[258] | 1654 | $ "Albedo "//clnsurf(nsrf), "-", |
---|
[171] | 1655 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1656 | $ "inst(X)", zsto,zout) |
---|
| 1657 | c |
---|
| 1658 | call histdef(nid_ins, "rugs_"//clnsurf(nsrf), |
---|
| 1659 | $ "rugosite "//clnsurf(nsrf), "-", |
---|
| 1660 | $ iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1661 | $ "inst(X)", zsto,zout) |
---|
[98] | 1662 | C§§§ |
---|
| 1663 | END DO |
---|
[171] | 1664 | CALL histdef(nid_ins, "rugs", "rugosity", "-", |
---|
| 1665 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1666 | . "inst(X)", zsto,zout) |
---|
| 1667 | |
---|
[98] | 1668 | c |
---|
[171] | 1669 | CALL histdef(nid_ins, "albs", "Surface albedo", "-", |
---|
| 1670 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1671 | . "inst(X)", zsto,zout) |
---|
[282] | 1672 | CALL histdef(nid_ins, "albslw", "Surface albedo LW", "-", |
---|
| 1673 | . iim,jjmp1,nhori, 1,1,1, -99, 32, |
---|
| 1674 | . "inst(X)", zsto,zout) |
---|
[171] | 1675 | c |
---|
| 1676 | c |
---|
[2] | 1677 | c Champs 3D: |
---|
| 1678 | c |
---|
| 1679 | CALL histdef(nid_ins, "temp", "Temperature", "K", |
---|
[80] | 1680 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1681 | . "inst(X)", zsto,zout) |
---|
| 1682 | c |
---|
| 1683 | CALL histdef(nid_ins, "vitu", "Zonal wind", "m/s", |
---|
[80] | 1684 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1685 | . "inst(X)", zsto,zout) |
---|
| 1686 | c |
---|
| 1687 | CALL histdef(nid_ins, "vitv", "Merid wind", "m/s", |
---|
[80] | 1688 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1689 | . "inst(X)", zsto,zout) |
---|
| 1690 | c |
---|
| 1691 | CALL histdef(nid_ins, "geop", "Geopotential height", "m", |
---|
[80] | 1692 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1693 | . "inst(X)", zsto,zout) |
---|
| 1694 | c |
---|
| 1695 | CALL histdef(nid_ins, "pres", "Air pressure", "Pa", |
---|
[80] | 1696 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
[2] | 1697 | . "inst(X)", zsto,zout) |
---|
| 1698 | c |
---|
[80] | 1699 | CALL histdef(nid_ins, "dtvdf", "Boundary-layer dT", "K/s", |
---|
| 1700 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
| 1701 | . "inst(X)", zsto,zout) |
---|
| 1702 | c |
---|
| 1703 | CALL histdef(nid_ins, "dqvdf", "Boundary-layer dQ", "Kg/Kg/s", |
---|
| 1704 | . iim,jjmp1,nhori, klev,1,klev,nvert, 32, |
---|
| 1705 | . "inst(X)", zsto,zout) |
---|
| 1706 | c |
---|
| 1707 | |
---|
[2] | 1708 | CALL histend(nid_ins) |
---|
| 1709 | c |
---|
[29] | 1710 | ndex2d = 0 |
---|
| 1711 | ndex3d = 0 |
---|
[2] | 1712 | c |
---|
| 1713 | ENDIF |
---|
[290] | 1714 | |
---|
| 1715 | c$$$PB Positionner date0 pour initialisation de ORCHIDEE |
---|
[361] | 1716 | date0 = zjulian |
---|
| 1717 | C date0 = day_ini |
---|
[290] | 1718 | WRITE(*,*) 'physiq date0 : ',date0 |
---|
[2] | 1719 | c |
---|
| 1720 | c |
---|
| 1721 | c |
---|
| 1722 | c Prescrire l'ozone dans l'atmosphere |
---|
| 1723 | c |
---|
| 1724 | c |
---|
| 1725 | cc DO i = 1, klon |
---|
| 1726 | cc DO k = 1, klev |
---|
| 1727 | cc CALL o3cm (paprs(i,k)/100.,paprs(i,k+1)/100., wo(i,k),20) |
---|
| 1728 | cc ENDDO |
---|
| 1729 | cc ENDDO |
---|
| 1730 | c |
---|
| 1731 | c |
---|
| 1732 | ENDIF |
---|
| 1733 | c |
---|
| 1734 | c **************** Fin de IF ( debut ) *************** |
---|
| 1735 | c |
---|
| 1736 | c |
---|
| 1737 | c Mettre a zero des variables de sortie (pour securite) |
---|
| 1738 | c |
---|
| 1739 | DO i = 1, klon |
---|
| 1740 | d_ps(i) = 0.0 |
---|
| 1741 | ENDDO |
---|
| 1742 | DO k = 1, klev |
---|
| 1743 | DO i = 1, klon |
---|
| 1744 | d_t(i,k) = 0.0 |
---|
| 1745 | d_u(i,k) = 0.0 |
---|
| 1746 | d_v(i,k) = 0.0 |
---|
| 1747 | ENDDO |
---|
| 1748 | ENDDO |
---|
| 1749 | DO iq = 1, nqmax |
---|
| 1750 | DO k = 1, klev |
---|
| 1751 | DO i = 1, klon |
---|
| 1752 | d_qx(i,k,iq) = 0.0 |
---|
| 1753 | ENDDO |
---|
| 1754 | ENDDO |
---|
| 1755 | ENDDO |
---|
| 1756 | c |
---|
| 1757 | c Ne pas affecter les valeurs entrees de u, v, h, et q |
---|
| 1758 | c |
---|
| 1759 | DO k = 1, klev |
---|
| 1760 | DO i = 1, klon |
---|
| 1761 | t_seri(i,k) = t(i,k) |
---|
| 1762 | u_seri(i,k) = u(i,k) |
---|
| 1763 | v_seri(i,k) = v(i,k) |
---|
| 1764 | q_seri(i,k) = qx(i,k,ivap) |
---|
| 1765 | ql_seri(i,k) = qx(i,k,iliq) |
---|
[385] | 1766 | qs_seri(i,k) = 0. |
---|
[2] | 1767 | ENDDO |
---|
| 1768 | ENDDO |
---|
| 1769 | IF (nqmax.GE.3) THEN |
---|
| 1770 | DO iq = 3, nqmax |
---|
| 1771 | DO k = 1, klev |
---|
| 1772 | DO i = 1, klon |
---|
| 1773 | tr_seri(i,k,iq-2) = qx(i,k,iq) |
---|
| 1774 | ENDDO |
---|
| 1775 | ENDDO |
---|
| 1776 | ENDDO |
---|
| 1777 | ELSE |
---|
| 1778 | DO k = 1, klev |
---|
| 1779 | DO i = 1, klon |
---|
| 1780 | tr_seri(i,k,1) = 0.0 |
---|
| 1781 | ENDDO |
---|
| 1782 | ENDDO |
---|
| 1783 | ENDIF |
---|
[385] | 1784 | C |
---|
| 1785 | IF (if_ebil.ge.1) THEN |
---|
| 1786 | DO i = 1, klon |
---|
| 1787 | ztsol(i) = 0. |
---|
| 1788 | ENDDO |
---|
| 1789 | DO i = 1, klon |
---|
| 1790 | ztsol(i) = ztsol(i) + ftsol(i,nsrf)*pctsrf(i,nsrf) |
---|
| 1791 | ENDDO |
---|
| 1792 | ztit='after dynamic' |
---|
| 1793 | CALL diagetpq(paire,ztit,ip_ebil,1,1,dtime |
---|
| 1794 | e , t_seri,q_seri,ql_seri,qs_seri,u_seri,v_seri,paprs,pplay |
---|
| 1795 | s , d_h_vcol, d_qt, d_qw, d_ql, d_qs, d_ec) |
---|
| 1796 | C Comme les tendances de la physique sont ajoute dans la dynamique, |
---|
| 1797 | C on devrait avoir que la variation d'entalpie par la dynamique |
---|
| 1798 | C est egale a la variation de la physique au pas de temps precedent. |
---|
| 1799 | C Donc la somme de ces 2 variations devrait etre nulle. |
---|
| 1800 | call diagphy(paire,ztit,ip_ebil |
---|
| 1801 | e , zero_v, zero_v, zero_v, zero_v, zero_v |
---|
| 1802 | e , zero_v, zero_v, zero_v, ztsol |
---|
| 1803 | e , d_h_vcol+d_h_vcol_phy, d_qt, 0. |
---|
| 1804 | s , fs_bound, fq_bound ) |
---|
| 1805 | END IF |
---|
| 1806 | |
---|
[46] | 1807 | c Diagnostiquer la tendance dynamique |
---|
| 1808 | c |
---|
| 1809 | IF (ancien_ok) THEN |
---|
| 1810 | DO k = 1, klev |
---|
| 1811 | DO i = 1, klon |
---|
| 1812 | d_t_dyn(i,k) = (t_seri(i,k)-t_ancien(i,k))/dtime |
---|
| 1813 | d_q_dyn(i,k) = (q_seri(i,k)-q_ancien(i,k))/dtime |
---|
| 1814 | ENDDO |
---|
| 1815 | ENDDO |
---|
| 1816 | ELSE |
---|
| 1817 | DO k = 1, klev |
---|
| 1818 | DO i = 1, klon |
---|
| 1819 | d_t_dyn(i,k) = 0.0 |
---|
| 1820 | d_q_dyn(i,k) = 0.0 |
---|
| 1821 | ENDDO |
---|
| 1822 | ENDDO |
---|
| 1823 | ancien_ok = .TRUE. |
---|
| 1824 | ENDIF |
---|
| 1825 | c |
---|
[2] | 1826 | c Ajouter le geopotentiel du sol: |
---|
| 1827 | c |
---|
| 1828 | DO k = 1, klev |
---|
| 1829 | DO i = 1, klon |
---|
| 1830 | zphi(i,k) = pphi(i,k) + pphis(i) |
---|
| 1831 | ENDDO |
---|
| 1832 | ENDDO |
---|
| 1833 | c |
---|
| 1834 | c Verifier les temperatures |
---|
| 1835 | c |
---|
| 1836 | CALL hgardfou(t_seri,ftsol,'debutphy') |
---|
| 1837 | c |
---|
| 1838 | c Incrementer le compteur de la physique |
---|
| 1839 | c |
---|
| 1840 | itap = itap + 1 |
---|
| 1841 | julien = MOD(NINT(xjour),360) |
---|
| 1842 | c |
---|
| 1843 | c Mettre en action les conditions aux limites (albedo, sst, etc.). |
---|
| 1844 | c Prescrire l'ozone et calculer l'albedo sur l'ocean. |
---|
| 1845 | c |
---|
| 1846 | IF (MOD(itap-1,lmt_pas) .EQ. 0) THEN |
---|
[353] | 1847 | PRINT *,' PHYS cond julien ',julien |
---|
[2] | 1848 | CALL ozonecm( FLOAT(julien), rlat, paprs, wo) |
---|
| 1849 | ENDIF |
---|
| 1850 | c |
---|
| 1851 | c Re-evaporer l'eau liquide nuageuse |
---|
| 1852 | c |
---|
| 1853 | DO k = 1, klev ! re-evaporation de l'eau liquide nuageuse |
---|
| 1854 | DO i = 1, klon |
---|
| 1855 | zlvdcp=RLVTT/RCPD/(1.0+RVTMP2*q_seri(i,k)) |
---|
[373] | 1856 | c zlsdcp=RLSTT/RCPD/(1.0+RVTMP2*q_seri(i,k)) |
---|
| 1857 | zlsdcp=RLVTT/RCPD/(1.0+RVTMP2*q_seri(i,k)) |
---|
[2] | 1858 | zdelta = MAX(0.,SIGN(1.,RTT-t_seri(i,k))) |
---|
| 1859 | zb = MAX(0.0,ql_seri(i,k)) |
---|
| 1860 | za = - MAX(0.0,ql_seri(i,k)) |
---|
| 1861 | . * (zlvdcp*(1.-zdelta)+zlsdcp*zdelta) |
---|
| 1862 | t_seri(i,k) = t_seri(i,k) + za |
---|
| 1863 | q_seri(i,k) = q_seri(i,k) + zb |
---|
| 1864 | ql_seri(i,k) = 0.0 |
---|
| 1865 | d_t_eva(i,k) = za |
---|
| 1866 | d_q_eva(i,k) = zb |
---|
| 1867 | ENDDO |
---|
| 1868 | ENDDO |
---|
| 1869 | c |
---|
[385] | 1870 | IF (if_ebil.ge.2) THEN |
---|
| 1871 | ztit='after reevap' |
---|
| 1872 | CALL diagetpq(paire,ztit,ip_ebil,2,2,dtime |
---|
| 1873 | e , t_seri,q_seri,ql_seri,qs_seri,u_seri,v_seri,paprs,pplay |
---|
| 1874 | s , d_h_vcol, d_qt, d_qw, d_ql, d_qs, d_ec) |
---|
| 1875 | call diagphy(paire,ztit,ip_ebil |
---|
| 1876 | e , zero_v, zero_v, zero_v, zero_v, zero_v |
---|
| 1877 | e , zero_v, zero_v, zero_v, ztsol |
---|
| 1878 | e , d_h_vcol, d_qt, d_ec |
---|
| 1879 | s , fs_bound, fq_bound ) |
---|
| 1880 | C |
---|
| 1881 | END IF |
---|
| 1882 | C |
---|
| 1883 | c |
---|
[2] | 1884 | c Appeler la diffusion verticale (programme de couche limite) |
---|
| 1885 | c |
---|
| 1886 | DO i = 1, klon |
---|
[152] | 1887 | c if (.not. ok_veget) then |
---|
| 1888 | c frugs(i,is_ter) = SQRT(frugs(i,is_ter)**2+rugoro(i)**2) |
---|
| 1889 | c endif |
---|
| 1890 | c frugs(i,is_lic) = rugoro(i) |
---|
| 1891 | c frugs(i,is_oce) = rugmer(i) |
---|
| 1892 | c frugs(i,is_sic) = 0.001 |
---|
[2] | 1893 | zxrugs(i) = 0.0 |
---|
| 1894 | ENDDO |
---|
| 1895 | DO nsrf = 1, nbsrf |
---|
| 1896 | DO i = 1, klon |
---|
[385] | 1897 | c$$$ frugs(i,nsrf) = MAX(frugs(i,nsrf),0.001 |
---|
| 1898 | frugs(i,nsrf) = MAX(frugs(i,nsrf),0.000015) |
---|
[2] | 1899 | ENDDO |
---|
| 1900 | ENDDO |
---|
| 1901 | DO nsrf = 1, nbsrf |
---|
| 1902 | DO i = 1, klon |
---|
[177] | 1903 | zxrugs(i) = zxrugs(i) + frugs(i,nsrf)*pctsrf(i,nsrf) |
---|
[2] | 1904 | ENDDO |
---|
| 1905 | ENDDO |
---|
| 1906 | c |
---|
[109] | 1907 | C calculs necessaires au calcul de l'albedo dans l'interface |
---|
| 1908 | c |
---|
| 1909 | CALL orbite(FLOAT(julien),zlongi,dist) |
---|
| 1910 | IF (cycle_diurne) THEN |
---|
| 1911 | zdtime=dtime*FLOAT(radpas) ! pas de temps du rayonnement (s) |
---|
| 1912 | CALL zenang(zlongi,gmtime,zdtime,rlat,rlon,rmu0,fract) |
---|
| 1913 | ELSE |
---|
| 1914 | rmu0 = -999.999 |
---|
| 1915 | ENDIF |
---|
| 1916 | |
---|
[258] | 1917 | fder = dlw |
---|
[152] | 1918 | |
---|
[364] | 1919 | CALL clmain(dtime,itap,date0,pctsrf, |
---|
[109] | 1920 | e t_seri,q_seri,u_seri,v_seri, |
---|
| 1921 | e julien, rmu0, |
---|
[112] | 1922 | e ok_veget, ocean, npas, nexca, ftsol, |
---|
[177] | 1923 | $ soil_model,ftsoil, |
---|
[282] | 1924 | $ paprs,pplay,radsol, fsnow,fqsol,fevap,falbe,falblw, |
---|
| 1925 | $ fluxlat, |
---|
[177] | 1926 | e rain_fall, snow_fall, solsw, sollw, sollwdown, fder, |
---|
[171] | 1927 | e rlon, rlat, cufi, cvfi, frugs, |
---|
| 1928 | e debut, lafin, agesno,rugoro , |
---|
[2] | 1929 | s d_t_vdf,d_q_vdf,d_u_vdf,d_v_vdf,d_ts, |
---|
[171] | 1930 | s fluxt,fluxq,fluxu,fluxv,cdragh,cdragm, |
---|
[2] | 1931 | s dsens, devap, |
---|
| 1932 | s ycoefh,yu1,yv1) |
---|
[205] | 1933 | |
---|
[2] | 1934 | c |
---|
[98] | 1935 | C§§§ PB |
---|
| 1936 | C§§§ Incrementation des flux |
---|
| 1937 | C§§ |
---|
| 1938 | zxfluxt=0. |
---|
| 1939 | zxfluxq=0. |
---|
| 1940 | zxfluxu=0. |
---|
| 1941 | zxfluxv=0. |
---|
| 1942 | DO nsrf = 1, nbsrf |
---|
| 1943 | DO k = 1, klev |
---|
| 1944 | DO i = 1, klon |
---|
| 1945 | zxfluxt(i,k) = zxfluxt(i,k) + |
---|
| 1946 | $ fluxt(i,k,nsrf) * pctsrf( i, nsrf) |
---|
| 1947 | zxfluxq(i,k) = zxfluxq(i,k) + |
---|
| 1948 | $ fluxq(i,k,nsrf) * pctsrf( i, nsrf) |
---|
| 1949 | zxfluxu(i,k) = zxfluxu(i,k) + |
---|
| 1950 | $ fluxu(i,k,nsrf) * pctsrf( i, nsrf) |
---|
| 1951 | zxfluxv(i,k) = zxfluxv(i,k) + |
---|
| 1952 | $ fluxv(i,k,nsrf) * pctsrf( i, nsrf) |
---|
| 1953 | END DO |
---|
| 1954 | END DO |
---|
| 1955 | END DO |
---|
[2] | 1956 | DO i = 1, klon |
---|
[98] | 1957 | sens(i) = - zxfluxt(i,1) ! flux de chaleur sensible au sol |
---|
| 1958 | c evap(i) = - fluxq(i,1) ! flux d'evaporation au sol |
---|
| 1959 | evap(i) = - zxfluxq(i,1) ! flux d'evaporation au sol |
---|
[258] | 1960 | fder(i) = dlw(i) + dsens(i) + devap(i) |
---|
[2] | 1961 | ENDDO |
---|
[80] | 1962 | |
---|
[287] | 1963 | |
---|
[2] | 1964 | DO k = 1, klev |
---|
| 1965 | DO i = 1, klon |
---|
| 1966 | t_seri(i,k) = t_seri(i,k) + d_t_vdf(i,k) |
---|
| 1967 | q_seri(i,k) = q_seri(i,k) + d_q_vdf(i,k) |
---|
| 1968 | u_seri(i,k) = u_seri(i,k) + d_u_vdf(i,k) |
---|
| 1969 | v_seri(i,k) = v_seri(i,k) + d_v_vdf(i,k) |
---|
| 1970 | ENDDO |
---|
| 1971 | ENDDO |
---|
| 1972 | c |
---|
[385] | 1973 | IF (if_ebil.ge.2) THEN |
---|
| 1974 | ztit='after clmain' |
---|
| 1975 | CALL diagetpq(paire,ztit,ip_ebil,2,2,dtime |
---|
| 1976 | e , t_seri,q_seri,ql_seri,qs_seri,u_seri,v_seri,paprs,pplay |
---|
| 1977 | s , d_h_vcol, d_qt, d_qw, d_ql, d_qs, d_ec) |
---|
| 1978 | call diagphy(paire,ztit,ip_ebil |
---|
| 1979 | e , zero_v, zero_v, zero_v, zero_v, sens |
---|
| 1980 | e , evap , zero_v, zero_v, ztsol |
---|
| 1981 | e , d_h_vcol, d_qt, d_ec |
---|
| 1982 | s , fs_bound, fq_bound ) |
---|
| 1983 | END IF |
---|
| 1984 | C |
---|
| 1985 | c |
---|
[2] | 1986 | c Incrementer la temperature du sol |
---|
| 1987 | c |
---|
| 1988 | DO i = 1, klon |
---|
| 1989 | zxtsol(i) = 0.0 |
---|
[98] | 1990 | IF ( abs( pctsrf(i, is_ter) + pctsrf(i, is_lic) + |
---|
| 1991 | $ pctsrf(i, is_oce) + pctsrf(i, is_sic) - 1.) .GT. EPSFRA) |
---|
| 1992 | $ THEN |
---|
| 1993 | WRITE(*,*) 'physiq : pb sous surface au point ', i, |
---|
| 1994 | $ pctsrf(i, 1 : nbsrf) |
---|
| 1995 | ENDIF |
---|
[2] | 1996 | ENDDO |
---|
| 1997 | DO nsrf = 1, nbsrf |
---|
| 1998 | DO i = 1, klon |
---|
[177] | 1999 | c$$$ IF (pctsrf(i,nsrf) .GE. EPSFRA) THEN |
---|
| 2000 | ftsol(i,nsrf) = ftsol(i,nsrf) + d_ts(i,nsrf) |
---|
| 2001 | zxtsol(i) = zxtsol(i) + ftsol(i,nsrf)*pctsrf(i,nsrf) |
---|
| 2002 | c$$$ ENDIF |
---|
[2] | 2003 | ENDDO |
---|
| 2004 | ENDDO |
---|
| 2005 | |
---|
| 2006 | c |
---|
| 2007 | c Si une sous-fraction n'existe pas, elle prend la temp. moyenne |
---|
| 2008 | c |
---|
| 2009 | DO nsrf = 1, nbsrf |
---|
[230] | 2010 | DO i = 1, klon |
---|
| 2011 | IF (pctsrf(i,nsrf) .LT. epsfra) ftsol(i,nsrf) = zxtsol(i) |
---|
| 2012 | ENDDO |
---|
[2] | 2013 | ENDDO |
---|
| 2014 | |
---|
| 2015 | c |
---|
| 2016 | c Calculer la derive du flux infrarouge |
---|
| 2017 | c |
---|
[258] | 2018 | c$$$ DO nsrf = 1, nbsrf |
---|
[2] | 2019 | DO i = 1, klon |
---|
[258] | 2020 | c$$$ IF (pctsrf(i,nsrf) .GE. EPSFRA) THEN |
---|
| 2021 | dlw(i) = - 4.0*RSIGMA*zxtsol(i)**3 |
---|
| 2022 | c$$$ . *(ftsol(i,nsrf)-zxtsol(i)) |
---|
| 2023 | c$$$ . *pctsrf(i,nsrf) |
---|
| 2024 | c$$$ ENDIF |
---|
| 2025 | c$$$ ENDDO |
---|
[2] | 2026 | ENDDO |
---|
| 2027 | c |
---|
| 2028 | c Appeler la convection (au choix) |
---|
| 2029 | c |
---|
| 2030 | DO k = 1, klev |
---|
| 2031 | DO i = 1, klon |
---|
[46] | 2032 | conv_q(i,k) = d_q_dyn(i,k) |
---|
[2] | 2033 | . + d_q_vdf(i,k)/dtime |
---|
| 2034 | conv_t(i,k) = d_t_dyn(i,k) |
---|
| 2035 | . + d_t_vdf(i,k)/dtime |
---|
| 2036 | ENDDO |
---|
| 2037 | ENDDO |
---|
| 2038 | IF (check) THEN |
---|
[46] | 2039 | za = qcheck(klon,klev,paprs,q_seri,ql_seri,paire) |
---|
| 2040 | PRINT*, "avantcon=", za |
---|
[2] | 2041 | ENDIF |
---|
[46] | 2042 | zx_ajustq = .FALSE. |
---|
| 2043 | IF (iflag_con.EQ.2) zx_ajustq=.TRUE. |
---|
| 2044 | IF (zx_ajustq) THEN |
---|
| 2045 | DO i = 1, klon |
---|
| 2046 | z_avant(i) = 0.0 |
---|
| 2047 | ENDDO |
---|
| 2048 | DO k = 1, klev |
---|
| 2049 | DO i = 1, klon |
---|
| 2050 | z_avant(i) = z_avant(i) + (q_seri(i,k)+ql_seri(i,k)) |
---|
| 2051 | . *(paprs(i,k)-paprs(i,k+1))/RG |
---|
| 2052 | ENDDO |
---|
| 2053 | ENDDO |
---|
| 2054 | ENDIF |
---|
[2] | 2055 | IF (iflag_con.EQ.1) THEN |
---|
| 2056 | stop'reactiver le call conlmd dans physiq.F' |
---|
| 2057 | c CALL conlmd (dtime, paprs, pplay, t_seri, q_seri, conv_q, |
---|
| 2058 | c . d_t_con, d_q_con, |
---|
| 2059 | c . rain_con, snow_con, ibas_con, itop_con) |
---|
| 2060 | ELSE IF (iflag_con.EQ.2) THEN |
---|
| 2061 | CALL conflx(dtime, paprs, pplay, t_seri, q_seri, |
---|
[98] | 2062 | e conv_t, conv_q, zxfluxq(1,1), omega, |
---|
[2] | 2063 | s d_t_con, d_q_con, rain_con, snow_con, |
---|
| 2064 | s pmfu, pmfd, pen_u, pde_u, pen_d, pde_d, |
---|
| 2065 | s kcbot, kctop, kdtop, pmflxr, pmflxs) |
---|
[177] | 2066 | WHERE (rain_con < 0.) rain_con = 0. |
---|
| 2067 | WHERE (snow_con < 0.) snow_con = 0. |
---|
[2] | 2068 | DO i = 1, klon |
---|
| 2069 | ibas_con(i) = klev+1 - kcbot(i) |
---|
| 2070 | itop_con(i) = klev+1 - kctop(i) |
---|
| 2071 | ENDDO |
---|
[301] | 2072 | ELSE IF (iflag_con.GE.3) THEN |
---|
[230] | 2073 | c nb of tracers for the KE convection: |
---|
| 2074 | if (nqmax .GE. 4) then |
---|
| 2075 | ntra = nbtr |
---|
| 2076 | else |
---|
| 2077 | ntra = 1 |
---|
| 2078 | endif |
---|
[301] | 2079 | if (iflag_con.eq.4) then ! vectorise |
---|
[263] | 2080 | CALL conemav (dtime,paprs,pplay,t_seri,q_seri, |
---|
| 2081 | . u_seri,v_seri,tr_seri,nbtr, |
---|
| 2082 | . ema_work1,ema_work2, |
---|
| 2083 | . d_t_con,d_q_con,d_u_con,d_v_con,d_tr, |
---|
| 2084 | . rain_con, snow_con, ibas_con, itop_con, |
---|
| 2085 | . upwd,dnwd,dnwd0, |
---|
| 2086 | c . Ma,cape,tvp,(/(nint(rflag(i)),i=1,size(rflag))/), |
---|
| 2087 | . Ma,cape,tvp,iflagctrl, |
---|
[301] | 2088 | . pbase,bbase,dtvpdt1,dtvpdq1,dplcldt,dplcldr) |
---|
[263] | 2089 | |
---|
| 2090 | else |
---|
| 2091 | |
---|
[373] | 2092 | c print*,'Avant conema OUI' |
---|
| 2093 | CALL conema3 (dtime, |
---|
| 2094 | . paprs,pplay,t_seri,q_seri, |
---|
[301] | 2095 | . u_seri,v_seri,tr_seri,nbtr, |
---|
[230] | 2096 | . ema_work1,ema_work2, |
---|
| 2097 | . d_t_con,d_q_con,d_u_con,d_v_con,d_tr, |
---|
| 2098 | . rain_con, snow_con, ibas_con, itop_con, |
---|
[301] | 2099 | . upwd,dnwd,dnwd0,bas,top, |
---|
| 2100 | . Ma,cape,tvp,rflag, |
---|
[373] | 2101 | . pbase |
---|
| 2102 | . ,bbase,dtvpdt1,dtvpdq1,dplcldt,dplcldr |
---|
| 2103 | . ,clwcon0) |
---|
| 2104 | c print*,'Apres conema3 ' |
---|
| 2105 | |
---|
| 2106 | c Calculer l'humidite relative pour diagnostique |
---|
| 2107 | c |
---|
| 2108 | DO k = 1, klev |
---|
| 2109 | DO i = 1, klon |
---|
| 2110 | zx_t = t_seri(i,k) |
---|
| 2111 | IF (thermcep) THEN |
---|
| 2112 | zdelta = MAX(0.,SIGN(1.,rtt-zx_t)) |
---|
| 2113 | zx_qs = r2es * FOEEW(zx_t,zdelta)/pplay(i,k) |
---|
| 2114 | zx_qs = MIN(0.5,zx_qs) |
---|
| 2115 | zcor = 1./(1.-retv*zx_qs) |
---|
| 2116 | zx_qs = zx_qs*zcor |
---|
| 2117 | ELSE |
---|
| 2118 | IF (zx_t.LT.t_coup) THEN |
---|
| 2119 | zx_qs = qsats(zx_t)/pplay(i,k) |
---|
| 2120 | ELSE |
---|
| 2121 | zx_qs = qsatl(zx_t)/pplay(i,k) |
---|
| 2122 | ENDIF |
---|
| 2123 | ENDIF |
---|
| 2124 | zqsat(i,k)=zx_qs |
---|
| 2125 | ENDDO |
---|
| 2126 | ENDDO |
---|
| 2127 | |
---|
| 2128 | c calcul des propriétés des nuages convectifs |
---|
| 2129 | clwcon0(:,:)=fact_cldcon*clwcon0(:,:) |
---|
| 2130 | call clouds_gno |
---|
| 2131 | s (klon,klev,q_seri,zqsat,clwcon0,ptconv,ratqsc,rnebcon0) |
---|
| 2132 | |
---|
[263] | 2133 | endif |
---|
[230] | 2134 | DO i = 1, klon |
---|
| 2135 | ema_pcb(i) = pbase(i) |
---|
| 2136 | ENDDO |
---|
| 2137 | DO i = 1, klon |
---|
| 2138 | ema_pct(i) = paprs(i,itop_con(i)) |
---|
| 2139 | ENDDO |
---|
| 2140 | DO i = 1, klon |
---|
| 2141 | ema_cbmf(i) = ema_workcbmf(i) |
---|
| 2142 | ENDDO |
---|
[2] | 2143 | ELSE |
---|
[230] | 2144 | PRINT*, "iflag_con non-prevu", iflag_con |
---|
| 2145 | CALL abort |
---|
[2] | 2146 | ENDIF |
---|
[205] | 2147 | |
---|
[364] | 2148 | c CALL homogene(paprs, q_seri, d_q_con, u_seri,v_seri, |
---|
| 2149 | c . d_u_con, d_v_con) |
---|
[2] | 2150 | DO k = 1, klev |
---|
[205] | 2151 | DO i = 1, klon |
---|
[2] | 2152 | t_seri(i,k) = t_seri(i,k) + d_t_con(i,k) |
---|
| 2153 | q_seri(i,k) = q_seri(i,k) + d_q_con(i,k) |
---|
| 2154 | u_seri(i,k) = u_seri(i,k) + d_u_con(i,k) |
---|
| 2155 | v_seri(i,k) = v_seri(i,k) + d_v_con(i,k) |
---|
[205] | 2156 | ENDDO |
---|
[2] | 2157 | ENDDO |
---|
[385] | 2158 | c |
---|
| 2159 | IF (if_ebil.ge.2) THEN |
---|
| 2160 | ztit='after convect' |
---|
| 2161 | CALL diagetpq(paire,ztit,ip_ebil,2,2,dtime |
---|
| 2162 | e , t_seri,q_seri,ql_seri,qs_seri,u_seri,v_seri,paprs,pplay |
---|
| 2163 | s , d_h_vcol, d_qt, d_qw, d_ql, d_qs, d_ec) |
---|
| 2164 | call diagphy(paire,ztit,ip_ebil |
---|
| 2165 | e , zero_v, zero_v, zero_v, zero_v, zero_v |
---|
| 2166 | e , zero_v, rain_con, snow_con, ztsol |
---|
| 2167 | e , d_h_vcol, d_qt, d_ec |
---|
| 2168 | s , fs_bound, fq_bound ) |
---|
| 2169 | END IF |
---|
| 2170 | C |
---|
[2] | 2171 | IF (check) THEN |
---|
[230] | 2172 | za = qcheck(klon,klev,paprs,q_seri,ql_seri,paire) |
---|
| 2173 | PRINT*, "aprescon=", za |
---|
| 2174 | zx_t = 0.0 |
---|
| 2175 | za = 0.0 |
---|
| 2176 | DO i = 1, klon |
---|
[46] | 2177 | za = za + paire(i)/FLOAT(klon) |
---|
| 2178 | zx_t = zx_t + (rain_con(i)+snow_con(i))*paire(i)/FLOAT(klon) |
---|
[230] | 2179 | ENDDO |
---|
| 2180 | zx_t = zx_t/za*dtime |
---|
| 2181 | PRINT*, "Precip=", zx_t |
---|
[2] | 2182 | ENDIF |
---|
[46] | 2183 | IF (zx_ajustq) THEN |
---|
[230] | 2184 | DO i = 1, klon |
---|
[46] | 2185 | z_apres(i) = 0.0 |
---|
[230] | 2186 | ENDDO |
---|
| 2187 | DO k = 1, klev |
---|
| 2188 | DO i = 1, klon |
---|
| 2189 | z_apres(i) = z_apres(i) + (q_seri(i,k)+ql_seri(i,k)) |
---|
| 2190 | . *(paprs(i,k)-paprs(i,k+1))/RG |
---|
| 2191 | ENDDO |
---|
| 2192 | ENDDO |
---|
| 2193 | DO i = 1, klon |
---|
| 2194 | z_factor(i) = (z_avant(i)-(rain_con(i)+snow_con(i))*dtime) |
---|
| 2195 | . /z_apres(i) |
---|
| 2196 | ENDDO |
---|
| 2197 | DO k = 1, klev |
---|
| 2198 | DO i = 1, klon |
---|
| 2199 | IF (z_factor(i).GT.(1.0+1.0E-08) .OR. |
---|
| 2200 | . z_factor(i).LT.(1.0-1.0E-08)) THEN |
---|
| 2201 | q_seri(i,k) = q_seri(i,k) * z_factor(i) |
---|
| 2202 | ENDIF |
---|
| 2203 | ENDDO |
---|
| 2204 | ENDDO |
---|
[46] | 2205 | ENDIF |
---|
| 2206 | zx_ajustq=.FALSE. |
---|
[2] | 2207 | c |
---|
| 2208 | IF (nqmax.GT.2) THEN !--melange convectif de traceurs |
---|
| 2209 | c |
---|
[373] | 2210 | IF (iflag_con .NE. 2 .AND. debut) THEN |
---|
[230] | 2211 | PRINT*, 'Pour l instant, seul conflx fonctionne ', |
---|
| 2212 | $ 'avec traceurs', iflag_con |
---|
| 2213 | PRINT*,' Mettre iflag_con', |
---|
[373] | 2214 | $ ' = 2 dans run.def et repasser' |
---|
| 2215 | c CALL abort |
---|
[230] | 2216 | ENDIF |
---|
[2] | 2217 | c |
---|
| 2218 | ENDIF !--nqmax.GT.2 |
---|
| 2219 | c |
---|
| 2220 | c Appeler l'ajustement sec |
---|
| 2221 | c |
---|
[34] | 2222 | CALL ajsec(paprs, pplay, t_seri, q_seri, d_t_ajs, d_q_ajs) |
---|
| 2223 | DO k = 1, klev |
---|
| 2224 | DO i = 1, klon |
---|
| 2225 | t_seri(i,k) = t_seri(i,k) + d_t_ajs(i,k) |
---|
| 2226 | q_seri(i,k) = q_seri(i,k) + d_q_ajs(i,k) |
---|
| 2227 | ENDDO |
---|
| 2228 | ENDDO |
---|
[385] | 2229 | c |
---|
| 2230 | IF (if_ebil.ge.2) THEN |
---|
| 2231 | ztit='after dry_adjust' |
---|
| 2232 | CALL diagetpq(paire,ztit,ip_ebil,2,2,dtime |
---|
| 2233 | e , t_seri,q_seri,ql_seri,qs_seri,u_seri,v_seri,paprs,pplay |
---|
| 2234 | s , d_h_vcol, d_qt, d_qw, d_ql, d_qs, d_ec) |
---|
| 2235 | END IF |
---|
[230] | 2236 | |
---|
[373] | 2237 | |
---|
| 2238 | c------------------------------------------------------------------------- |
---|
| 2239 | c Caclul des ratqs |
---|
| 2240 | c------------------------------------------------------------------------- |
---|
| 2241 | |
---|
| 2242 | c print*,'calcul des ratqs' |
---|
| 2243 | c ratqs convectifs a l'ancienne en fonction de q(z=0)-q / q |
---|
| 2244 | c ---------------- |
---|
| 2245 | c on ecrase le tableau ratqsc calcule par clouds_gno |
---|
| 2246 | if (iflag_cldcon.eq.1) then |
---|
| 2247 | do k=1,klev |
---|
| 2248 | do i=1,klon |
---|
| 2249 | if(ptconv(i,k)) then |
---|
| 2250 | ratqsc(i,k)=ratqsbas |
---|
| 2251 | s +fact_cldcon*(q_seri(i,1)-q_seri(i,k))/q_seri(i,k) |
---|
| 2252 | else |
---|
| 2253 | ratqsc(i,k)=0. |
---|
| 2254 | endif |
---|
| 2255 | enddo |
---|
| 2256 | enddo |
---|
| 2257 | endif |
---|
| 2258 | |
---|
| 2259 | c ratqs stables |
---|
| 2260 | c ------------- |
---|
| 2261 | do k=1,klev |
---|
| 2262 | ratqss(:,k)=ratqsbas+(ratqshaut-ratqsbas)* |
---|
| 2263 | s min((paprs(:,1)-pplay(:,k))/(paprs(:,1)-30000.),1.) |
---|
| 2264 | enddo |
---|
| 2265 | |
---|
| 2266 | |
---|
| 2267 | c ratqs final |
---|
| 2268 | c ----------- |
---|
| 2269 | if (iflag_cldcon.eq.1 .or.iflag_cldcon.eq.2) then |
---|
| 2270 | c les ratqs sont une conbinaison de ratqss et ratqsc |
---|
| 2271 | c ratqs final |
---|
| 2272 | c 1e4 (en gros 3 heures), en dur pour le moment, est le temps de |
---|
| 2273 | c relaxation des ratqs |
---|
[385] | 2274 | c facttemps=exp(-pdtphys/1.e4) |
---|
| 2275 | facteur=exp(-pdtphys*facttemps) |
---|
| 2276 | ratqs(:,:)=max(ratqs(:,:)*facteur,ratqss(:,:)) |
---|
[373] | 2277 | ratqs(:,:)=max(ratqs(:,:),ratqsc(:,:)) |
---|
| 2278 | c print*,'calcul des ratqs fini' |
---|
[304] | 2279 | else |
---|
[373] | 2280 | c on ne prend que le ratqs stable pour fisrtilp |
---|
| 2281 | ratqs(:,:)=ratqss(:,:) |
---|
[304] | 2282 | endif |
---|
[373] | 2283 | |
---|
| 2284 | |
---|
[2] | 2285 | c |
---|
| 2286 | c Appeler le processus de condensation a grande echelle |
---|
| 2287 | c et le processus de precipitation |
---|
[373] | 2288 | c------------------------------------------------------------------------- |
---|
| 2289 | CALL fisrtilp(dtime,paprs,pplay, |
---|
| 2290 | . t_seri, q_seri,ptconv,ratqs, |
---|
[2] | 2291 | . d_t_lsc, d_q_lsc, d_ql_lsc, rneb, cldliq, |
---|
| 2292 | . rain_lsc, snow_lsc, |
---|
| 2293 | . pfrac_impa, pfrac_nucl, pfrac_1nucl, |
---|
[23] | 2294 | . frac_impa, frac_nucl, |
---|
[373] | 2295 | . prfl, psfl, rhcl) |
---|
| 2296 | |
---|
[177] | 2297 | WHERE (rain_lsc < 0) rain_lsc = 0. |
---|
| 2298 | WHERE (snow_lsc < 0) snow_lsc = 0. |
---|
[2] | 2299 | DO k = 1, klev |
---|
| 2300 | DO i = 1, klon |
---|
| 2301 | t_seri(i,k) = t_seri(i,k) + d_t_lsc(i,k) |
---|
| 2302 | q_seri(i,k) = q_seri(i,k) + d_q_lsc(i,k) |
---|
| 2303 | ql_seri(i,k) = ql_seri(i,k) + d_ql_lsc(i,k) |
---|
| 2304 | cldfra(i,k) = rneb(i,k) |
---|
| 2305 | IF (.NOT.new_oliq) cldliq(i,k) = ql_seri(i,k) |
---|
| 2306 | ENDDO |
---|
| 2307 | ENDDO |
---|
| 2308 | IF (check) THEN |
---|
[46] | 2309 | za = qcheck(klon,klev,paprs,q_seri,ql_seri,paire) |
---|
| 2310 | PRINT*, "apresilp=", za |
---|
[2] | 2311 | zx_t = 0.0 |
---|
[46] | 2312 | za = 0.0 |
---|
[2] | 2313 | DO i = 1, klon |
---|
[46] | 2314 | za = za + paire(i)/FLOAT(klon) |
---|
| 2315 | zx_t = zx_t + (rain_lsc(i)+snow_lsc(i))*paire(i)/FLOAT(klon) |
---|
| 2316 | ENDDO |
---|
| 2317 | zx_t = zx_t/za*dtime |
---|
[2] | 2318 | PRINT*, "Precip=", zx_t |
---|
| 2319 | ENDIF |
---|
| 2320 | c |
---|
[385] | 2321 | IF (if_ebil.ge.2) THEN |
---|
| 2322 | ztit='after fisrt' |
---|
| 2323 | CALL diagetpq(paire,ztit,ip_ebil,2,2,dtime |
---|
| 2324 | e , t_seri,q_seri,ql_seri,qs_seri,u_seri,v_seri,paprs,pplay |
---|
| 2325 | s , d_h_vcol, d_qt, d_qw, d_ql, d_qs, d_ec) |
---|
| 2326 | call diagphy(paire,ztit,ip_ebil |
---|
| 2327 | e , zero_v, zero_v, zero_v, zero_v, zero_v |
---|
| 2328 | e , zero_v, rain_lsc, snow_lsc, ztsol |
---|
| 2329 | e , d_h_vcol, d_qt, d_ec |
---|
| 2330 | s , fs_bound, fq_bound ) |
---|
| 2331 | END IF |
---|
| 2332 | c |
---|
[373] | 2333 | c------------------------------------------------------------------- |
---|
| 2334 | c PRESCRIPTION DES NUAGES POUR LE RAYONNEMENT |
---|
| 2335 | c------------------------------------------------------------------- |
---|
| 2336 | |
---|
| 2337 | c 1. NUAGES CONVECTIFS |
---|
[2] | 2338 | c |
---|
[373] | 2339 | IF (iflag_cldcon.eq.-1) THEN ! seulement pour Tiedtke |
---|
| 2340 | |
---|
| 2341 | c Nuages diagnostiques pour Tiedtke |
---|
[46] | 2342 | CALL diagcld1(paprs,pplay, |
---|
[2] | 2343 | . rain_con,snow_con,ibas_con,itop_con, |
---|
| 2344 | . diafra,dialiq) |
---|
| 2345 | DO k = 1, klev |
---|
| 2346 | DO i = 1, klon |
---|
| 2347 | IF (diafra(i,k).GT.cldfra(i,k)) THEN |
---|
| 2348 | cldliq(i,k) = dialiq(i,k) |
---|
| 2349 | cldfra(i,k) = diafra(i,k) |
---|
| 2350 | ENDIF |
---|
| 2351 | ENDDO |
---|
| 2352 | ENDDO |
---|
[373] | 2353 | |
---|
| 2354 | ELSE IF (iflag_cldcon.eq.3) THEN |
---|
| 2355 | c On prend pour les nuages convectifs le max du calcul de la |
---|
| 2356 | c convection et du calcul du pas de temps précédent diminué d'un facteur |
---|
| 2357 | c facttemps |
---|
[385] | 2358 | c facttemps=pdtphys/1.e4 |
---|
| 2359 | facteur = pdtphys *facttemps |
---|
[373] | 2360 | do k=1,klev |
---|
| 2361 | do i=1,klon |
---|
[385] | 2362 | rnebcon(i,k)=rnebcon(i,k)*facteur |
---|
[373] | 2363 | if (rnebcon0(i,k)*clwcon0(i,k).gt.rnebcon(i,k)*clwcon(i,k)) |
---|
| 2364 | s then |
---|
| 2365 | rnebcon(i,k)=rnebcon0(i,k) |
---|
| 2366 | clwcon(i,k)=clwcon0(i,k) |
---|
| 2367 | endif |
---|
| 2368 | enddo |
---|
| 2369 | enddo |
---|
| 2370 | |
---|
| 2371 | c On prend la somme des fractions nuageuses et des contenus en eau |
---|
| 2372 | cldfra(:,:)=min(max(cldfra(:,:),rnebcon(:,:)),1.) |
---|
| 2373 | cldliq(:,:)=cldliq(:,:)+rnebcon(:,:)*clwcon(:,:) |
---|
| 2374 | |
---|
| 2375 | |
---|
[2] | 2376 | ENDIF |
---|
| 2377 | c |
---|
[373] | 2378 | c 2. NUAGES STARTIFORMES |
---|
[46] | 2379 | c |
---|
| 2380 | IF (ok_stratus) THEN |
---|
| 2381 | CALL diagcld2(paprs,pplay,t_seri,q_seri, diafra,dialiq) |
---|
| 2382 | DO k = 1, klev |
---|
| 2383 | DO i = 1, klon |
---|
| 2384 | IF (diafra(i,k).GT.cldfra(i,k)) THEN |
---|
| 2385 | cldliq(i,k) = dialiq(i,k) |
---|
| 2386 | cldfra(i,k) = diafra(i,k) |
---|
| 2387 | ENDIF |
---|
| 2388 | ENDDO |
---|
| 2389 | ENDDO |
---|
| 2390 | ENDIF |
---|
| 2391 | c |
---|
[2] | 2392 | c Precipitation totale |
---|
| 2393 | c |
---|
| 2394 | DO i = 1, klon |
---|
| 2395 | rain_fall(i) = rain_con(i) + rain_lsc(i) |
---|
| 2396 | snow_fall(i) = snow_con(i) + snow_lsc(i) |
---|
| 2397 | ENDDO |
---|
| 2398 | c |
---|
[385] | 2399 | IF (if_ebil.ge.2) THEN |
---|
| 2400 | ztit="after diagcld" |
---|
| 2401 | CALL diagetpq(paire,ztit,ip_ebil,2,2,dtime |
---|
| 2402 | e , t_seri,q_seri,ql_seri,qs_seri,u_seri,v_seri,paprs,pplay |
---|
| 2403 | s , d_h_vcol, d_qt, d_qw, d_ql, d_qs, d_ec) |
---|
| 2404 | END IF |
---|
| 2405 | c |
---|
[2] | 2406 | c Calculer l'humidite relative pour diagnostique |
---|
| 2407 | c |
---|
| 2408 | DO k = 1, klev |
---|
| 2409 | DO i = 1, klon |
---|
| 2410 | zx_t = t_seri(i,k) |
---|
| 2411 | IF (thermcep) THEN |
---|
| 2412 | zdelta = MAX(0.,SIGN(1.,rtt-zx_t)) |
---|
| 2413 | zx_qs = r2es * FOEEW(zx_t,zdelta)/pplay(i,k) |
---|
| 2414 | zx_qs = MIN(0.5,zx_qs) |
---|
| 2415 | zcor = 1./(1.-retv*zx_qs) |
---|
| 2416 | zx_qs = zx_qs*zcor |
---|
| 2417 | ELSE |
---|
| 2418 | IF (zx_t.LT.t_coup) THEN |
---|
| 2419 | zx_qs = qsats(zx_t)/pplay(i,k) |
---|
| 2420 | ELSE |
---|
| 2421 | zx_qs = qsatl(zx_t)/pplay(i,k) |
---|
| 2422 | ENDIF |
---|
| 2423 | ENDIF |
---|
| 2424 | zx_rh(i,k) = q_seri(i,k)/zx_qs |
---|
[373] | 2425 | zqsat(i,k)=zx_qs |
---|
[2] | 2426 | ENDDO |
---|
| 2427 | ENDDO |
---|
| 2428 | c |
---|
| 2429 | c Calculer les parametres optiques des nuages et quelques |
---|
| 2430 | c parametres pour diagnostiques: |
---|
| 2431 | c |
---|
[373] | 2432 | if (ok_newmicro) then |
---|
| 2433 | CALL newmicro (paprs, pplay,ok_newmicro, |
---|
| 2434 | . t_seri, cldliq, cldfra, cldtau, cldemi, |
---|
| 2435 | . cldh, cldl, cldm, cldt, cldq) |
---|
| 2436 | else |
---|
[2] | 2437 | CALL nuage (paprs, pplay, |
---|
| 2438 | . t_seri, cldliq, cldfra, cldtau, cldemi, |
---|
| 2439 | . cldh, cldl, cldm, cldt, cldq) |
---|
[373] | 2440 | endif |
---|
[2] | 2441 | c |
---|
| 2442 | c Appeler le rayonnement mais calculer tout d'abord l'albedo du sol. |
---|
| 2443 | c |
---|
| 2444 | IF (MOD(itaprad,radpas).EQ.0) THEN |
---|
| 2445 | DO i = 1, klon |
---|
[98] | 2446 | albsol(i) = falbe(i,is_oce) * pctsrf(i,is_oce) |
---|
| 2447 | . + falbe(i,is_lic) * pctsrf(i,is_lic) |
---|
| 2448 | . + falbe(i,is_ter) * pctsrf(i,is_ter) |
---|
| 2449 | . + falbe(i,is_sic) * pctsrf(i,is_sic) |
---|
[282] | 2450 | albsollw(i) = falblw(i,is_oce) * pctsrf(i,is_oce) |
---|
| 2451 | . + falblw(i,is_lic) * pctsrf(i,is_lic) |
---|
| 2452 | . + falblw(i,is_ter) * pctsrf(i,is_ter) |
---|
| 2453 | . + falblw(i,is_sic) * pctsrf(i,is_sic) |
---|
[2] | 2454 | ENDDO |
---|
[295] | 2455 | ! if (debut) then |
---|
| 2456 | ! albsol1 = albsol |
---|
| 2457 | ! albsollw1 = albsollw |
---|
| 2458 | ! endif |
---|
| 2459 | ! albsol = albsol1 |
---|
| 2460 | ! albsollw = albsollw1 |
---|
[2] | 2461 | CALL radlwsw ! nouveau rayonnement (compatible Arpege-IFS) |
---|
| 2462 | e (dist, rmu0, fract, co2_ppm, solaire, |
---|
[282] | 2463 | e paprs, pplay,zxtsol,albsol, albsollw, t_seri,q_seri, |
---|
| 2464 | e wo, |
---|
[2] | 2465 | e cldfra, cldemi, cldtau, |
---|
| 2466 | s heat,heat0,cool,cool0,radsol,albpla, |
---|
| 2467 | s topsw,toplw,solsw,sollw, |
---|
[177] | 2468 | s sollwdown, |
---|
[2] | 2469 | s topsw0,toplw0,solsw0,sollw0) |
---|
| 2470 | itaprad = 0 |
---|
| 2471 | ENDIF |
---|
| 2472 | itaprad = itaprad + 1 |
---|
| 2473 | c |
---|
| 2474 | c Ajouter la tendance des rayonnements (tous les pas) |
---|
| 2475 | c |
---|
| 2476 | DO k = 1, klev |
---|
| 2477 | DO i = 1, klon |
---|
| 2478 | t_seri(i,k) = t_seri(i,k) |
---|
| 2479 | . + (heat(i,k)-cool(i,k)) * dtime/86400. |
---|
| 2480 | ENDDO |
---|
| 2481 | ENDDO |
---|
| 2482 | c |
---|
[385] | 2483 | IF (if_ebil.ge.2) THEN |
---|
| 2484 | ztit='after rad' |
---|
| 2485 | CALL diagetpq(paire,ztit,ip_ebil,2,2,dtime |
---|
| 2486 | e , t_seri,q_seri,ql_seri,qs_seri,u_seri,v_seri,paprs,pplay |
---|
| 2487 | s , d_h_vcol, d_qt, d_qw, d_ql, d_qs, d_ec) |
---|
| 2488 | call diagphy(paire,ztit,ip_ebil |
---|
| 2489 | e , topsw, toplw, solsw, sollw, zero_v |
---|
| 2490 | e , zero_v, zero_v, zero_v, ztsol |
---|
| 2491 | e , d_h_vcol, d_qt, d_ec |
---|
| 2492 | s , fs_bound, fq_bound ) |
---|
| 2493 | END IF |
---|
| 2494 | c |
---|
| 2495 | c |
---|
[2] | 2496 | c Calculer l'hydrologie de la surface |
---|
| 2497 | c |
---|
[98] | 2498 | c CALL hydrol(dtime,pctsrf,rain_fall, snow_fall, zxevap, |
---|
| 2499 | c . agesno, ftsol,fqsol,fsnow, ruis) |
---|
[2] | 2500 | c |
---|
| 2501 | DO i = 1, klon |
---|
| 2502 | zxqsol(i) = 0.0 |
---|
| 2503 | zxsnow(i) = 0.0 |
---|
| 2504 | ENDDO |
---|
| 2505 | DO nsrf = 1, nbsrf |
---|
| 2506 | DO i = 1, klon |
---|
| 2507 | zxqsol(i) = zxqsol(i) + fqsol(i,nsrf)*pctsrf(i,nsrf) |
---|
| 2508 | zxsnow(i) = zxsnow(i) + fsnow(i,nsrf)*pctsrf(i,nsrf) |
---|
| 2509 | ENDDO |
---|
| 2510 | ENDDO |
---|
| 2511 | c |
---|
| 2512 | c Si une sous-fraction n'existe pas, elle prend la valeur moyenne |
---|
| 2513 | c |
---|
[177] | 2514 | c$$$ DO nsrf = 1, nbsrf |
---|
| 2515 | c$$$ DO i = 1, klon |
---|
| 2516 | c$$$ IF (pctsrf(i,nsrf).LT.epsfra) THEN |
---|
| 2517 | c$$$ fqsol(i,nsrf) = zxqsol(i) |
---|
| 2518 | c$$$ fsnow(i,nsrf) = zxsnow(i) |
---|
| 2519 | c$$$ ENDIF |
---|
| 2520 | c$$$ ENDDO |
---|
| 2521 | c$$$ ENDDO |
---|
[2] | 2522 | c |
---|
| 2523 | c Calculer le bilan du sol et la derive de temperature (couplage) |
---|
| 2524 | c |
---|
| 2525 | DO i = 1, klon |
---|
| 2526 | bils(i) = radsol(i) - sens(i) - evap(i)*RLVTT |
---|
| 2527 | ENDDO |
---|
| 2528 | c |
---|
| 2529 | cmoddeblott(jan95) |
---|
| 2530 | c Appeler le programme de parametrisation de l'orographie |
---|
| 2531 | c a l'echelle sous-maille: |
---|
| 2532 | c |
---|
| 2533 | IF (ok_orodr) THEN |
---|
| 2534 | c |
---|
| 2535 | c selection des points pour lesquels le shema est actif: |
---|
| 2536 | igwd=0 |
---|
| 2537 | DO i=1,klon |
---|
| 2538 | itest(i)=0 |
---|
| 2539 | c IF ((zstd(i).gt.10.0)) THEN |
---|
| 2540 | IF (((zpic(i)-zmea(i)).GT.100.).AND.(zstd(i).GT.10.0)) THEN |
---|
| 2541 | itest(i)=1 |
---|
| 2542 | igwd=igwd+1 |
---|
| 2543 | idx(igwd)=i |
---|
| 2544 | ENDIF |
---|
| 2545 | ENDDO |
---|
[158] | 2546 | c igwdim=MAX(1,igwd) |
---|
[2] | 2547 | c |
---|
| 2548 | CALL drag_noro(klon,klev,dtime,paprs,pplay, |
---|
| 2549 | e zmea,zstd, zsig, zgam, zthe,zpic,zval, |
---|
[158] | 2550 | e igwd,idx,itest, |
---|
[2] | 2551 | e t_seri, u_seri, v_seri, |
---|
| 2552 | s zulow, zvlow, zustr, zvstr, |
---|
| 2553 | s d_t_oro, d_u_oro, d_v_oro) |
---|
| 2554 | c |
---|
| 2555 | c ajout des tendances |
---|
| 2556 | DO k = 1, klev |
---|
| 2557 | DO i = 1, klon |
---|
| 2558 | t_seri(i,k) = t_seri(i,k) + d_t_oro(i,k) |
---|
| 2559 | u_seri(i,k) = u_seri(i,k) + d_u_oro(i,k) |
---|
| 2560 | v_seri(i,k) = v_seri(i,k) + d_v_oro(i,k) |
---|
| 2561 | ENDDO |
---|
| 2562 | ENDDO |
---|
| 2563 | c |
---|
| 2564 | ENDIF ! fin de test sur ok_orodr |
---|
| 2565 | c |
---|
| 2566 | IF (ok_orolf) THEN |
---|
| 2567 | c |
---|
| 2568 | c selection des points pour lesquels le shema est actif: |
---|
| 2569 | igwd=0 |
---|
| 2570 | DO i=1,klon |
---|
| 2571 | itest(i)=0 |
---|
| 2572 | IF ((zpic(i)-zmea(i)).GT.100.) THEN |
---|
| 2573 | itest(i)=1 |
---|
| 2574 | igwd=igwd+1 |
---|
| 2575 | idx(igwd)=i |
---|
| 2576 | ENDIF |
---|
| 2577 | ENDDO |
---|
[158] | 2578 | c igwdim=MAX(1,igwd) |
---|
[2] | 2579 | c |
---|
| 2580 | CALL lift_noro(klon,klev,dtime,paprs,pplay, |
---|
[158] | 2581 | e rlat,zmea,zstd,zpic, |
---|
| 2582 | e itest, |
---|
[2] | 2583 | e t_seri, u_seri, v_seri, |
---|
| 2584 | s zulow, zvlow, zustr, zvstr, |
---|
| 2585 | s d_t_lif, d_u_lif, d_v_lif) |
---|
| 2586 | c |
---|
| 2587 | c ajout des tendances |
---|
| 2588 | DO k = 1, klev |
---|
| 2589 | DO i = 1, klon |
---|
| 2590 | t_seri(i,k) = t_seri(i,k) + d_t_lif(i,k) |
---|
| 2591 | u_seri(i,k) = u_seri(i,k) + d_u_lif(i,k) |
---|
| 2592 | v_seri(i,k) = v_seri(i,k) + d_v_lif(i,k) |
---|
| 2593 | ENDDO |
---|
| 2594 | ENDDO |
---|
| 2595 | c |
---|
| 2596 | ENDIF ! fin de test sur ok_orolf |
---|
| 2597 | c |
---|
[385] | 2598 | IF (if_ebil.ge.2) THEN |
---|
| 2599 | ztit='after orography' |
---|
| 2600 | CALL diagetpq(paire,ztit,ip_ebil,2,2,dtime |
---|
| 2601 | e , t_seri,q_seri,ql_seri,qs_seri,u_seri,v_seri,paprs,pplay |
---|
| 2602 | s , d_h_vcol, d_qt, d_qw, d_ql, d_qs, d_ec) |
---|
| 2603 | END IF |
---|
| 2604 | c |
---|
| 2605 | c |
---|
[2] | 2606 | cAA |
---|
| 2607 | cAA Installation de l'interface online-offline pour traceurs |
---|
| 2608 | cAA |
---|
| 2609 | c==================================================================== |
---|
| 2610 | c Calcul des tendances traceurs |
---|
| 2611 | c==================================================================== |
---|
[230] | 2612 | C Pascale : il faut quand meme apeller phytrac car il gere les sorties |
---|
| 2613 | cKE43 des traceurs => il faut donc mettre des flags a .false. |
---|
[301] | 2614 | IF (iflag_con.GE.3) THEN |
---|
[230] | 2615 | c on ajoute les tendances calculees par KE43 |
---|
[295] | 2616 | c$$$ OM on onhibe la convection sur les traceurs |
---|
[230] | 2617 | DO iq=1, nqmax-2 ! Sandrine a -3 ??? |
---|
[295] | 2618 | c$$$ OM on inhibe la convection sur les traceur |
---|
| 2619 | c$$$ DO k = 1, nlev |
---|
| 2620 | c$$$ DO i = 1, klon |
---|
| 2621 | c$$$ tr_seri(i,k,iq) = tr_seri(i,k,iq) + d_tr(i,k,iq) |
---|
| 2622 | c$$$ ENDDO |
---|
| 2623 | c$$$ ENDDO |
---|
[230] | 2624 | WRITE(iqn,'(i2.2)') iq |
---|
| 2625 | CALL minmaxqfi(tr_seri(1,1,iq),0.,1.e33,'couche lim iq='//iqn) |
---|
| 2626 | ENDDO |
---|
[2] | 2627 | CMAF modif pour garder info du nombre de traceurs auxquels |
---|
| 2628 | C la physique s'applique |
---|
[230] | 2629 | ELSE |
---|
| 2630 | CMAF modif pour garder info du nombre de traceurs auxquels |
---|
| 2631 | C la physique s'applique |
---|
[2] | 2632 | C |
---|
| 2633 | call phytrac (rnpb, |
---|
[230] | 2634 | I debut,lafin, |
---|
[2] | 2635 | I nqmax-2, |
---|
| 2636 | I nlon,nlev,dtime, |
---|
| 2637 | I t,paprs,pplay, |
---|
| 2638 | I pmfu, pmfd, pen_u, pde_u, pen_d, pde_d, |
---|
| 2639 | I ycoefh,yu1,yv1,ftsol,pctsrf,rlat, |
---|
| 2640 | I frac_impa, frac_nucl, |
---|
| 2641 | I rlon,presnivs,paire,pphis, |
---|
| 2642 | O tr_seri) |
---|
[230] | 2643 | ENDIF |
---|
[2] | 2644 | |
---|
| 2645 | IF (offline) THEN |
---|
[53] | 2646 | |
---|
| 2647 | call phystokenc ( |
---|
| 2648 | I nlon,nlev,pdtphys,rlon,rlat, |
---|
[230] | 2649 | I t,pmfu, pmfd, pen_u, pde_u, pen_d, pde_d, |
---|
[2] | 2650 | I ycoefh,yu1,yv1,ftsol,pctsrf, |
---|
[53] | 2651 | I frac_impa, frac_nucl, |
---|
[230] | 2652 | I pphis,paire,dtime,itap) |
---|
[2] | 2653 | |
---|
[230] | 2654 | |
---|
[2] | 2655 | ENDIF |
---|
| 2656 | |
---|
| 2657 | c |
---|
| 2658 | c Calculer le transport de l'eau et de l'energie (diagnostique) |
---|
| 2659 | c |
---|
| 2660 | CALL transp (paprs,zxtsol, |
---|
| 2661 | e t_seri, q_seri, u_seri, v_seri, zphi, |
---|
| 2662 | s ve, vq, ue, uq) |
---|
| 2663 | c |
---|
| 2664 | c Accumuler les variables a stocker dans les fichiers histoire: |
---|
| 2665 | c |
---|
| 2666 | c |
---|
| 2667 | c |
---|
[385] | 2668 | IF (if_ebil.ge.1) THEN |
---|
| 2669 | ztit='after physic' |
---|
| 2670 | CALL diagetpq(paire,ztit,ip_ebil,1,1,dtime |
---|
| 2671 | e , t_seri,q_seri,ql_seri,qs_seri,u_seri,v_seri,paprs,pplay |
---|
| 2672 | s , d_h_vcol, d_qt, d_qw, d_ql, d_qs, d_ec) |
---|
| 2673 | C Comme les tendances de la physique sont ajoute dans la dynamique, |
---|
| 2674 | C on devrait avoir que la variation d'entalpie par la dynamique |
---|
| 2675 | C est egale a la variation de la physique au pas de temps precedent. |
---|
| 2676 | C Donc la somme de ces 2 variations devrait etre nulle. |
---|
| 2677 | call diagphy(paire,ztit,ip_ebil |
---|
| 2678 | e , topsw, toplw, solsw, sollw, sens |
---|
| 2679 | e , evap, rain_fall, snow_fall, ztsol |
---|
| 2680 | e , d_h_vcol, d_qt, d_ec |
---|
| 2681 | s , fs_bound, fq_bound ) |
---|
| 2682 | C |
---|
| 2683 | d_h_vcol_phy=d_h_vcol |
---|
| 2684 | C |
---|
| 2685 | END IF |
---|
| 2686 | C |
---|
[2] | 2687 | IF (ok_journe) THEN |
---|
| 2688 | c |
---|
[29] | 2689 | ndex2d = 0 |
---|
| 2690 | ndex3d = 0 |
---|
[2] | 2691 | c |
---|
| 2692 | c Champs 2D: |
---|
| 2693 | c |
---|
[158] | 2694 | zsto = dtime |
---|
| 2695 | zout = dtime * FLOAT(ecrit_day) |
---|
[353] | 2696 | itau_w = itau_phy + itap |
---|
[158] | 2697 | |
---|
[29] | 2698 | i = NINT(zout/zsto) |
---|
[80] | 2699 | CALL gr_fi_ecrit(1,klon,iim,jjmp1,pphis,zx_tmp_2d) |
---|
[361] | 2700 | CALL histwrite(nid_day,"phis",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[271] | 2701 | varname = 'phis' |
---|
| 2702 | vartitle= 'Surface geop. height' |
---|
| 2703 | varunits= '-' |
---|
[282] | 2704 | c call writephy(fid_day,prof2d_on,varname,pphis,vartitle, |
---|
| 2705 | c . varunits) |
---|
[29] | 2706 | c |
---|
| 2707 | i = NINT(zout/zsto) |
---|
[80] | 2708 | CALL gr_fi_ecrit(1,klon,iim,jjmp1,paire,zx_tmp_2d) |
---|
[361] | 2709 | CALL histwrite(nid_day,"aire",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[271] | 2710 | varname = 'aire' |
---|
| 2711 | vartitle= 'Grid area' |
---|
| 2712 | varunits= '-' |
---|
[282] | 2713 | c call writephy(fid_day,prof2d_on,varname,paire,vartitle, |
---|
| 2714 | c . varunits) |
---|
[29] | 2715 | C |
---|
[80] | 2716 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zxtsol,zx_tmp_2d) |
---|
[353] | 2717 | CALL histwrite(nid_day,"tsol",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2718 | c call writephy(fid_day,prof2d_av,'tsol',zxtsol, |
---|
| 2719 | c . 'Surface Temperature','K') |
---|
[2] | 2720 | c |
---|
[98] | 2721 | C |
---|
| 2722 | zx_tmp_fi2d(1 : klon) = ftsol(1 : klon, is_ter) |
---|
| 2723 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d ,zx_tmp_2d) |
---|
[353] | 2724 | CALL histwrite(nid_day,"tter",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2725 | c call writephy(fid_day,prof2d_av,'tter',ftsol(1 : klon, is_ter), |
---|
| 2726 | c . 'Surface Temperature','K') |
---|
[98] | 2727 | C |
---|
| 2728 | zx_tmp_fi2d(1 : klon) = ftsol(1 : klon, is_lic) |
---|
[361] | 2729 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d,zx_tmp_2d) |
---|
[353] | 2730 | CALL histwrite(nid_day,"tlic",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2731 | c call writephy(fid_day,prof2d_av,'tlic',ftsol(1 : klon, is_lic), |
---|
| 2732 | c . 'Surface Temperature','K') |
---|
[98] | 2733 | C |
---|
| 2734 | zx_tmp_fi2d(1 : klon) = ftsol(1 : klon, is_oce) |
---|
[361] | 2735 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d,zx_tmp_2d) |
---|
[353] | 2736 | CALL histwrite(nid_day,"toce",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2737 | c call writephy(fid_day,prof2d_av,'toce',ftsol(1 : klon, is_oce), |
---|
| 2738 | c . 'Surface Temperature','K') |
---|
[98] | 2739 | C |
---|
| 2740 | zx_tmp_fi2d(1 : klon) = ftsol(1 : klon, is_sic) |
---|
[361] | 2741 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d,zx_tmp_2d) |
---|
[353] | 2742 | CALL histwrite(nid_day,"tsic",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2743 | c call writephy(fid_day,prof2d_av,'tsic',ftsol(1 : klon, is_sic), |
---|
| 2744 | c . 'Surface Temperature','K') |
---|
[98] | 2745 | C |
---|
[2] | 2746 | DO i = 1, klon |
---|
| 2747 | zx_tmp_fi2d(i) = paprs(i,1) |
---|
| 2748 | ENDDO |
---|
[80] | 2749 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d,zx_tmp_2d) |
---|
[353] | 2750 | CALL histwrite(nid_day,"psol",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[271] | 2751 | c Essai writephys |
---|
| 2752 | varname = 'psol' |
---|
| 2753 | vartitle= 'pression au sol' |
---|
| 2754 | varunits= 'hPa' |
---|
[282] | 2755 | c call writephy(fid_day,prof2d_av,varname,zx_tmp_fi2d,vartitle, |
---|
| 2756 | c . varunits) |
---|
[2] | 2757 | c |
---|
| 2758 | DO i = 1, klon |
---|
[271] | 2759 | zx_tmp_fi2d(i) = (rain_fall(i) + snow_fall(i))* 86400. |
---|
[2] | 2760 | ENDDO |
---|
[80] | 2761 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d,zx_tmp_2d) |
---|
[353] | 2762 | CALL histwrite(nid_day,"rain",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2763 | c call writephy(fid_day,prof2d_av,'rain',zx_tmp_fi2d, |
---|
| 2764 | c . 'Precipitation','mm/day') |
---|
[271] | 2765 | |
---|
| 2766 | |
---|
[2] | 2767 | c |
---|
[80] | 2768 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, snow_fall,zx_tmp_2d) |
---|
[353] | 2769 | CALL histwrite(nid_day,"snow",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2770 | c call writephy(fid_day,prof2d_av,'snow',snow_fall, |
---|
| 2771 | c . 'Snow','mm/day') |
---|
[2] | 2772 | c |
---|
[171] | 2773 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zxsnow,zx_tmp_2d) |
---|
[353] | 2774 | CALL histwrite(nid_day,"snow_cov",itau_w,zx_tmp_2d,iim*jjmp1, |
---|
| 2775 | . ndex2d) |
---|
[282] | 2776 | c call writephy(fid_day,prof2d_av,'snow_cov',zxsnow, |
---|
| 2777 | c . 'Snow cover','mm') |
---|
[171] | 2778 | c |
---|
[80] | 2779 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, evap,zx_tmp_2d) |
---|
[353] | 2780 | CALL histwrite(nid_day,"evap",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2781 | c call writephy(fid_day,prof2d_av,'evap',evap, |
---|
| 2782 | c . 'Evaporation','mm/day') |
---|
[2] | 2783 | c |
---|
[80] | 2784 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, topsw,zx_tmp_2d) |
---|
[353] | 2785 | CALL histwrite(nid_day,"tops",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2786 | c call writephy(fid_day,prof2d_av,'tops',topsw, |
---|
| 2787 | c . 'Solar rad. at TOA','W/m2') |
---|
[2] | 2788 | c |
---|
[80] | 2789 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, toplw,zx_tmp_2d) |
---|
[353] | 2790 | CALL histwrite(nid_day,"topl",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2791 | c call writephy(fid_day,prof2d_av,'topl',toplw, |
---|
| 2792 | c . 'IR rad. at TOA','W/m2') |
---|
[2] | 2793 | c |
---|
[80] | 2794 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, solsw,zx_tmp_2d) |
---|
[353] | 2795 | CALL histwrite(nid_day,"sols",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2796 | c call writephy(fid_day,prof2d_av,'sols',solsw, |
---|
| 2797 | c . 'Solar rad. at surf.','W/m2') |
---|
[2] | 2798 | c |
---|
[80] | 2799 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, sollw,zx_tmp_2d) |
---|
[353] | 2800 | CALL histwrite(nid_day,"soll",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2801 | c call writephy(fid_day,prof2d_av,'soll',sollw, |
---|
| 2802 | c . 'IR rad. at surface','W/m2') |
---|
[2] | 2803 | c |
---|
[177] | 2804 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, sollwdown,zx_tmp_2d) |
---|
[353] | 2805 | CALL histwrite(nid_day,"solldown",itau_w,zx_tmp_2d,iim*jjmp1, |
---|
| 2806 | . ndex2d) |
---|
[282] | 2807 | c call writephy(fid_day,prof2d_av,'solldown',sollwdown, |
---|
| 2808 | c . 'Down. IR rad. at surface','W/m2') |
---|
[177] | 2809 | c |
---|
[80] | 2810 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, bils,zx_tmp_2d) |
---|
[353] | 2811 | CALL histwrite(nid_day,"bils",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2812 | c call writephy(fid_day,prof2d_av,'bils',bils, |
---|
| 2813 | c . 'Surf. total heat flux','W/m2') |
---|
[2] | 2814 | c |
---|
[80] | 2815 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, sens,zx_tmp_2d) |
---|
[353] | 2816 | CALL histwrite(nid_day,"sens",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2817 | c call writephy(fid_day,prof2d_av,'sens',sens, |
---|
| 2818 | c . 'Sensible heat flux','W/m2') |
---|
[2] | 2819 | c |
---|
[80] | 2820 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, fder,zx_tmp_2d) |
---|
[353] | 2821 | CALL histwrite(nid_day,"fder",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2822 | c call writephy(fid_day,prof2d_av,'fder',fder, |
---|
| 2823 | c . 'Heat flux derivation','W/m2') |
---|
[2] | 2824 | c |
---|
| 2825 | c |
---|
[98] | 2826 | DO nsrf = 1, nbsrf |
---|
| 2827 | C§§§ |
---|
| 2828 | zx_tmp_fi2d(1 : klon) = pctsrf( 1 : klon, nsrf) |
---|
| 2829 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 2830 | CALL histwrite(nid_day,"pourc_"//clnsurf(nsrf),itau_w, |
---|
[98] | 2831 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2832 | c call writephy(fid_day,prof2d_av,'pourc_'//clnsurf(nsrf), |
---|
| 2833 | c . pctsrf( 1 : klon, nsrf), |
---|
| 2834 | c . 'Fraction'//clnsurf(nsrf),'-') |
---|
[177] | 2835 | C |
---|
| 2836 | zx_tmp_fi2d(1 : klon) = ftsol( 1 : klon, nsrf) |
---|
| 2837 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 2838 | CALL histwrite(nid_day,"tsol_"//clnsurf(nsrf),itau_w, |
---|
[177] | 2839 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2840 | c call writephy(fid_day,prof2d_av,'tsol_'//clnsurf(nsrf), |
---|
| 2841 | c . ftsol( 1 : klon, nsrf), |
---|
| 2842 | c . 'Surf. Temp'//clnsurf(nsrf),'K') |
---|
[98] | 2843 | C |
---|
[177] | 2844 | zx_tmp_fi2d(1 : klon) = fluxt( 1 : klon, 1, nsrf) |
---|
[98] | 2845 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 2846 | CALL histwrite(nid_day,"sens_"//clnsurf(nsrf),itau_w, |
---|
[98] | 2847 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2848 | c call writephy(fid_day,prof2d_av,'sens_'//clnsurf(nsrf), |
---|
| 2849 | c . fluxt( 1 : klon, 1, nsrf), |
---|
| 2850 | c . 'Sensible heat flux '//clnsurf(nsrf),'W/m2') |
---|
[271] | 2851 | C |
---|
[177] | 2852 | zx_tmp_fi2d(1 : klon) = fluxlat( 1 : klon, nsrf) |
---|
[98] | 2853 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 2854 | CALL histwrite(nid_day,"lat_"//clnsurf(nsrf),itau_w, |
---|
[98] | 2855 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2856 | c call writephy(fid_day,prof2d_av,'lat_'//clnsurf(nsrf), |
---|
| 2857 | c . fluxlat( 1 : klon, nsrf), |
---|
| 2858 | c . 'Latent heat flux '//clnsurf(nsrf),'W/m2') |
---|
[98] | 2859 | C |
---|
[177] | 2860 | zx_tmp_fi2d(1 : klon) = fluxu( 1 : klon, 1, nsrf) |
---|
[98] | 2861 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 2862 | CALL histwrite(nid_day,"taux_"//clnsurf(nsrf),itau_w, |
---|
[98] | 2863 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2864 | c call writephy(fid_day,prof2d_av,'taux_'//clnsurf(nsrf), |
---|
| 2865 | c . fluxu( 1 : klon, 1, nsrf), |
---|
| 2866 | c . 'Zonal wind stress '//clnsurf(nsrf),'Pa') |
---|
[98] | 2867 | C |
---|
[177] | 2868 | zx_tmp_fi2d(1 : klon) = fluxv( 1 : klon, 1, nsrf) |
---|
[98] | 2869 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 2870 | CALL histwrite(nid_day,"tauy_"//clnsurf(nsrf),itau_w, |
---|
[98] | 2871 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2872 | c call writephy(fid_day,prof2d_av,'tauy_'//clnsurf(nsrf), |
---|
| 2873 | c . fluxv( 1 : klon, 1, nsrf), |
---|
| 2874 | c . 'Meridional wind stress '//clnsurf(nsrf),'Pa') |
---|
[177] | 2875 | C |
---|
| 2876 | zx_tmp_fi2d(1 : klon) = falbe( 1 : klon, nsrf) |
---|
| 2877 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 2878 | CALL histwrite(nid_day,"albe_"//clnsurf(nsrf),itau_w, |
---|
[177] | 2879 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2880 | c call writephy(fid_day,prof2d_av,'albe_'//clnsurf(nsrf), |
---|
| 2881 | c . falbe( 1 : klon, nsrf), |
---|
| 2882 | c . 'Albedo surf. SW'//clnsurf(nsrf),'-') |
---|
| 2883 | c call writephy(fid_day,prof2d_av,'alblw_'//clnsurf(nsrf), |
---|
| 2884 | c . falblw( 1 : klon, nsrf), |
---|
| 2885 | c . 'Albedo surf. LW'//clnsurf(nsrf),'-') |
---|
[177] | 2886 | C |
---|
| 2887 | zx_tmp_fi2d(1 : klon) = frugs( 1 : klon, nsrf) |
---|
| 2888 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 2889 | CALL histwrite(nid_day,"rugs_"//clnsurf(nsrf),itau_w, |
---|
[177] | 2890 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2891 | c call writephy(fid_day,prof2d_av,'rugs_'//clnsurf(nsrf), |
---|
| 2892 | c . frugs( 1 : klon, nsrf), |
---|
| 2893 | c . 'Rugosity '//clnsurf(nsrf),' - ') |
---|
[98] | 2894 | C |
---|
| 2895 | END DO |
---|
| 2896 | C |
---|
| 2897 | c$$$ DO i = 1, klon |
---|
| 2898 | c$$$ zx_tmp_fi2d(i) = pctsrf(i,is_sic) |
---|
| 2899 | c$$$ ENDDO |
---|
| 2900 | c$$$ CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d,zx_tmp_2d) |
---|
[353] | 2901 | c$$$ CALL histwrite(nid_day,"sicf",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 2902 | c |
---|
[80] | 2903 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, cldl,zx_tmp_2d) |
---|
[353] | 2904 | CALL histwrite(nid_day,"cldl",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2905 | c call writephy(fid_day,prof2d_av,'cldl',cldl, |
---|
| 2906 | c . 'Low-level cloudiness','-') |
---|
[2] | 2907 | c |
---|
[80] | 2908 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, cldm,zx_tmp_2d) |
---|
[353] | 2909 | CALL histwrite(nid_day,"cldm",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2910 | c call writephy(fid_day,prof2d_av,'cldm',cldm, |
---|
| 2911 | c . 'Mid-level cloudiness','-') |
---|
[2] | 2912 | c |
---|
[80] | 2913 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, cldh,zx_tmp_2d) |
---|
[353] | 2914 | CALL histwrite(nid_day,"cldh",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2915 | c call writephy(fid_day,prof2d_av,'cldh',cldh, |
---|
| 2916 | c . 'High-level cloudiness','-') |
---|
[2] | 2917 | c |
---|
[80] | 2918 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, cldt,zx_tmp_2d) |
---|
[353] | 2919 | CALL histwrite(nid_day,"cldt",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2920 | c call writephy(fid_day,prof2d_av,'cldt',cldt, |
---|
| 2921 | c . 'Total cloudiness','-') |
---|
[2] | 2922 | c |
---|
[80] | 2923 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, cldq,zx_tmp_2d) |
---|
[353] | 2924 | CALL histwrite(nid_day,"cldq",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 2925 | c call writephy(fid_day,prof2d_av,'cldq',cldq, |
---|
| 2926 | c . 'Cloud liquid water path','-') |
---|
[2] | 2927 | c |
---|
| 2928 | c Champs 3D: |
---|
| 2929 | c |
---|
[80] | 2930 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, t_seri, zx_tmp_3d) |
---|
[353] | 2931 | CALL histwrite(nid_day,"temp",itau_w,zx_tmp_3d, |
---|
[80] | 2932 | . iim*jjmp1*klev,ndex3d) |
---|
[271] | 2933 | c Essai writephys |
---|
| 2934 | varname = 'temp' |
---|
| 2935 | vartitle= 'temperature 3D' |
---|
| 2936 | varunits= 'K' |
---|
[282] | 2937 | c call writephy(fid_day,prof3d_av,varname,t_seri,vartitle,varunits) |
---|
[2] | 2938 | c |
---|
[80] | 2939 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, qx(1,1,ivap), zx_tmp_3d) |
---|
[353] | 2940 | CALL histwrite(nid_day,"ovap",itau_w,zx_tmp_3d, |
---|
[80] | 2941 | . iim*jjmp1*klev,ndex3d) |
---|
[282] | 2942 | c call writephy(fid_day,prof3d_av,'ovap',qx(1,1,ivap), |
---|
| 2943 | c . 'Specific humidity','Kg/Kg') |
---|
[2] | 2944 | c |
---|
[80] | 2945 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, zphi, zx_tmp_3d) |
---|
[353] | 2946 | CALL histwrite(nid_day,"geop",itau_w,zx_tmp_3d, |
---|
[80] | 2947 | . iim*jjmp1*klev,ndex3d) |
---|
[282] | 2948 | c call writephy(fid_day,prof3d_av,'geop',zphi, |
---|
| 2949 | c . 'Geopotential height','m') |
---|
[2] | 2950 | c |
---|
[80] | 2951 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, u_seri, zx_tmp_3d) |
---|
[353] | 2952 | CALL histwrite(nid_day,"vitu",itau_w,zx_tmp_3d, |
---|
[80] | 2953 | . iim*jjmp1*klev,ndex3d) |
---|
[282] | 2954 | c call writephy(fid_day,prof3d_av,'vitu',u_seri, |
---|
| 2955 | c . 'Zonal wind','m/s') |
---|
[2] | 2956 | c |
---|
[80] | 2957 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, v_seri, zx_tmp_3d) |
---|
[353] | 2958 | CALL histwrite(nid_day,"vitv",itau_w,zx_tmp_3d, |
---|
[80] | 2959 | . iim*jjmp1*klev,ndex3d) |
---|
[282] | 2960 | c call writephy(fid_day,prof3d_av,'vitv',v_seri, |
---|
| 2961 | c . 'Meridional wind','m/s') |
---|
[2] | 2962 | c |
---|
[80] | 2963 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, omega, zx_tmp_3d) |
---|
[353] | 2964 | CALL histwrite(nid_day,"vitw",itau_w,zx_tmp_3d, |
---|
[80] | 2965 | . iim*jjmp1*klev,ndex3d) |
---|
[282] | 2966 | c call writephy(fid_day,prof3d_av,'vitw',omega, |
---|
| 2967 | c . 'Vertical wind','m/s') |
---|
[2] | 2968 | c |
---|
[80] | 2969 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, pplay, zx_tmp_3d) |
---|
[353] | 2970 | CALL histwrite(nid_day,"pres",itau_w,zx_tmp_3d, |
---|
[80] | 2971 | . iim*jjmp1*klev,ndex3d) |
---|
[282] | 2972 | c call writephy(fid_day,prof3d_av,'pres',pplay, |
---|
| 2973 | c . 'Air pressure','Pa') |
---|
[271] | 2974 | |
---|
[2] | 2975 | c |
---|
[29] | 2976 | if (ok_sync) then |
---|
[282] | 2977 | c call writephy_sync(fid_day) |
---|
[29] | 2978 | call histsync(nid_day) |
---|
| 2979 | endif |
---|
[2] | 2980 | ENDIF |
---|
| 2981 | C |
---|
| 2982 | IF (ok_mensuel) THEN |
---|
| 2983 | c |
---|
[29] | 2984 | ndex2d = 0 |
---|
| 2985 | ndex3d = 0 |
---|
[2] | 2986 | c |
---|
| 2987 | c Champs 2D: |
---|
| 2988 | c |
---|
[158] | 2989 | zsto = dtime |
---|
| 2990 | zout = dtime * ecrit_mth |
---|
[353] | 2991 | itau_w = itau_phy + itap |
---|
[158] | 2992 | |
---|
[361] | 2993 | i = NINT(zout/zsto) |
---|
| 2994 | CALL gr_fi_ecrit(1,klon,iim,jjmp1,pphis,zx_tmp_2d) |
---|
| 2995 | CALL histwrite(nid_mth,"phis",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[29] | 2996 | C |
---|
[361] | 2997 | i = NINT(zout/zsto) |
---|
| 2998 | CALL gr_fi_ecrit(1,klon,iim,jjmp1,paire,zx_tmp_2d) |
---|
| 2999 | CALL histwrite(nid_mth,"aire",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[29] | 3000 | |
---|
[80] | 3001 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zxtsol,zx_tmp_2d) |
---|
[353] | 3002 | CALL histwrite(nid_mth,"tsol",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3003 | c |
---|
| 3004 | DO i = 1, klon |
---|
| 3005 | zx_tmp_fi2d(i) = paprs(i,1) |
---|
| 3006 | ENDDO |
---|
[80] | 3007 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d,zx_tmp_2d) |
---|
[353] | 3008 | CALL histwrite(nid_mth,"psol",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3009 | c |
---|
[80] | 3010 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zxqsol,zx_tmp_2d) |
---|
[353] | 3011 | CALL histwrite(nid_mth,"qsol",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3012 | c |
---|
| 3013 | DO i = 1, klon |
---|
| 3014 | zx_tmp_fi2d(i) = rain_fall(i) + snow_fall(i) |
---|
| 3015 | ENDDO |
---|
[80] | 3016 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d,zx_tmp_2d) |
---|
[353] | 3017 | CALL histwrite(nid_mth,"rain",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3018 | c |
---|
| 3019 | DO i = 1, klon |
---|
| 3020 | zx_tmp_fi2d(i) = rain_lsc(i) + snow_lsc(i) |
---|
| 3021 | ENDDO |
---|
[80] | 3022 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d,zx_tmp_2d) |
---|
[353] | 3023 | CALL histwrite(nid_mth,"plul",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3024 | c |
---|
| 3025 | DO i = 1, klon |
---|
| 3026 | zx_tmp_fi2d(i) = rain_con(i) + snow_con(i) |
---|
| 3027 | ENDDO |
---|
[80] | 3028 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d,zx_tmp_2d) |
---|
[353] | 3029 | CALL histwrite(nid_mth,"pluc",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3030 | c |
---|
[80] | 3031 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, snow_fall,zx_tmp_2d) |
---|
[353] | 3032 | CALL histwrite(nid_mth,"snow",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3033 | c |
---|
[171] | 3034 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zxsnow,zx_tmp_2d) |
---|
[353] | 3035 | CALL histwrite(nid_mth,"snow_cov",itau_w,zx_tmp_2d,iim*jjmp1, |
---|
| 3036 | . ndex2d) |
---|
[171] | 3037 | c |
---|
[80] | 3038 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, evap,zx_tmp_2d) |
---|
[353] | 3039 | CALL histwrite(nid_mth,"evap",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3040 | c |
---|
[80] | 3041 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, topsw,zx_tmp_2d) |
---|
[353] | 3042 | CALL histwrite(nid_mth,"tops",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3043 | c |
---|
[80] | 3044 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, toplw,zx_tmp_2d) |
---|
[353] | 3045 | CALL histwrite(nid_mth,"topl",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3046 | c |
---|
[80] | 3047 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, solsw,zx_tmp_2d) |
---|
[353] | 3048 | CALL histwrite(nid_mth,"sols",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3049 | c |
---|
[80] | 3050 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, sollw,zx_tmp_2d) |
---|
[353] | 3051 | CALL histwrite(nid_mth,"soll",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3052 | c |
---|
[177] | 3053 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, sollwdown,zx_tmp_2d) |
---|
[353] | 3054 | CALL histwrite(nid_mth,"solldown",itau_w,zx_tmp_2d,iim*jjmp1, |
---|
| 3055 | . ndex2d) |
---|
[177] | 3056 | c |
---|
[80] | 3057 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, topsw0,zx_tmp_2d) |
---|
[353] | 3058 | CALL histwrite(nid_mth,"tops0",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3059 | c |
---|
[80] | 3060 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, toplw0,zx_tmp_2d) |
---|
[353] | 3061 | CALL histwrite(nid_mth,"topl0",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3062 | c |
---|
[80] | 3063 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, solsw0,zx_tmp_2d) |
---|
[353] | 3064 | CALL histwrite(nid_mth,"sols0",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3065 | c |
---|
[80] | 3066 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, sollw0,zx_tmp_2d) |
---|
[353] | 3067 | CALL histwrite(nid_mth,"soll0",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3068 | c |
---|
[80] | 3069 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, bils,zx_tmp_2d) |
---|
[353] | 3070 | CALL histwrite(nid_mth,"bils",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3071 | c |
---|
[80] | 3072 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, sens,zx_tmp_2d) |
---|
[353] | 3073 | CALL histwrite(nid_mth,"sens",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3074 | c |
---|
[80] | 3075 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, fder,zx_tmp_2d) |
---|
[353] | 3076 | CALL histwrite(nid_mth,"fder",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3077 | c |
---|
| 3078 | c |
---|
[98] | 3079 | c DO i = 1, klon |
---|
| 3080 | c zx_tmp_fi2d(i) = fluxu(i,1) |
---|
| 3081 | c ENDDO |
---|
| 3082 | c CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d,zx_tmp_2d) |
---|
[353] | 3083 | c CALL histwrite(nid_mth,"frtu",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3084 | c |
---|
[98] | 3085 | c DO i = 1, klon |
---|
| 3086 | c zx_tmp_fi2d(i) = fluxv(i,1) |
---|
| 3087 | c ENDDO |
---|
| 3088 | c CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d,zx_tmp_2d) |
---|
[353] | 3089 | c CALL histwrite(nid_mth,"frtv",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3090 | c |
---|
[98] | 3091 | DO nsrf = 1, nbsrf |
---|
| 3092 | C§§§ |
---|
| 3093 | zx_tmp_fi2d(1 : klon) = pctsrf( 1 : klon, nsrf) |
---|
| 3094 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 3095 | CALL histwrite(nid_mth,"pourc_"//clnsurf(nsrf),itau_w, |
---|
[98] | 3096 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
| 3097 | C |
---|
[177] | 3098 | zx_tmp_fi2d(1 : klon) = ftsol( 1 : klon, nsrf) |
---|
[98] | 3099 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 3100 | CALL histwrite(nid_mth,"tsol_"//clnsurf(nsrf),itau_w, |
---|
[177] | 3101 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
| 3102 | C |
---|
| 3103 | zx_tmp_fi2d(1 : klon) = fluxt( 1 : klon, 1, nsrf) |
---|
| 3104 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 3105 | CALL histwrite(nid_mth,"sens_"//clnsurf(nsrf),itau_w, |
---|
[177] | 3106 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[98] | 3107 | C |
---|
[177] | 3108 | zx_tmp_fi2d(1 : klon) = fluxlat( 1 : klon, nsrf) |
---|
[98] | 3109 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 3110 | CALL histwrite(nid_mth,"lat_"//clnsurf(nsrf),itau_w, |
---|
[98] | 3111 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
| 3112 | C |
---|
[177] | 3113 | zx_tmp_fi2d(1 : klon) = fluxu( 1 : klon, 1, nsrf) |
---|
[98] | 3114 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 3115 | CALL histwrite(nid_mth,"taux_"//clnsurf(nsrf),itau_w, |
---|
[98] | 3116 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
| 3117 | C |
---|
[177] | 3118 | zx_tmp_fi2d(1 : klon) = fluxv( 1 : klon, 1, nsrf) |
---|
[98] | 3119 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 3120 | CALL histwrite(nid_mth,"tauy_"//clnsurf(nsrf),itau_w, |
---|
[98] | 3121 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
| 3122 | C |
---|
[177] | 3123 | zx_tmp_fi2d(1 : klon) = falbe( 1 : klon, nsrf) |
---|
| 3124 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 3125 | CALL histwrite(nid_mth,"albe_"//clnsurf(nsrf),itau_w, |
---|
[177] | 3126 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
| 3127 | C |
---|
| 3128 | zx_tmp_fi2d(1 : klon) = frugs( 1 : klon, nsrf) |
---|
| 3129 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 3130 | CALL histwrite(nid_mth,"rugs_"//clnsurf(nsrf),itau_w, |
---|
[177] | 3131 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[258] | 3132 | c |
---|
| 3133 | zx_tmp_fi2d(1 : klon) = agesno( 1 : klon, nsrf) |
---|
| 3134 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, agesno,zx_tmp_2d) |
---|
[353] | 3135 | CALL histwrite(nid_mth,"ages_"//clnsurf(nsrf),itau_w |
---|
[258] | 3136 | $ ,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[177] | 3137 | |
---|
[98] | 3138 | END DO |
---|
| 3139 | c$$$ DO i = 1, klon |
---|
| 3140 | c$$$ zx_tmp_fi2d(i) = pctsrf(i,is_sic) |
---|
| 3141 | c$$$ ENDDO |
---|
| 3142 | c$$$ CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d,zx_tmp_2d) |
---|
[353] | 3143 | c$$$ CALL histwrite(nid_mth,"sicf",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3144 | c |
---|
[80] | 3145 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, albsol,zx_tmp_2d) |
---|
[353] | 3146 | CALL histwrite(nid_mth,"albs",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 3147 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, albsollw,zx_tmp_2d) |
---|
[353] | 3148 | CALL histwrite(nid_mth,"albslw",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3149 | c |
---|
[80] | 3150 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, cdragm,zx_tmp_2d) |
---|
[353] | 3151 | CALL histwrite(nid_mth,"cdrm",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3152 | c |
---|
[80] | 3153 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, cdragh,zx_tmp_2d) |
---|
[353] | 3154 | CALL histwrite(nid_mth,"cdrh",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3155 | c |
---|
[80] | 3156 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, cldl,zx_tmp_2d) |
---|
[353] | 3157 | CALL histwrite(nid_mth,"cldl",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3158 | c |
---|
[80] | 3159 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, cldm,zx_tmp_2d) |
---|
[353] | 3160 | CALL histwrite(nid_mth,"cldm",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3161 | c |
---|
[80] | 3162 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, cldh,zx_tmp_2d) |
---|
[353] | 3163 | CALL histwrite(nid_mth,"cldh",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3164 | c |
---|
[80] | 3165 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, cldt,zx_tmp_2d) |
---|
[353] | 3166 | CALL histwrite(nid_mth,"cldt",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3167 | c |
---|
[80] | 3168 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, cldq,zx_tmp_2d) |
---|
[353] | 3169 | CALL histwrite(nid_mth,"cldq",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3170 | c |
---|
[80] | 3171 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, ue,zx_tmp_2d) |
---|
[353] | 3172 | CALL histwrite(nid_mth,"ue",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3173 | c |
---|
[80] | 3174 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, ve,zx_tmp_2d) |
---|
[353] | 3175 | CALL histwrite(nid_mth,"ve",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3176 | c |
---|
[80] | 3177 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, uq,zx_tmp_2d) |
---|
[353] | 3178 | CALL histwrite(nid_mth,"uq",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3179 | c |
---|
[80] | 3180 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, vq,zx_tmp_2d) |
---|
[353] | 3181 | CALL histwrite(nid_mth,"vq",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[230] | 3182 | cKE43 |
---|
[301] | 3183 | IF (iflag_con .GE. 3) THEN ! sb |
---|
[2] | 3184 | c |
---|
[230] | 3185 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, cape,zx_tmp_2d) |
---|
[353] | 3186 | CALL histwrite(nid_mth,"cape",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[230] | 3187 | c |
---|
| 3188 | CALL gr_fi_ecrit(1, klon,iim,jjmp1,pbase,zx_tmp_2d) |
---|
[353] | 3189 | CALL histwrite(nid_mth,"pbase",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[230] | 3190 | c |
---|
| 3191 | CALL gr_fi_ecrit(1, klon,iim,jjmp1,ema_pct,zx_tmp_2d) |
---|
[353] | 3192 | CALL histwrite(nid_mth,"ptop",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[230] | 3193 | c |
---|
| 3194 | CALL gr_fi_ecrit(1, klon,iim,jjmp1,ema_cbmf,zx_tmp_2d) |
---|
[353] | 3195 | CALL histwrite(nid_mth,"fbase",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[230] | 3196 | c |
---|
| 3197 | c |
---|
| 3198 | ENDIF |
---|
| 3199 | c34EK |
---|
| 3200 | c |
---|
[2] | 3201 | c Champs 3D: |
---|
| 3202 | C |
---|
[80] | 3203 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, t_seri, zx_tmp_3d) |
---|
[353] | 3204 | CALL histwrite(nid_mth,"temp",itau_w,zx_tmp_3d, |
---|
[80] | 3205 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3206 | c |
---|
[80] | 3207 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, qx(1,1,ivap), zx_tmp_3d) |
---|
[353] | 3208 | CALL histwrite(nid_mth,"ovap",itau_w,zx_tmp_3d, |
---|
[80] | 3209 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3210 | c |
---|
[80] | 3211 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, zphi, zx_tmp_3d) |
---|
[353] | 3212 | CALL histwrite(nid_mth,"geop",itau_w,zx_tmp_3d, |
---|
[80] | 3213 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3214 | c |
---|
[80] | 3215 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, u_seri, zx_tmp_3d) |
---|
[353] | 3216 | CALL histwrite(nid_mth,"vitu",itau_w,zx_tmp_3d, |
---|
[80] | 3217 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3218 | c |
---|
[80] | 3219 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, v_seri, zx_tmp_3d) |
---|
[353] | 3220 | CALL histwrite(nid_mth,"vitv",itau_w,zx_tmp_3d, |
---|
[80] | 3221 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3222 | c |
---|
[80] | 3223 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, omega, zx_tmp_3d) |
---|
[353] | 3224 | CALL histwrite(nid_mth,"vitw",itau_w,zx_tmp_3d, |
---|
[80] | 3225 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3226 | c |
---|
[80] | 3227 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, pplay, zx_tmp_3d) |
---|
[353] | 3228 | CALL histwrite(nid_mth,"pres",itau_w,zx_tmp_3d, |
---|
[80] | 3229 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3230 | c |
---|
[80] | 3231 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, cldfra, zx_tmp_3d) |
---|
[353] | 3232 | CALL histwrite(nid_mth,"rneb",itau_w,zx_tmp_3d, |
---|
[80] | 3233 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3234 | c |
---|
[80] | 3235 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, zx_rh, zx_tmp_3d) |
---|
[353] | 3236 | CALL histwrite(nid_mth,"rhum",itau_w,zx_tmp_3d, |
---|
[80] | 3237 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3238 | c |
---|
[80] | 3239 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, cldliq, zx_tmp_3d) |
---|
[353] | 3240 | CALL histwrite(nid_mth,"oliq",itau_w,zx_tmp_3d, |
---|
[80] | 3241 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3242 | c |
---|
[80] | 3243 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_t_dyn, zx_tmp_3d) |
---|
[353] | 3244 | CALL histwrite(nid_mth,"dtdyn",itau_w,zx_tmp_3d, |
---|
[80] | 3245 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3246 | c |
---|
[80] | 3247 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_q_dyn, zx_tmp_3d) |
---|
[353] | 3248 | CALL histwrite(nid_mth,"dqdyn",itau_w,zx_tmp_3d, |
---|
[80] | 3249 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3250 | c |
---|
[80] | 3251 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_t_con, zx_tmp_3d) |
---|
[353] | 3252 | CALL histwrite(nid_mth,"dtcon",itau_w,zx_tmp_3d, |
---|
[80] | 3253 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3254 | c |
---|
[80] | 3255 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_q_con, zx_tmp_3d) |
---|
[353] | 3256 | CALL histwrite(nid_mth,"dqcon",itau_w,zx_tmp_3d, |
---|
[80] | 3257 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3258 | c |
---|
[80] | 3259 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_t_lsc, zx_tmp_3d) |
---|
[353] | 3260 | CALL histwrite(nid_mth,"dtlsc",itau_w,zx_tmp_3d, |
---|
[80] | 3261 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3262 | c |
---|
[80] | 3263 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_q_lsc, zx_tmp_3d) |
---|
[353] | 3264 | CALL histwrite(nid_mth,"dqlsc",itau_w,zx_tmp_3d, |
---|
[80] | 3265 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3266 | c |
---|
[80] | 3267 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_t_vdf, zx_tmp_3d) |
---|
[353] | 3268 | CALL histwrite(nid_mth,"dtvdf",itau_w,zx_tmp_3d, |
---|
[80] | 3269 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3270 | c |
---|
[80] | 3271 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_q_vdf, zx_tmp_3d) |
---|
[353] | 3272 | CALL histwrite(nid_mth,"dqvdf",itau_w,zx_tmp_3d, |
---|
[80] | 3273 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3274 | c |
---|
[80] | 3275 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_t_eva, zx_tmp_3d) |
---|
[353] | 3276 | CALL histwrite(nid_mth,"dteva",itau_w,zx_tmp_3d, |
---|
[80] | 3277 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3278 | c |
---|
[80] | 3279 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_q_eva, zx_tmp_3d) |
---|
[353] | 3280 | CALL histwrite(nid_mth,"dqeva",itau_w,zx_tmp_3d, |
---|
[80] | 3281 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3282 | c |
---|
[263] | 3283 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, zpt_conv, zx_tmp_3d) |
---|
[353] | 3284 | CALL histwrite(nid_mth,"ptconv",itau_w,zx_tmp_3d, |
---|
[301] | 3285 | . iim*(jjmp1)*klev,ndex3d) |
---|
[230] | 3286 | c |
---|
[263] | 3287 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, ratqs, zx_tmp_3d) |
---|
[353] | 3288 | CALL histwrite(nid_mth,"ratqs",itau_w,zx_tmp_3d, |
---|
[301] | 3289 | . iim*(jjmp1)*klev,ndex3d) |
---|
[230] | 3290 | c |
---|
[80] | 3291 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_t_ajs, zx_tmp_3d) |
---|
[353] | 3292 | CALL histwrite(nid_mth,"dtajs",itau_w,zx_tmp_3d, |
---|
[80] | 3293 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3294 | c |
---|
[80] | 3295 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_q_ajs, zx_tmp_3d) |
---|
[353] | 3296 | CALL histwrite(nid_mth,"dqajs",itau_w,zx_tmp_3d, |
---|
[80] | 3297 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3298 | c |
---|
[80] | 3299 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, heat, zx_tmp_3d) |
---|
[353] | 3300 | CALL histwrite(nid_mth,"dtswr",itau_w,zx_tmp_3d, |
---|
[80] | 3301 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3302 | c |
---|
[80] | 3303 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, heat0, zx_tmp_3d) |
---|
[353] | 3304 | CALL histwrite(nid_mth,"dtsw0",itau_w,zx_tmp_3d, |
---|
[80] | 3305 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3306 | c |
---|
[80] | 3307 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, cool, zx_tmp_3d) |
---|
[353] | 3308 | CALL histwrite(nid_mth,"dtlwr",itau_w,zx_tmp_3d, |
---|
[80] | 3309 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3310 | c |
---|
[80] | 3311 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, cool0, zx_tmp_3d) |
---|
[353] | 3312 | CALL histwrite(nid_mth,"dtlw0",itau_w,zx_tmp_3d, |
---|
[80] | 3313 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3314 | c |
---|
[80] | 3315 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_u_vdf, zx_tmp_3d) |
---|
[353] | 3316 | CALL histwrite(nid_mth,"duvdf",itau_w,zx_tmp_3d, |
---|
[80] | 3317 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3318 | c |
---|
[80] | 3319 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_v_vdf, zx_tmp_3d) |
---|
[353] | 3320 | CALL histwrite(nid_mth,"dvvdf",itau_w,zx_tmp_3d, |
---|
[80] | 3321 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3322 | c |
---|
| 3323 | IF (ok_orodr) THEN |
---|
[80] | 3324 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_u_oro, zx_tmp_3d) |
---|
[353] | 3325 | CALL histwrite(nid_mth,"duoro",itau_w,zx_tmp_3d, |
---|
[80] | 3326 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3327 | c |
---|
[80] | 3328 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_v_oro, zx_tmp_3d) |
---|
[353] | 3329 | CALL histwrite(nid_mth,"dvoro",itau_w,zx_tmp_3d, |
---|
[80] | 3330 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3331 | c |
---|
| 3332 | ENDIF |
---|
| 3333 | C |
---|
| 3334 | IF (ok_orolf) THEN |
---|
[80] | 3335 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_u_lif, zx_tmp_3d) |
---|
[353] | 3336 | CALL histwrite(nid_mth,"dulif",itau_w,zx_tmp_3d, |
---|
[80] | 3337 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3338 | c |
---|
[80] | 3339 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_v_lif, zx_tmp_3d) |
---|
[353] | 3340 | CALL histwrite(nid_mth,"dvlif",itau_w,zx_tmp_3d, |
---|
[80] | 3341 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3342 | ENDIF |
---|
| 3343 | C |
---|
[80] | 3344 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, wo, zx_tmp_3d) |
---|
[353] | 3345 | CALL histwrite(nid_mth,"ozone",itau_w,zx_tmp_3d, |
---|
[80] | 3346 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3347 | c |
---|
| 3348 | IF (nqmax.GE.3) THEN |
---|
| 3349 | DO iq=1,nqmax-2 |
---|
| 3350 | IF (iq.LE.99) THEN |
---|
[80] | 3351 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, qx(1,1,iq+2), zx_tmp_3d) |
---|
[2] | 3352 | WRITE(str2,'(i2.2)') iq |
---|
[353] | 3353 | CALL histwrite(nid_mth,"trac"//str2,itau_w,zx_tmp_3d, |
---|
[80] | 3354 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3355 | ELSE |
---|
| 3356 | PRINT*, "Trop de traceurs" |
---|
| 3357 | CALL abort |
---|
| 3358 | ENDIF |
---|
| 3359 | ENDDO |
---|
| 3360 | ENDIF |
---|
[230] | 3361 | cKE43 |
---|
[301] | 3362 | IF (iflag_con.GE.3) THEN ! (sb) |
---|
[2] | 3363 | c |
---|
[230] | 3364 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, upwd, zx_tmp_3d) |
---|
[353] | 3365 | CALL histwrite(nid_mth,"upwd",itau_w,zx_tmp_3d, |
---|
[230] | 3366 | . iim*jjmp1*klev,ndex3d) |
---|
| 3367 | c |
---|
| 3368 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, dnwd, zx_tmp_3d) |
---|
[353] | 3369 | CALL histwrite(nid_mth,"dnwd",itau_w,zx_tmp_3d, |
---|
[230] | 3370 | . iim*jjmp1*klev,ndex3d) |
---|
| 3371 | c |
---|
| 3372 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, dnwd0, zx_tmp_3d) |
---|
[353] | 3373 | CALL histwrite(nid_mth,"dnwd0",itau_w,zx_tmp_3d, |
---|
[230] | 3374 | . iim*jjmp1*klev,ndex3d) |
---|
| 3375 | c |
---|
| 3376 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, Ma, zx_tmp_3d) |
---|
[353] | 3377 | CALL histwrite(nid_mth,"Ma",itau_w,zx_tmp_3d, |
---|
[230] | 3378 | . iim*jjmp1*klev,ndex3d) |
---|
| 3379 | c |
---|
| 3380 | c |
---|
| 3381 | ENDIF |
---|
| 3382 | c34EK |
---|
| 3383 | c |
---|
[29] | 3384 | if (ok_sync) then |
---|
| 3385 | call histsync(nid_mth) |
---|
| 3386 | endif |
---|
[2] | 3387 | ENDIF |
---|
| 3388 | c |
---|
| 3389 | IF (ok_instan) THEN |
---|
| 3390 | c |
---|
[29] | 3391 | ndex2d = 0 |
---|
| 3392 | ndex3d = 0 |
---|
[2] | 3393 | c |
---|
| 3394 | c Champs 2D: |
---|
| 3395 | c |
---|
[158] | 3396 | zsto = dtime * ecrit_ins |
---|
| 3397 | zout = dtime * ecrit_ins |
---|
[353] | 3398 | itau_w = itau_phy + itap |
---|
[158] | 3399 | |
---|
[29] | 3400 | i = NINT(zout/zsto) |
---|
[361] | 3401 | CALL gr_fi_ecrit(1,klon,iim,jjmp1,pphis,zx_tmp_2d) |
---|
| 3402 | CALL histwrite(nid_ins,"phis",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[29] | 3403 | c |
---|
| 3404 | i = NINT(zout/zsto) |
---|
[361] | 3405 | CALL gr_fi_ecrit(1,klon,iim,jjmp1,paire,zx_tmp_2d) |
---|
| 3406 | CALL histwrite(nid_ins,"aire",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[29] | 3407 | |
---|
[2] | 3408 | DO i = 1, klon |
---|
| 3409 | zx_tmp_fi2d(i) = paprs(i,1) |
---|
| 3410 | ENDDO |
---|
[80] | 3411 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d,zx_tmp_2d) |
---|
[353] | 3412 | CALL histwrite(nid_ins,"psol",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3413 | c |
---|
[258] | 3414 | DO i = 1, klon |
---|
| 3415 | zx_tmp_fi2d(i) = rain_fall(i) + snow_fall(i) |
---|
| 3416 | ENDDO |
---|
| 3417 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d,zx_tmp_2d) |
---|
[353] | 3418 | CALL histwrite(nid_ins,"rain",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[258] | 3419 | c |
---|
[263] | 3420 | DO i = 1, klon |
---|
| 3421 | zx_tmp_fi2d(i) = rain_lsc(i) + snow_lsc(i) |
---|
| 3422 | ENDDO |
---|
| 3423 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d,zx_tmp_2d) |
---|
[353] | 3424 | CALL histwrite(nid_ins,"plul",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[263] | 3425 | c |
---|
| 3426 | DO i = 1, klon |
---|
| 3427 | zx_tmp_fi2d(i) = rain_con(i) + snow_con(i) |
---|
| 3428 | ENDDO |
---|
| 3429 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d,zx_tmp_2d) |
---|
[353] | 3430 | CALL histwrite(nid_ins,"pluc",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[263] | 3431 | |
---|
| 3432 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zxtsol,zx_tmp_2d) |
---|
[353] | 3433 | CALL histwrite(nid_ins,"tsol",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[263] | 3434 | c |
---|
[258] | 3435 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, snow_fall,zx_tmp_2d) |
---|
[353] | 3436 | CALL histwrite(nid_ins,"snow",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[258] | 3437 | |
---|
[385] | 3438 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, cdragm,zx_tmp_2d) |
---|
| 3439 | CALL histwrite(nid_ins,"cdrm",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[258] | 3440 | c |
---|
[385] | 3441 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, cdragh,zx_tmp_2d) |
---|
| 3442 | CALL histwrite(nid_ins,"cdrh",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
| 3443 | c |
---|
[80] | 3444 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, toplw,zx_tmp_2d) |
---|
[353] | 3445 | CALL histwrite(nid_ins,"topl",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[2] | 3446 | c |
---|
[80] | 3447 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, evap,zx_tmp_2d) |
---|
[353] | 3448 | CALL histwrite(nid_ins,"evap",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[80] | 3449 | c |
---|
| 3450 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, solsw,zx_tmp_2d) |
---|
[353] | 3451 | CALL histwrite(nid_ins,"sols",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[80] | 3452 | c |
---|
| 3453 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, sollw,zx_tmp_2d) |
---|
[353] | 3454 | CALL histwrite(nid_ins,"soll",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[80] | 3455 | c |
---|
[177] | 3456 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, sollwdown,zx_tmp_2d) |
---|
[353] | 3457 | CALL histwrite(nid_ins,"solldown",itau_w,zx_tmp_2d,iim*jjmp1, |
---|
| 3458 | . ndex2d) |
---|
[177] | 3459 | c |
---|
[80] | 3460 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, bils,zx_tmp_2d) |
---|
[353] | 3461 | CALL histwrite(nid_ins,"bils",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[80] | 3462 | c |
---|
| 3463 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, sens,zx_tmp_2d) |
---|
[353] | 3464 | CALL histwrite(nid_ins,"sens",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[80] | 3465 | c |
---|
| 3466 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, fder,zx_tmp_2d) |
---|
[353] | 3467 | CALL histwrite(nid_ins,"fder",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[80] | 3468 | c |
---|
| 3469 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, d_ts(1,is_oce),zx_tmp_2d) |
---|
[353] | 3470 | CALL histwrite(nid_ins,"dtsvdfo",itau_w,zx_tmp_2d,iim*jjmp1, |
---|
| 3471 | . ndex2d) |
---|
[80] | 3472 | c |
---|
| 3473 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, d_ts(1,is_ter),zx_tmp_2d) |
---|
[353] | 3474 | CALL histwrite(nid_ins,"dtsvdft",itau_w,zx_tmp_2d,iim*jjmp1, |
---|
| 3475 | . ndex2d) |
---|
[80] | 3476 | c |
---|
| 3477 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, d_ts(1,is_lic),zx_tmp_2d) |
---|
[353] | 3478 | CALL histwrite(nid_ins,"dtsvdfg",itau_w,zx_tmp_2d,iim*jjmp1, |
---|
| 3479 | . ndex2d) |
---|
[80] | 3480 | c |
---|
| 3481 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, d_ts(1,is_sic),zx_tmp_2d) |
---|
[353] | 3482 | CALL histwrite(nid_ins,"dtsvdfi",itau_w,zx_tmp_2d,iim*jjmp1, |
---|
| 3483 | . ndex2d) |
---|
[80] | 3484 | |
---|
[98] | 3485 | DO nsrf = 1, nbsrf |
---|
| 3486 | C§§§ |
---|
| 3487 | zx_tmp_fi2d(1 : klon) = pctsrf( 1 : klon, nsrf) |
---|
| 3488 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 3489 | CALL histwrite(nid_ins,"pourc_"//clnsurf(nsrf),itau_w, |
---|
[98] | 3490 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
| 3491 | C |
---|
[177] | 3492 | zx_tmp_fi2d(1 : klon) = fluxt( 1 : klon, 1, nsrf) |
---|
[98] | 3493 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 3494 | CALL histwrite(nid_ins,"sens_"//clnsurf(nsrf),itau_w, |
---|
[98] | 3495 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
| 3496 | C |
---|
[177] | 3497 | zx_tmp_fi2d(1 : klon) = fluxlat( 1 : klon, nsrf) |
---|
[98] | 3498 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 3499 | CALL histwrite(nid_ins,"lat_"//clnsurf(nsrf),itau_w, |
---|
[98] | 3500 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
| 3501 | C |
---|
| 3502 | zx_tmp_fi2d(1 : klon) = ftsol( 1 : klon, nsrf) |
---|
| 3503 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 3504 | CALL histwrite(nid_ins,"tsol_"//clnsurf(nsrf),itau_w, |
---|
[98] | 3505 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
| 3506 | C |
---|
[177] | 3507 | zx_tmp_fi2d(1 : klon) = fluxu( 1 : klon, 1, nsrf) |
---|
[98] | 3508 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 3509 | CALL histwrite(nid_ins,"taux_"//clnsurf(nsrf),itau_w, |
---|
[98] | 3510 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
| 3511 | C |
---|
[177] | 3512 | zx_tmp_fi2d(1 : klon) = fluxv( 1 : klon, 1, nsrf) |
---|
[98] | 3513 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 3514 | CALL histwrite(nid_ins,"tauy_"//clnsurf(nsrf),itau_w, |
---|
[98] | 3515 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[171] | 3516 | C |
---|
| 3517 | zx_tmp_fi2d(1 : klon) = frugs( 1 : klon, nsrf) |
---|
| 3518 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 3519 | CALL histwrite(nid_ins,"rugs_"//clnsurf(nsrf),itau_w, |
---|
[171] | 3520 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
| 3521 | C |
---|
| 3522 | zx_tmp_fi2d(1 : klon) = falbe( 1 : klon, nsrf) |
---|
| 3523 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zx_tmp_fi2d , zx_tmp_2d) |
---|
[353] | 3524 | CALL histwrite(nid_ins,"albe_"//clnsurf(nsrf),itau_w, |
---|
[171] | 3525 | $ zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[98] | 3526 | C |
---|
| 3527 | END DO |
---|
[171] | 3528 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, albsol,zx_tmp_2d) |
---|
[353] | 3529 | CALL histwrite(nid_ins,"albs",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[282] | 3530 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, albsollw,zx_tmp_2d) |
---|
[353] | 3531 | CALL histwrite(nid_ins,"albslw",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[80] | 3532 | c |
---|
[171] | 3533 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zxsnow,zx_tmp_2d) |
---|
[353] | 3534 | CALL histwrite(nid_ins,"snow_cov",itau_w,zx_tmp_2d,iim*jjmp1, |
---|
| 3535 | . ndex2d) |
---|
[171] | 3536 | c |
---|
| 3537 | CALL gr_fi_ecrit(1, klon,iim,jjmp1, zxrugs,zx_tmp_2d) |
---|
[353] | 3538 | CALL histwrite(nid_ins,"rugs",itau_w,zx_tmp_2d,iim*jjmp1,ndex2d) |
---|
[171] | 3539 | c |
---|
[2] | 3540 | c Champs 3D: |
---|
| 3541 | c |
---|
[80] | 3542 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, t_seri, zx_tmp_3d) |
---|
[353] | 3543 | CALL histwrite(nid_ins,"temp",itau_w,zx_tmp_3d, |
---|
[80] | 3544 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3545 | c |
---|
[80] | 3546 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, u_seri, zx_tmp_3d) |
---|
[353] | 3547 | CALL histwrite(nid_ins,"vitu",itau_w,zx_tmp_3d, |
---|
[80] | 3548 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3549 | c |
---|
[80] | 3550 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, v_seri, zx_tmp_3d) |
---|
[353] | 3551 | CALL histwrite(nid_ins,"vitv",itau_w,zx_tmp_3d, |
---|
[80] | 3552 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3553 | c |
---|
[88] | 3554 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, zphi, zx_tmp_3d) |
---|
[353] | 3555 | CALL histwrite(nid_ins,"geop",itau_w,zx_tmp_3d, |
---|
[80] | 3556 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3557 | c |
---|
[88] | 3558 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, pplay, zx_tmp_3d) |
---|
[353] | 3559 | CALL histwrite(nid_ins,"pres",itau_w,zx_tmp_3d, |
---|
[80] | 3560 | . iim*jjmp1*klev,ndex3d) |
---|
[2] | 3561 | c |
---|
[80] | 3562 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_t_vdf, zx_tmp_3d) |
---|
[353] | 3563 | CALL histwrite(nid_ins,"dtvdf",itau_w,zx_tmp_3d, |
---|
[80] | 3564 | . iim*jjmp1*klev,ndex3d) |
---|
| 3565 | c |
---|
| 3566 | CALL gr_fi_ecrit(klev,klon,iim,jjmp1, d_q_vdf, zx_tmp_3d) |
---|
[353] | 3567 | CALL histwrite(nid_ins,"dqvdf",itau_w,zx_tmp_3d, |
---|
[80] | 3568 | . iim*jjmp1*klev,ndex3d) |
---|
| 3569 | |
---|
| 3570 | c |
---|
[29] | 3571 | if (ok_sync) then |
---|
| 3572 | call histsync(nid_ins) |
---|
| 3573 | endif |
---|
[2] | 3574 | ENDIF |
---|
| 3575 | c |
---|
| 3576 | c |
---|
| 3577 | c Ecrire la bande regionale (binaire grads) |
---|
| 3578 | IF (ok_region .AND. mod(itap,ecrit_reg).eq.0) THEN |
---|
| 3579 | CALL ecriregs(84,zxtsol) |
---|
| 3580 | CALL ecriregs(84,paprs(1,1)) |
---|
| 3581 | CALL ecriregs(84,topsw) |
---|
| 3582 | CALL ecriregs(84,toplw) |
---|
| 3583 | CALL ecriregs(84,solsw) |
---|
| 3584 | CALL ecriregs(84,sollw) |
---|
| 3585 | CALL ecriregs(84,rain_fall) |
---|
| 3586 | CALL ecriregs(84,snow_fall) |
---|
| 3587 | CALL ecriregs(84,evap) |
---|
| 3588 | CALL ecriregs(84,sens) |
---|
| 3589 | CALL ecriregs(84,bils) |
---|
| 3590 | CALL ecriregs(84,pctsrf(1,is_sic)) |
---|
[98] | 3591 | CALL ecriregs(84,zxfluxu(1,1)) |
---|
| 3592 | CALL ecriregs(84,zxfluxv(1,1)) |
---|
[2] | 3593 | CALL ecriregs(84,ue) |
---|
| 3594 | CALL ecriregs(84,ve) |
---|
| 3595 | CALL ecriregs(84,uq) |
---|
| 3596 | CALL ecriregs(84,vq) |
---|
| 3597 | c |
---|
| 3598 | CALL ecrirega(84,u_seri) |
---|
| 3599 | CALL ecrirega(84,v_seri) |
---|
| 3600 | CALL ecrirega(84,omega) |
---|
| 3601 | CALL ecrirega(84,t_seri) |
---|
| 3602 | CALL ecrirega(84,zphi) |
---|
| 3603 | CALL ecrirega(84,q_seri) |
---|
| 3604 | CALL ecrirega(84,cldfra) |
---|
| 3605 | CALL ecrirega(84,cldliq) |
---|
| 3606 | CALL ecrirega(84,pplay) |
---|
| 3607 | |
---|
| 3608 | |
---|
| 3609 | cc CALL ecrirega(84,d_t_dyn) |
---|
| 3610 | cc CALL ecrirega(84,d_q_dyn) |
---|
| 3611 | cc CALL ecrirega(84,heat) |
---|
| 3612 | cc CALL ecrirega(84,cool) |
---|
| 3613 | cc CALL ecrirega(84,d_t_con) |
---|
| 3614 | cc CALL ecrirega(84,d_q_con) |
---|
| 3615 | cc CALL ecrirega(84,d_t_lsc) |
---|
| 3616 | cc CALL ecrirega(84,d_q_lsc) |
---|
| 3617 | ENDIF |
---|
| 3618 | c |
---|
| 3619 | c Convertir les incrementations en tendances |
---|
| 3620 | c |
---|
| 3621 | DO k = 1, klev |
---|
| 3622 | DO i = 1, klon |
---|
| 3623 | d_u(i,k) = ( u_seri(i,k) - u(i,k) ) / dtime |
---|
| 3624 | d_v(i,k) = ( v_seri(i,k) - v(i,k) ) / dtime |
---|
| 3625 | d_t(i,k) = ( t_seri(i,k)-t(i,k) ) / dtime |
---|
| 3626 | d_qx(i,k,ivap) = ( q_seri(i,k) - qx(i,k,ivap) ) / dtime |
---|
| 3627 | d_qx(i,k,iliq) = ( ql_seri(i,k) - qx(i,k,iliq) ) / dtime |
---|
| 3628 | ENDDO |
---|
| 3629 | ENDDO |
---|
| 3630 | c |
---|
| 3631 | IF (nqmax.GE.3) THEN |
---|
| 3632 | DO iq = 3, nqmax |
---|
| 3633 | DO k = 1, klev |
---|
| 3634 | DO i = 1, klon |
---|
| 3635 | d_qx(i,k,iq) = ( tr_seri(i,k,iq-2) - qx(i,k,iq) ) / dtime |
---|
| 3636 | ENDDO |
---|
| 3637 | ENDDO |
---|
| 3638 | ENDDO |
---|
| 3639 | ENDIF |
---|
| 3640 | c |
---|
[46] | 3641 | c Sauvegarder les valeurs de t et q a la fin de la physique: |
---|
| 3642 | c |
---|
| 3643 | DO k = 1, klev |
---|
| 3644 | DO i = 1, klon |
---|
| 3645 | t_ancien(i,k) = t_seri(i,k) |
---|
| 3646 | q_ancien(i,k) = q_seri(i,k) |
---|
| 3647 | ENDDO |
---|
| 3648 | ENDDO |
---|
| 3649 | c |
---|
[2] | 3650 | c==================================================================== |
---|
| 3651 | c Si c'est la fin, il faut conserver l'etat de redemarrage |
---|
| 3652 | c==================================================================== |
---|
| 3653 | c |
---|
| 3654 | IF (lafin) THEN |
---|
[353] | 3655 | itau_phy = itau_phy + itap |
---|
[46] | 3656 | ccc IF (ok_oasis) CALL quitcpl |
---|
[2] | 3657 | CALL phyredem ("restartphy.nc",dtime,radpas,co2_ppm,solaire, |
---|
[98] | 3658 | . rlat, rlon, pctsrf, ftsol, ftsoil, deltat, fqsol, fsnow, |
---|
| 3659 | . falbe, fevap, rain_fall, snow_fall, |
---|
[258] | 3660 | . solsw, sollwdown,dlw, |
---|
[112] | 3661 | . radsol,frugs,agesno, |
---|
[98] | 3662 | . zmea,zstd,zsig,zgam,zthe,zpic,zval,rugoro, |
---|
[373] | 3663 | . t_ancien, q_ancien, rnebcon, ratqs, clwcon) |
---|
[2] | 3664 | ENDIF |
---|
| 3665 | |
---|
| 3666 | RETURN |
---|
| 3667 | END |
---|
[46] | 3668 | FUNCTION qcheck(klon,klev,paprs,q,ql,aire) |
---|
[2] | 3669 | IMPLICIT none |
---|
| 3670 | c |
---|
| 3671 | c Calculer et imprimer l'eau totale. A utiliser pour verifier |
---|
| 3672 | c la conservation de l'eau |
---|
| 3673 | c |
---|
| 3674 | #include "YOMCST.h" |
---|
| 3675 | INTEGER klon,klev |
---|
| 3676 | REAL paprs(klon,klev+1), q(klon,klev), ql(klon,klev) |
---|
[46] | 3677 | REAL aire(klon) |
---|
| 3678 | REAL qtotal, zx, qcheck |
---|
[2] | 3679 | INTEGER i, k |
---|
| 3680 | c |
---|
[46] | 3681 | zx = 0.0 |
---|
| 3682 | DO i = 1, klon |
---|
| 3683 | zx = zx + aire(i) |
---|
| 3684 | ENDDO |
---|
[2] | 3685 | qtotal = 0.0 |
---|
| 3686 | DO k = 1, klev |
---|
| 3687 | DO i = 1, klon |
---|
[46] | 3688 | qtotal = qtotal + (q(i,k)+ql(i,k)) * aire(i) |
---|
[2] | 3689 | . *(paprs(i,k)-paprs(i,k+1))/RG |
---|
| 3690 | ENDDO |
---|
| 3691 | ENDDO |
---|
| 3692 | c |
---|
[46] | 3693 | qcheck = qtotal/zx |
---|
[2] | 3694 | c |
---|
[46] | 3695 | RETURN |
---|
[2] | 3696 | END |
---|
| 3697 | SUBROUTINE gr_fi_ecrit(nfield,nlon,iim,jjmp1,fi,ecrit) |
---|
| 3698 | IMPLICIT none |
---|
| 3699 | c |
---|
| 3700 | c Tranformer une variable de la grille physique a |
---|
| 3701 | c la grille d'ecriture |
---|
| 3702 | c |
---|
| 3703 | INTEGER nfield,nlon,iim,jjmp1, jjm |
---|
[15] | 3704 | REAL fi(nlon,nfield), ecrit(iim*jjmp1,nfield) |
---|
[2] | 3705 | c |
---|
[158] | 3706 | INTEGER i, n, ig |
---|
[2] | 3707 | c |
---|
| 3708 | jjm = jjmp1 - 1 |
---|
| 3709 | DO n = 1, nfield |
---|
| 3710 | DO i=1,iim |
---|
[15] | 3711 | ecrit(i,n) = fi(1,n) |
---|
| 3712 | ecrit(i+jjm*iim,n) = fi(nlon,n) |
---|
[2] | 3713 | ENDDO |
---|
[15] | 3714 | DO ig = 1, nlon - 2 |
---|
| 3715 | ecrit(iim+ig,n) = fi(1+ig,n) |
---|
[2] | 3716 | ENDDO |
---|
| 3717 | ENDDO |
---|
| 3718 | RETURN |
---|
| 3719 | END |
---|
[15] | 3720 | |
---|