| 20 |
use ajsec_m, only: ajsec |
use ajsec_m, only: ajsec |
| 21 |
use calltherm_m, only: calltherm |
use calltherm_m, only: calltherm |
| 22 |
USE clesphys, ONLY: cdhmax, cdmmax, ecrit_hf, ecrit_ins, ecrit_mth, & |
USE clesphys, ONLY: cdhmax, cdmmax, ecrit_hf, ecrit_ins, ecrit_mth, & |
| 23 |
ecrit_reg, ecrit_tra, ksta, ksta_ter, ok_kzmin |
ecrit_reg, ecrit_tra, ksta, ksta_ter, ok_kzmin, ok_instan |
| 24 |
USE clesphys2, ONLY: cycle_diurne, conv_emanuel, nbapp_rad, new_oliq, & |
USE clesphys2, ONLY: cycle_diurne, conv_emanuel, nbapp_rad, new_oliq, & |
| 25 |
ok_orodr, ok_orolf |
ok_orodr, ok_orolf |
| 26 |
USE clmain_m, ONLY: clmain |
USE clmain_m, ONLY: clmain |
| 28 |
use comconst, only: dtphys |
use comconst, only: dtphys |
| 29 |
USE comgeomphy, ONLY: airephy |
USE comgeomphy, ONLY: airephy |
| 30 |
USE concvl_m, ONLY: concvl |
USE concvl_m, ONLY: concvl |
| 31 |
USE conf_gcm_m, ONLY: offline, raz_date, day_step, iphysiq |
USE conf_gcm_m, ONLY: offline, day_step, iphysiq |
| 32 |
USE conf_phys_m, ONLY: conf_phys |
USE conf_phys_m, ONLY: conf_phys |
| 33 |
use conflx_m, only: conflx |
use conflx_m, only: conflx |
| 34 |
USE ctherm, ONLY: iflag_thermals, nsplit_thermals |
USE ctherm, ONLY: iflag_thermals, nsplit_thermals |
| 43 |
USE fcttre, ONLY: foeew, qsatl, qsats, thermcep |
USE fcttre, ONLY: foeew, qsatl, qsats, thermcep |
| 44 |
use fisrtilp_m, only: fisrtilp |
use fisrtilp_m, only: fisrtilp |
| 45 |
USE hgardfou_m, ONLY: hgardfou |
USE hgardfou_m, ONLY: hgardfou |
| 46 |
|
USE histsync_m, ONLY: histsync |
| 47 |
|
USE histwrite_phy_m, ONLY: histwrite_phy |
| 48 |
USE indicesol, ONLY: clnsurf, epsfra, is_lic, is_oce, is_sic, is_ter, & |
USE indicesol, ONLY: clnsurf, epsfra, is_lic, is_oce, is_sic, is_ter, & |
| 49 |
nbsrf |
nbsrf |
| 50 |
USE ini_histins_m, ONLY: ini_histins |
USE ini_histins_m, ONLY: ini_histins, nid_ins |
| 51 |
use netcdf95, only: NF95_CLOSE |
use netcdf95, only: NF95_CLOSE |
| 52 |
use newmicro_m, only: newmicro |
use newmicro_m, only: newmicro |
| 53 |
|
use nr_util, only: assert |
| 54 |
use nuage_m, only: nuage |
use nuage_m, only: nuage |
| 55 |
USE orbite_m, ONLY: orbite |
USE orbite_m, ONLY: orbite |
| 56 |
USE ozonecm_m, ONLY: ozonecm |
USE ozonecm_m, ONLY: ozonecm |
| 65 |
use readsulfate_preind_m, only: readsulfate_preind |
use readsulfate_preind_m, only: readsulfate_preind |
| 66 |
use yoegwd, only: sugwd |
use yoegwd, only: sugwd |
| 67 |
USE suphec_m, ONLY: rcpd, retv, rg, rlvtt, romega, rsigma, rtt |
USE suphec_m, ONLY: rcpd, retv, rg, rlvtt, romega, rsigma, rtt |
| 68 |
|
use time_phylmdz, only: itap, increment_itap |
| 69 |
use transp_m, only: transp |
use transp_m, only: transp |
| 70 |
use transp_lay_m, only: transp_lay |
use transp_lay_m, only: transp_lay |
| 71 |
use unit_nml_m, only: unit_nml |
use unit_nml_m, only: unit_nml |
| 86 |
REAL, intent(in):: play(:, :) ! (klon, llm) |
REAL, intent(in):: play(:, :) ! (klon, llm) |
| 87 |
! pression pour le mileu de chaque couche (en Pa) |
! pression pour le mileu de chaque couche (en Pa) |
| 88 |
|
|
| 89 |
REAL, intent(in):: pphi(:, :) ! (klon, llm) |
REAL, intent(in):: pphi(:, :) ! (klon, llm) |
| 90 |
! géopotentiel de chaque couche (référence sol) |
! géopotentiel de chaque couche (référence sol) |
| 91 |
|
|
| 92 |
REAL, intent(in):: pphis(:) ! (klon) géopotentiel du sol |
REAL, intent(in):: pphis(:) ! (klon) géopotentiel du sol |
| 112 |
|
|
| 113 |
LOGICAL:: firstcal = .true. |
LOGICAL:: firstcal = .true. |
| 114 |
|
|
| 115 |
LOGICAL ok_gust ! pour activer l'effet des gust sur flux surface |
LOGICAL, PARAMETER:: check = .FALSE. |
|
PARAMETER (ok_gust = .FALSE.) |
|
|
|
|
|
LOGICAL, PARAMETER:: check = .FALSE. |
|
| 116 |
! Verifier la conservation du modele en eau |
! Verifier la conservation du modele en eau |
| 117 |
|
|
| 118 |
LOGICAL, PARAMETER:: ok_stratus = .FALSE. |
LOGICAL, PARAMETER:: ok_stratus = .FALSE. |
| 119 |
! Ajouter artificiellement les stratus |
! Ajouter artificiellement les stratus |
| 120 |
|
|
|
logical:: ok_journe = .false., ok_mensuel = .true., ok_instan = .false. |
|
|
! sorties journalieres, mensuelles et instantanees dans les |
|
|
! fichiers histday, histmth et histins |
|
|
|
|
|
LOGICAL ok_region ! sortir le fichier regional |
|
|
PARAMETER (ok_region = .FALSE.) |
|
|
|
|
| 121 |
! pour phsystoke avec thermiques |
! pour phsystoke avec thermiques |
| 122 |
REAL fm_therm(klon, llm + 1) |
REAL fm_therm(klon, llm + 1) |
| 123 |
REAL entr_therm(klon, llm) |
REAL entr_therm(klon, llm) |
| 140 |
|
|
| 141 |
REAL lwdn0(klon, llm + 1), lwdn(klon, llm + 1) |
REAL lwdn0(klon, llm + 1), lwdn(klon, llm + 1) |
| 142 |
REAL lwup0(klon, llm + 1), lwup(klon, llm + 1) |
REAL lwup0(klon, llm + 1), lwup(klon, llm + 1) |
| 143 |
SAVE lwdn0, lwdn, lwup0, lwup |
SAVE lwdn0, lwdn, lwup0, lwup |
|
|
|
|
! Amip2 |
|
|
! variables a une pression donnee |
|
|
|
|
|
integer nlevSTD |
|
|
PARAMETER(nlevSTD = 17) |
|
| 144 |
|
|
| 145 |
! prw: precipitable water |
! prw: precipitable water |
| 146 |
real prw(klon) |
real prw(klon) |
| 150 |
REAL flwp(klon), fiwp(klon) |
REAL flwp(klon), fiwp(klon) |
| 151 |
REAL flwc(klon, llm), fiwc(klon, llm) |
REAL flwc(klon, llm), fiwc(klon, llm) |
| 152 |
|
|
|
INTEGER kmax, lmax |
|
|
PARAMETER(kmax = 8, lmax = 8) |
|
|
INTEGER kmaxm1, lmaxm1 |
|
|
PARAMETER(kmaxm1 = kmax - 1, lmaxm1 = lmax - 1) |
|
|
|
|
| 153 |
! Variables propres a la physique |
! Variables propres a la physique |
| 154 |
|
|
| 155 |
INTEGER, save:: radpas |
INTEGER, save:: radpas |
| 159 |
REAL radsol(klon) |
REAL radsol(klon) |
| 160 |
SAVE radsol ! bilan radiatif au sol calcule par code radiatif |
SAVE radsol ! bilan radiatif au sol calcule par code radiatif |
| 161 |
|
|
|
INTEGER:: itap = 0 ! number of calls to "physiq" |
|
|
|
|
| 162 |
REAL, save:: ftsol(klon, nbsrf) ! skin temperature of surface fraction |
REAL, save:: ftsol(klon, nbsrf) ! skin temperature of surface fraction |
| 163 |
|
|
| 164 |
REAL, save:: ftsoil(klon, nsoilmx, nbsrf) |
REAL, save:: ftsoil(klon, nsoilmx, nbsrf) |
| 189 |
REAL zulow(klon), zvlow(klon) |
REAL zulow(klon), zvlow(klon) |
| 190 |
INTEGER igwd, itest(klon) |
INTEGER igwd, itest(klon) |
| 191 |
|
|
| 192 |
REAL agesno(klon, nbsrf) |
REAL, save:: agesno(klon, nbsrf) ! age de la neige |
| 193 |
SAVE agesno ! age de la neige |
REAL, save:: run_off_lic_0(klon) |
| 194 |
|
|
| 195 |
REAL run_off_lic_0(klon) |
! Variables li\'ees \`a la convection d'Emanuel : |
| 196 |
SAVE run_off_lic_0 |
REAL, save:: Ma(klon, llm) ! undilute upward mass flux |
| 197 |
!KE43 |
REAL, save:: qcondc(klon, llm) ! in-cld water content from convect |
|
! Variables liees a la convection de K. Emanuel (sb): |
|
|
|
|
|
REAL Ma(klon, llm) ! undilute upward mass flux |
|
|
SAVE Ma |
|
|
REAL qcondc(klon, llm) ! in-cld water content from convect |
|
|
SAVE qcondc |
|
| 198 |
REAL, save:: sig1(klon, llm), w01(klon, llm) |
REAL, save:: sig1(klon, llm), w01(klon, llm) |
|
REAL, save:: wd(klon) |
|
|
|
|
|
! Variables pour la couche limite (al1): |
|
| 199 |
|
|
| 200 |
|
! Variables pour la couche limite (Alain Lahellec) : |
| 201 |
REAL cdragh(klon) ! drag coefficient pour T and Q |
REAL cdragh(klon) ! drag coefficient pour T and Q |
| 202 |
REAL cdragm(klon) ! drag coefficient pour vent |
REAL cdragm(klon) ! drag coefficient pour vent |
| 203 |
|
|
| 205 |
REAL ycoefh(klon, llm) ! coef d'echange pour phytrac |
REAL ycoefh(klon, llm) ! coef d'echange pour phytrac |
| 206 |
REAL yu1(klon) ! vents dans la premiere couche U |
REAL yu1(klon) ! vents dans la premiere couche U |
| 207 |
REAL yv1(klon) ! vents dans la premiere couche V |
REAL yv1(klon) ! vents dans la premiere couche V |
| 208 |
REAL ffonte(klon, nbsrf) !Flux thermique utilise pour fondre la neige |
REAL ffonte(klon, nbsrf) ! flux thermique utilise pour fondre la neige |
| 209 |
REAL fqcalving(klon, nbsrf) !Flux d'eau "perdue" par la surface |
|
| 210 |
! !et necessaire pour limiter la |
REAL fqcalving(klon, nbsrf) |
| 211 |
! !hauteur de neige, en kg/m2/s |
! flux d'eau "perdue" par la surface et necessaire pour limiter la |
| 212 |
|
! hauteur de neige, en kg/m2/s |
| 213 |
|
|
| 214 |
REAL zxffonte(klon), zxfqcalving(klon) |
REAL zxffonte(klon), zxfqcalving(klon) |
| 215 |
|
|
| 216 |
REAL pfrac_impa(klon, llm)! Produits des coefs lessivage impaction |
REAL pfrac_impa(klon, llm)! Produits des coefs lessivage impaction |
| 235 |
REAL dlw(klon) ! derivee infra rouge |
REAL dlw(klon) ! derivee infra rouge |
| 236 |
SAVE dlw |
SAVE dlw |
| 237 |
REAL bils(klon) ! bilan de chaleur au sol |
REAL bils(klon) ! bilan de chaleur au sol |
| 238 |
REAL, save:: fder(klon) ! Derive de flux (sensible et latente) |
REAL, save:: fder(klon) ! Derive de flux (sensible et latente) |
| 239 |
REAL ve(klon) ! integr. verticale du transport meri. de l'energie |
REAL ve(klon) ! integr. verticale du transport meri. de l'energie |
| 240 |
REAL vq(klon) ! integr. verticale du transport meri. de l'eau |
REAL vq(klon) ! integr. verticale du transport meri. de l'eau |
| 241 |
REAL ue(klon) ! integr. verticale du transport zonal de l'energie |
REAL ue(klon) ! integr. verticale du transport zonal de l'energie |
| 285 |
real, save:: sollwdown(klon) ! downward LW flux at surface |
real, save:: sollwdown(klon) ! downward LW flux at surface |
| 286 |
REAL, save:: topsw0(klon), toplw0(klon), solsw0(klon), sollw0(klon) |
REAL, save:: topsw0(klon), toplw0(klon), solsw0(klon), sollw0(klon) |
| 287 |
REAL, save:: albpla(klon) |
REAL, save:: albpla(klon) |
| 288 |
REAL fsollw(klon, nbsrf) ! bilan flux IR pour chaque sous surface |
REAL fsollw(klon, nbsrf) ! bilan flux IR pour chaque sous-surface |
| 289 |
REAL fsolsw(klon, nbsrf) ! flux solaire absorb. pour chaque sous surface |
REAL fsolsw(klon, nbsrf) ! flux solaire absorb\'e pour chaque sous-surface |
| 290 |
|
|
| 291 |
REAL conv_q(klon, llm) ! convergence de l'humidite (kg/kg/s) |
REAL conv_q(klon, llm) ! convergence de l'humidite (kg/kg/s) |
| 292 |
REAL conv_t(klon, llm) ! convergence of temperature (K/s) |
REAL conv_t(klon, llm) ! convergence of temperature (K/s) |
| 293 |
|
|
| 294 |
REAL cldl(klon), cldm(klon), cldh(klon) !nuages bas, moyen et haut |
REAL cldl(klon), cldm(klon), cldh(klon) ! nuages bas, moyen et haut |
| 295 |
REAL cldt(klon), cldq(klon) !nuage total, eau liquide integree |
REAL cldt(klon), cldq(klon) ! nuage total, eau liquide integree |
| 296 |
|
|
| 297 |
REAL zxtsol(klon), zxqsurf(klon), zxsnow(klon), zxfluxlat(klon) |
REAL zxtsol(klon), zxqsurf(klon), zxsnow(klon), zxfluxlat(klon) |
| 298 |
|
|
| 316 |
REAL, SAVE:: pblt(klon, nbsrf) ! T a la Hauteur de couche limite |
REAL, SAVE:: pblt(klon, nbsrf) ! T a la Hauteur de couche limite |
| 317 |
REAL, SAVE:: therm(klon, nbsrf) |
REAL, SAVE:: therm(klon, nbsrf) |
| 318 |
REAL, SAVE:: trmb1(klon, nbsrf) ! deep_cape |
REAL, SAVE:: trmb1(klon, nbsrf) ! deep_cape |
| 319 |
REAL, SAVE:: trmb2(klon, nbsrf) ! inhibition |
REAL, SAVE:: trmb2(klon, nbsrf) ! inhibition |
| 320 |
REAL, SAVE:: trmb3(klon, nbsrf) ! Point Omega |
REAL, SAVE:: trmb3(klon, nbsrf) ! Point Omega |
| 321 |
! Grandeurs de sorties |
! Grandeurs de sorties |
| 322 |
REAL s_pblh(klon), s_lcl(klon), s_capCL(klon) |
REAL s_pblh(klon), s_lcl(klon), s_capCL(klon) |
| 398 |
REAL zustrph(klon), zvstrph(klon) |
REAL zustrph(klon), zvstrph(klon) |
| 399 |
REAL aam, torsfc |
REAL aam, torsfc |
| 400 |
|
|
|
REAL zx_tmp_fi2d(klon) ! variable temporaire grille physique |
|
|
|
|
|
INTEGER, SAVE:: nid_ins |
|
|
|
|
| 401 |
REAL ve_lay(klon, llm) ! transport meri. de l'energie a chaque niveau vert. |
REAL ve_lay(klon, llm) ! transport meri. de l'energie a chaque niveau vert. |
| 402 |
REAL vq_lay(klon, llm) ! transport meri. de l'eau a chaque niveau vert. |
REAL vq_lay(klon, llm) ! transport meri. de l'eau a chaque niveau vert. |
| 403 |
REAL ue_lay(klon, llm) ! transport zonal de l'energie a chaque niveau vert. |
REAL ue_lay(klon, llm) ! transport zonal de l'energie a chaque niveau vert. |
| 412 |
REAL zero_v(klon) |
REAL zero_v(klon) |
| 413 |
CHARACTER(LEN = 20) tit |
CHARACTER(LEN = 20) tit |
| 414 |
INTEGER:: ip_ebil = 0 ! print level for energy conservation diagnostics |
INTEGER:: ip_ebil = 0 ! print level for energy conservation diagnostics |
| 415 |
INTEGER:: if_ebil = 0 ! verbosity for diagnostics of energy conservation |
INTEGER:: if_ebil = 0 ! verbosity for diagnostics of energy conservation |
| 416 |
|
|
| 417 |
REAL d_t_ec(klon, llm) ! tendance due \`a la conversion Ec -> E thermique |
REAL d_t_ec(klon, llm) ! tendance due \`a la conversion Ec -> E thermique |
| 418 |
REAL ZRCPD |
REAL ZRCPD |
| 430 |
! SO4 aerosol concentration, in \mu g/m3, pre-industrial value |
! SO4 aerosol concentration, in \mu g/m3, pre-industrial value |
| 431 |
|
|
| 432 |
REAL cldtaupi(klon, llm) |
REAL cldtaupi(klon, llm) |
| 433 |
! cloud optical thickness for pre-industrial (pi) aerosols |
! cloud optical thickness for pre-industrial aerosols |
| 434 |
|
|
| 435 |
REAL re(klon, llm) ! Cloud droplet effective radius |
REAL re(klon, llm) ! Cloud droplet effective radius |
| 436 |
REAL fl(klon, llm) ! denominator of re |
REAL fl(klon, llm) ! denominator of re |
| 466 |
SAVE d_u_con |
SAVE d_u_con |
| 467 |
SAVE d_v_con |
SAVE d_v_con |
| 468 |
|
|
| 469 |
real zmasse(klon, llm) |
real zmasse(klon, llm) |
| 470 |
! (column-density of mass of air in a cell, in kg m-2) |
! (column-density of mass of air in a cell, in kg m-2) |
| 471 |
|
|
| 472 |
real, parameter:: dobson_u = 2.1415e-05 ! Dobson unit, in kg m-2 |
integer, save:: ncid_startphy |
|
integer, save:: ncid_startphy, itau_phy |
|
| 473 |
|
|
| 474 |
namelist /physiq_nml/ ok_journe, ok_mensuel, ok_instan, fact_cldcon, & |
namelist /physiq_nml/ fact_cldcon, facttemps, ok_newmicro, & |
| 475 |
facttemps, ok_newmicro, iflag_cldcon, ratqsbas, ratqshaut, if_ebil, & |
iflag_cldcon, ratqsbas, ratqshaut, if_ebil, ok_ade, ok_aie, bl95_b0, & |
| 476 |
ok_ade, ok_aie, bl95_b0, bl95_b1, iflag_thermals, nsplit_thermals |
bl95_b1, iflag_thermals, nsplit_thermals |
| 477 |
|
|
| 478 |
!---------------------------------------------------------------- |
!---------------------------------------------------------------- |
| 479 |
|
|
| 514 |
pblt =0. ! T a la Hauteur de couche limite |
pblt =0. ! T a la Hauteur de couche limite |
| 515 |
therm =0. |
therm =0. |
| 516 |
trmb1 =0. ! deep_cape |
trmb1 =0. ! deep_cape |
| 517 |
trmb2 =0. ! inhibition |
trmb2 =0. ! inhibition |
| 518 |
trmb3 =0. ! Point Omega |
trmb3 =0. ! Point Omega |
| 519 |
|
|
| 520 |
IF (if_ebil >= 1) d_h_vcol_phy = 0. |
IF (if_ebil >= 1) d_h_vcol_phy = 0. |
| 530 |
! Initialiser les compteurs: |
! Initialiser les compteurs: |
| 531 |
|
|
| 532 |
frugs = 0. |
frugs = 0. |
| 533 |
CALL phyetat0(pctsrf, ftsol, ftsoil, fqsurf, qsol, & |
CALL phyetat0(pctsrf, ftsol, ftsoil, fqsurf, qsol, fsnow, falbe, & |
| 534 |
fsnow, falbe, fevap, rain_fall, snow_fall, solsw, sollw, dlw, & |
fevap, rain_fall, snow_fall, solsw, sollw, dlw, radsol, frugs, & |
| 535 |
radsol, frugs, agesno, zmea, zstd, zsig, zgam, zthe, zpic, zval, & |
agesno, zmea, zstd, zsig, zgam, zthe, zpic, zval, t_ancien, & |
| 536 |
t_ancien, q_ancien, ancien_ok, rnebcon, ratqs, clwcon, & |
q_ancien, ancien_ok, rnebcon, ratqs, clwcon, run_off_lic_0, sig1, & |
| 537 |
run_off_lic_0, sig1, w01, ncid_startphy, itau_phy) |
w01, ncid_startphy) |
| 538 |
|
|
| 539 |
! ATTENTION : il faudra a terme relire q2 dans l'etat initial |
! ATTENTION : il faudra a terme relire q2 dans l'etat initial |
| 540 |
q2 = 1e-8 |
q2 = 1e-8 |
| 543 |
print *, 'Number of time steps of "physics" per day: ', lmt_pas |
print *, 'Number of time steps of "physics" per day: ', lmt_pas |
| 544 |
|
|
| 545 |
radpas = lmt_pas / nbapp_rad |
radpas = lmt_pas / nbapp_rad |
| 546 |
|
print *, "radpas = ", radpas |
|
! On remet le calendrier a zero |
|
|
IF (raz_date) itau_phy = 0 |
|
|
|
|
|
CALL printflag(radpas, ok_journe, ok_instan, ok_region) |
|
| 547 |
|
|
| 548 |
! Initialisation pour le sch\'ema de convection d'Emanuel : |
! Initialisation pour le sch\'ema de convection d'Emanuel : |
| 549 |
IF (conv_emanuel) THEN |
IF (conv_emanuel) THEN |
| 566 |
|
|
| 567 |
! Initialisation des sorties |
! Initialisation des sorties |
| 568 |
|
|
| 569 |
call ini_histins(dtphys, ok_instan, nid_ins, itau_phy) |
call ini_histins(dtphys) |
| 570 |
CALL ymds2ju(annee_ref, 1, day_ref, 0., date0) |
CALL ymds2ju(annee_ref, 1, day_ref, 0., date0) |
| 571 |
! Positionner date0 pour initialisation de ORCHIDEE |
! Positionner date0 pour initialisation de ORCHIDEE |
| 572 |
print *, 'physiq date0: ', date0 |
print *, 'physiq date0: ', date0 |
| 573 |
CALL phyredem0(lmt_pas, itau_phy) |
CALL phyredem0(lmt_pas) |
| 574 |
ENDIF test_firstcal |
ENDIF test_firstcal |
| 575 |
|
|
| 576 |
! We will modify variables *_seri and we will not touch variables |
! We will modify variables *_seri and we will not touch variables |
| 584 |
|
|
| 585 |
ztsol = sum(ftsol * pctsrf, dim = 2) |
ztsol = sum(ftsol * pctsrf, dim = 2) |
| 586 |
|
|
| 587 |
IF (if_ebil >= 1) THEN |
IF (if_ebil >= 1) THEN |
| 588 |
tit = 'after dynamics' |
tit = 'after dynamics' |
| 589 |
CALL diagetpq(airephy, tit, ip_ebil, 1, 1, dtphys, t_seri, q_seri, & |
CALL diagetpq(airephy, tit, ip_ebil, 1, 1, dtphys, t_seri, q_seri, & |
| 590 |
ql_seri, u_seri, v_seri, paprs, d_h_vcol, d_qt, d_ec) |
ql_seri, u_seri, v_seri, paprs, d_h_vcol, d_qt, d_ec) |
| 591 |
! Comme les tendances de la physique sont ajout\'es dans la |
! Comme les tendances de la physique sont ajout\'es dans la |
| 592 |
! dynamique, la variation d'enthalpie par la dynamique devrait |
! dynamique, la variation d'enthalpie par la dynamique devrait |
| 593 |
! \^etre \'egale \`a la variation de la physique au pas de temps |
! \^etre \'egale \`a la variation de la physique au pas de temps |
| 594 |
! pr\'ec\'edent. Donc la somme de ces 2 variations devrait \^etre |
! pr\'ec\'edent. Donc la somme de ces 2 variations devrait \^etre |
| 595 |
! nulle. |
! nulle. |
| 596 |
call diagphy(airephy, tit, ip_ebil, zero_v, zero_v, zero_v, zero_v, & |
call diagphy(airephy, tit, ip_ebil, zero_v, zero_v, zero_v, zero_v, & |
| 597 |
zero_v, zero_v, zero_v, zero_v, ztsol, d_h_vcol + d_h_vcol_phy, & |
zero_v, zero_v, zero_v, zero_v, ztsol, d_h_vcol + d_h_vcol_phy, & |
| 598 |
d_qt, 0.) |
d_qt, 0.) |
| 626 |
! Check temperatures: |
! Check temperatures: |
| 627 |
CALL hgardfou(t_seri, ftsol) |
CALL hgardfou(t_seri, ftsol) |
| 628 |
|
|
| 629 |
! Incrémenter le compteur de la physique |
call increment_itap |
|
itap = itap + 1 |
|
| 630 |
julien = MOD(dayvrai, 360) |
julien = MOD(dayvrai, 360) |
| 631 |
if (julien == 0) julien = 360 |
if (julien == 0) julien = 360 |
| 632 |
|
|
| 646 |
ENDDO |
ENDDO |
| 647 |
ql_seri = 0. |
ql_seri = 0. |
| 648 |
|
|
| 649 |
IF (if_ebil >= 2) THEN |
IF (if_ebil >= 2) THEN |
| 650 |
tit = 'after reevap' |
tit = 'after reevap' |
| 651 |
CALL diagetpq(airephy, tit, ip_ebil, 2, 1, dtphys, t_seri, q_seri, & |
CALL diagetpq(airephy, tit, ip_ebil, 2, 1, dtphys, t_seri, q_seri, & |
| 652 |
ql_seri, u_seri, v_seri, paprs, d_h_vcol, d_qt, d_ec) |
ql_seri, u_seri, v_seri, paprs, d_h_vcol, d_qt, d_ec) |
| 657 |
frugs = MAX(frugs, 0.000015) |
frugs = MAX(frugs, 0.000015) |
| 658 |
zxrugs = sum(frugs * pctsrf, dim = 2) |
zxrugs = sum(frugs * pctsrf, dim = 2) |
| 659 |
|
|
| 660 |
! Calculs nécessaires au calcul de l'albedo dans l'interface avec |
! Calculs n\'ecessaires au calcul de l'albedo dans l'interface avec |
| 661 |
! la surface. |
! la surface. |
| 662 |
|
|
| 663 |
CALL orbite(REAL(julien), longi, dist) |
CALL orbite(REAL(julien), longi, dist) |
| 683 |
|
|
| 684 |
! Couche limite: |
! Couche limite: |
| 685 |
|
|
| 686 |
CALL clmain(dtphys, itap, pctsrf, pctsrf_new, t_seri, q_seri, u_seri, & |
CALL clmain(dtphys, pctsrf, pctsrf_new, t_seri, q_seri, u_seri, v_seri, & |
| 687 |
v_seri, julien, mu0, ftsol, cdmmax, cdhmax, ksta, ksta_ter, & |
julien, mu0, ftsol, cdmmax, cdhmax, ksta, ksta_ter, ok_kzmin, & |
| 688 |
ok_kzmin, ftsoil, qsol, paprs, play, fsnow, fqsurf, fevap, falbe, & |
ftsoil, qsol, paprs, play, fsnow, fqsurf, fevap, falbe, fluxlat, & |
| 689 |
fluxlat, rain_fall, snow_fall, fsolsw, fsollw, fder, rlat, frugs, & |
rain_fall, snow_fall, fsolsw, fsollw, fder, rlat, frugs, firstcal, & |
| 690 |
firstcal, agesno, rugoro, d_t_vdf, d_q_vdf, d_u_vdf, d_v_vdf, d_ts, & |
agesno, rugoro, d_t_vdf, d_q_vdf, d_u_vdf, d_v_vdf, d_ts, fluxt, & |
| 691 |
fluxt, fluxq, fluxu, fluxv, cdragh, cdragm, q2, dsens, devap, & |
fluxq, fluxu, fluxv, cdragh, cdragm, q2, dsens, devap, ycoefh, yu1, & |
| 692 |
ycoefh, yu1, yv1, t2m, q2m, u10m, v10m, pblh, capCL, oliqCL, cteiCL, & |
yv1, t2m, q2m, u10m, v10m, pblh, capCL, oliqCL, cteiCL, pblT, therm, & |
| 693 |
pblT, therm, trmb1, trmb2, trmb3, plcl, fqcalving, ffonte, & |
trmb1, trmb2, trmb3, plcl, fqcalving, ffonte, run_off_lic_0) |
|
run_off_lic_0) |
|
| 694 |
|
|
| 695 |
! Incr\'ementation des flux |
! Incr\'ementation des flux |
| 696 |
|
|
| 723 |
ENDDO |
ENDDO |
| 724 |
ENDDO |
ENDDO |
| 725 |
|
|
| 726 |
IF (if_ebil >= 2) THEN |
IF (if_ebil >= 2) THEN |
| 727 |
tit = 'after clmain' |
tit = 'after clmain' |
| 728 |
CALL diagetpq(airephy, tit, ip_ebil, 2, 2, dtphys, t_seri, q_seri, & |
CALL diagetpq(airephy, tit, ip_ebil, 2, 2, dtphys, t_seri, q_seri, & |
| 729 |
ql_seri, u_seri, v_seri, paprs, d_h_vcol, d_qt, d_ec) |
ql_seri, u_seri, v_seri, paprs, d_h_vcol, d_qt, d_ec) |
| 744 |
zxffonte(i) = 0. |
zxffonte(i) = 0. |
| 745 |
zxfqcalving(i) = 0. |
zxfqcalving(i) = 0. |
| 746 |
|
|
| 747 |
s_pblh(i) = 0. |
s_pblh(i) = 0. |
| 748 |
s_lcl(i) = 0. |
s_lcl(i) = 0. |
| 749 |
s_capCL(i) = 0. |
s_capCL(i) = 0. |
| 750 |
s_oliqCL(i) = 0. |
s_oliqCL(i) = 0. |
| 751 |
s_cteiCL(i) = 0. |
s_cteiCL(i) = 0. |
| 754 |
s_trmb1(i) = 0. |
s_trmb1(i) = 0. |
| 755 |
s_trmb2(i) = 0. |
s_trmb2(i) = 0. |
| 756 |
s_trmb3(i) = 0. |
s_trmb3(i) = 0. |
|
|
|
|
IF (abs(pctsrf(i, is_ter) + pctsrf(i, is_lic) + pctsrf(i, is_oce) & |
|
|
+ pctsrf(i, is_sic) - 1.) > EPSFRA) print *, & |
|
|
'physiq : probl\`eme sous surface au point ', i, & |
|
|
pctsrf(i, 1 : nbsrf) |
|
| 757 |
ENDDO |
ENDDO |
| 758 |
|
|
| 759 |
|
call assert(abs(sum(pctsrf, dim = 2) - 1.) <= EPSFRA, 'physiq: pctsrf') |
| 760 |
|
|
| 761 |
DO nsrf = 1, nbsrf |
DO nsrf = 1, nbsrf |
| 762 |
DO i = 1, klon |
DO i = 1, klon |
| 763 |
ftsol(i, nsrf) = ftsol(i, nsrf) + d_ts(i, nsrf) |
ftsol(i, nsrf) = ftsol(i, nsrf) + d_ts(i, nsrf) |
| 812 |
! Calculer la dérive du flux infrarouge |
! Calculer la dérive du flux infrarouge |
| 813 |
|
|
| 814 |
DO i = 1, klon |
DO i = 1, klon |
| 815 |
dlw(i) = - 4. * RSIGMA * zxtsol(i)**3 |
dlw(i) = - 4. * RSIGMA * zxtsol(i)**3 |
| 816 |
ENDDO |
ENDDO |
| 817 |
|
|
| 818 |
IF (check) print *, "avantcon = ", qcheck(paprs, q_seri, ql_seri) |
IF (check) print *, "avantcon = ", qcheck(paprs, q_seri, ql_seri) |
| 819 |
|
|
| 820 |
! Appeler la convection (au choix) |
! Appeler la convection |
| 821 |
|
|
| 822 |
if (conv_emanuel) then |
if (conv_emanuel) then |
| 823 |
da = 0. |
da = 0. |
| 825 |
phi = 0. |
phi = 0. |
| 826 |
CALL concvl(dtphys, paprs, play, t_seri, q_seri, u_seri, v_seri, sig1, & |
CALL concvl(dtphys, paprs, play, t_seri, q_seri, u_seri, v_seri, sig1, & |
| 827 |
w01, d_t_con, d_q_con, d_u_con, d_v_con, rain_con, ibas_con, & |
w01, d_t_con, d_q_con, d_u_con, d_v_con, rain_con, ibas_con, & |
| 828 |
itop_con, upwd, dnwd, dnwd0, Ma, cape, iflagctrl, qcondc, wd, & |
itop_con, upwd, dnwd, dnwd0, Ma, cape, iflagctrl, qcondc, pmflxr, & |
| 829 |
pmflxr, da, phi, mp) |
da, phi, mp) |
| 830 |
snow_con = 0. |
snow_con = 0. |
| 831 |
clwcon0 = qcondc |
clwcon0 = qcondc |
| 832 |
mfu = upwd + dnwd |
mfu = upwd + dnwd |
|
IF (.NOT. ok_gust) wd = 0. |
|
| 833 |
|
|
| 834 |
IF (thermcep) THEN |
IF (thermcep) THEN |
| 835 |
zqsat = MIN(0.5, r2es * FOEEW(t_seri, rtt >= t_seri) / play) |
zqsat = MIN(0.5, r2es * FOEEW(t_seri, rtt >= t_seri) / play) |
| 843 |
call clouds_gno(klon, llm, q_seri, zqsat, clwcon0, ptconv, ratqsc, & |
call clouds_gno(klon, llm, q_seri, zqsat, clwcon0, ptconv, ratqsc, & |
| 844 |
rnebcon0) |
rnebcon0) |
| 845 |
|
|
| 846 |
forall (i = 1:klon) ema_pct(i) = paprs(i,itop_con(i) + 1) |
forall (i = 1:klon) ema_pct(i) = paprs(i, itop_con(i) + 1) |
| 847 |
mfd = 0. |
mfd = 0. |
| 848 |
pen_u = 0. |
pen_u = 0. |
| 849 |
pen_d = 0. |
pen_d = 0. |
| 873 |
ENDDO |
ENDDO |
| 874 |
ENDDO |
ENDDO |
| 875 |
|
|
| 876 |
IF (if_ebil >= 2) THEN |
IF (if_ebil >= 2) THEN |
| 877 |
tit = 'after convect' |
tit = 'after convect' |
| 878 |
CALL diagetpq(airephy, tit, ip_ebil, 2, 2, dtphys, t_seri, q_seri, & |
CALL diagetpq(airephy, tit, ip_ebil, 2, 2, dtphys, t_seri, q_seri, & |
| 879 |
ql_seri, u_seri, v_seri, paprs, d_h_vcol, d_qt, d_ec) |
ql_seri, u_seri, v_seri, paprs, d_h_vcol, d_qt, d_ec) |
| 927 |
q_seri, d_u_ajs, d_v_ajs, d_t_ajs, d_q_ajs, fm_therm, entr_therm) |
q_seri, d_u_ajs, d_v_ajs, d_t_ajs, d_q_ajs, fm_therm, entr_therm) |
| 928 |
endif |
endif |
| 929 |
|
|
| 930 |
IF (if_ebil >= 2) THEN |
IF (if_ebil >= 2) THEN |
| 931 |
tit = 'after dry_adjust' |
tit = 'after dry_adjust' |
| 932 |
CALL diagetpq(airephy, tit, ip_ebil, 2, 2, dtphys, t_seri, q_seri, & |
CALL diagetpq(airephy, tit, ip_ebil, 2, 2, dtphys, t_seri, q_seri, & |
| 933 |
ql_seri, u_seri, v_seri, paprs, d_h_vcol, d_qt, d_ec) |
ql_seri, u_seri, v_seri, paprs, d_h_vcol, d_qt, d_ec) |
| 954 |
do k = 1, llm |
do k = 1, llm |
| 955 |
do i = 1, klon |
do i = 1, klon |
| 956 |
ratqss(i, k) = ratqsbas + (ratqshaut - ratqsbas) & |
ratqss(i, k) = ratqsbas + (ratqshaut - ratqsbas) & |
| 957 |
* min((paprs(i, 1) - play(i, k)) / (paprs(i, 1) - 3e4), 1.) |
* min((paprs(i, 1) - play(i, k)) / (paprs(i, 1) - 3e4), 1.) |
| 958 |
enddo |
enddo |
| 959 |
enddo |
enddo |
| 960 |
|
|
| 1001 |
print *, "Precip = ", zx_t |
print *, "Precip = ", zx_t |
| 1002 |
ENDIF |
ENDIF |
| 1003 |
|
|
| 1004 |
IF (if_ebil >= 2) THEN |
IF (if_ebil >= 2) THEN |
| 1005 |
tit = 'after fisrt' |
tit = 'after fisrt' |
| 1006 |
CALL diagetpq(airephy, tit, ip_ebil, 2, 2, dtphys, t_seri, q_seri, & |
CALL diagetpq(airephy, tit, ip_ebil, 2, 2, dtphys, t_seri, q_seri, & |
| 1007 |
ql_seri, u_seri, v_seri, paprs, d_h_vcol, d_qt, d_ec) |
ql_seri, u_seri, v_seri, paprs, d_h_vcol, d_qt, d_ec) |
| 1155 |
ENDDO |
ENDDO |
| 1156 |
ENDDO |
ENDDO |
| 1157 |
|
|
| 1158 |
IF (if_ebil >= 2) THEN |
IF (if_ebil >= 2) THEN |
| 1159 |
tit = 'after rad' |
tit = 'after rad' |
| 1160 |
CALL diagetpq(airephy, tit, ip_ebil, 2, 2, dtphys, t_seri, q_seri, & |
CALL diagetpq(airephy, tit, ip_ebil, 2, 2, dtphys, t_seri, q_seri, & |
| 1161 |
ql_seri, u_seri, v_seri, paprs, d_h_vcol, d_qt, d_ec) |
ql_seri, u_seri, v_seri, paprs, d_h_vcol, d_qt, d_ec) |
| 1256 |
d_qt, d_ec) |
d_qt, d_ec) |
| 1257 |
|
|
| 1258 |
! Calcul des tendances traceurs |
! Calcul des tendances traceurs |
| 1259 |
call phytrac(itap, lmt_pas, julien, time, firstcal, lafin, dtphys, t, & |
call phytrac(lmt_pas, julien, time, firstcal, lafin, dtphys, t, paprs, & |
| 1260 |
paprs, play, mfu, mfd, pde_u, pen_d, ycoefh, fm_therm, entr_therm, & |
play, mfu, mfd, pde_u, pen_d, ycoefh, fm_therm, entr_therm, yu1, & |
| 1261 |
yu1, yv1, ftsol, pctsrf, frac_impa, frac_nucl, da, phi, mp, upwd, & |
yv1, ftsol, pctsrf, frac_impa, frac_nucl, da, phi, mp, upwd, dnwd, & |
| 1262 |
dnwd, tr_seri, zmasse, ncid_startphy, nid_ins, itau_phy) |
tr_seri, zmasse, ncid_startphy) |
| 1263 |
|
|
| 1264 |
IF (offline) call phystokenc(dtphys, rlon, rlat, t, mfu, mfd, pen_u, & |
IF (offline) call phystokenc(dtphys, t, mfu, mfd, pen_u, pde_u, pen_d, & |
| 1265 |
pde_u, pen_d, pde_d, fm_therm, entr_therm, ycoefh, yu1, yv1, ftsol, & |
pde_d, fm_therm, entr_therm, ycoefh, yu1, yv1, ftsol, pctsrf, & |
| 1266 |
pctsrf, frac_impa, frac_nucl, pphis, airephy, dtphys, itap) |
frac_impa, frac_nucl, pphis, airephy, dtphys) |
| 1267 |
|
|
| 1268 |
! Calculer le transport de l'eau et de l'energie (diagnostique) |
! Calculer le transport de l'eau et de l'energie (diagnostique) |
| 1269 |
CALL transp(paprs, t_seri, q_seri, u_seri, v_seri, zphi, ve, vq, ue, uq) |
CALL transp(paprs, t_seri, q_seri, u_seri, v_seri, zphi, ve, vq, ue, uq) |
| 1286 |
END DO |
END DO |
| 1287 |
END DO |
END DO |
| 1288 |
|
|
| 1289 |
IF (if_ebil >= 1) THEN |
IF (if_ebil >= 1) THEN |
| 1290 |
tit = 'after physic' |
tit = 'after physic' |
| 1291 |
CALL diagetpq(airephy, tit, ip_ebil, 1, 1, dtphys, t_seri, q_seri, & |
CALL diagetpq(airephy, tit, ip_ebil, 1, 1, dtphys, t_seri, q_seri, & |
| 1292 |
ql_seri, u_seri, v_seri, paprs, d_h_vcol, d_qt, d_ec) |
ql_seri, u_seri, v_seri, paprs, d_h_vcol, d_qt, d_ec) |
| 1293 |
! Comme les tendances de la physique sont ajoute dans la dynamique, |
! Comme les tendances de la physique sont ajoute dans la dynamique, |
| 1294 |
! on devrait avoir que la variation d'entalpie par la dynamique |
! on devrait avoir que la variation d'entalpie par la dynamique |
| 1295 |
! est egale a la variation de la physique au pas de temps precedent. |
! est egale a la variation de la physique au pas de temps precedent. |
| 1296 |
! Donc la somme de ces 2 variations devrait etre nulle. |
! Donc la somme de ces 2 variations devrait etre nulle. |
| 1337 |
ENDDO |
ENDDO |
| 1338 |
ENDDO |
ENDDO |
| 1339 |
|
|
| 1340 |
call write_histins |
CALL histwrite_phy("phis", pphis) |
| 1341 |
|
CALL histwrite_phy("aire", airephy) |
| 1342 |
|
CALL histwrite_phy("psol", paprs(:, 1)) |
| 1343 |
|
CALL histwrite_phy("precip", rain_fall + snow_fall) |
| 1344 |
|
CALL histwrite_phy("plul", rain_lsc + snow_lsc) |
| 1345 |
|
CALL histwrite_phy("pluc", rain_con + snow_con) |
| 1346 |
|
CALL histwrite_phy("tsol", zxtsol) |
| 1347 |
|
CALL histwrite_phy("t2m", zt2m) |
| 1348 |
|
CALL histwrite_phy("q2m", zq2m) |
| 1349 |
|
CALL histwrite_phy("u10m", zu10m) |
| 1350 |
|
CALL histwrite_phy("v10m", zv10m) |
| 1351 |
|
CALL histwrite_phy("snow", snow_fall) |
| 1352 |
|
CALL histwrite_phy("cdrm", cdragm) |
| 1353 |
|
CALL histwrite_phy("cdrh", cdragh) |
| 1354 |
|
CALL histwrite_phy("topl", toplw) |
| 1355 |
|
CALL histwrite_phy("evap", evap) |
| 1356 |
|
CALL histwrite_phy("sols", solsw) |
| 1357 |
|
CALL histwrite_phy("soll", sollw) |
| 1358 |
|
CALL histwrite_phy("solldown", sollwdown) |
| 1359 |
|
CALL histwrite_phy("bils", bils) |
| 1360 |
|
CALL histwrite_phy("sens", - sens) |
| 1361 |
|
CALL histwrite_phy("fder", fder) |
| 1362 |
|
CALL histwrite_phy("dtsvdfo", d_ts(:, is_oce)) |
| 1363 |
|
CALL histwrite_phy("dtsvdft", d_ts(:, is_ter)) |
| 1364 |
|
CALL histwrite_phy("dtsvdfg", d_ts(:, is_lic)) |
| 1365 |
|
CALL histwrite_phy("dtsvdfi", d_ts(:, is_sic)) |
| 1366 |
|
|
| 1367 |
|
DO nsrf = 1, nbsrf |
| 1368 |
|
CALL histwrite_phy("pourc_"//clnsurf(nsrf), pctsrf(:, nsrf)*100.) |
| 1369 |
|
CALL histwrite_phy("fract_"//clnsurf(nsrf), pctsrf(:, nsrf)) |
| 1370 |
|
CALL histwrite_phy("sens_"//clnsurf(nsrf), fluxt(:, 1, nsrf)) |
| 1371 |
|
CALL histwrite_phy("lat_"//clnsurf(nsrf), fluxlat(:, nsrf)) |
| 1372 |
|
CALL histwrite_phy("tsol_"//clnsurf(nsrf), ftsol(:, nsrf)) |
| 1373 |
|
CALL histwrite_phy("taux_"//clnsurf(nsrf), fluxu(:, 1, nsrf)) |
| 1374 |
|
CALL histwrite_phy("tauy_"//clnsurf(nsrf), fluxv(:, 1, nsrf)) |
| 1375 |
|
CALL histwrite_phy("rugs_"//clnsurf(nsrf), frugs(:, nsrf)) |
| 1376 |
|
CALL histwrite_phy("albe_"//clnsurf(nsrf), falbe(:, nsrf)) |
| 1377 |
|
END DO |
| 1378 |
|
|
| 1379 |
|
CALL histwrite_phy("albs", albsol) |
| 1380 |
|
CALL histwrite_phy("rugs", zxrugs) |
| 1381 |
|
CALL histwrite_phy("s_pblh", s_pblh) |
| 1382 |
|
CALL histwrite_phy("s_pblt", s_pblt) |
| 1383 |
|
CALL histwrite_phy("s_lcl", s_lcl) |
| 1384 |
|
CALL histwrite_phy("s_capCL", s_capCL) |
| 1385 |
|
CALL histwrite_phy("s_oliqCL", s_oliqCL) |
| 1386 |
|
CALL histwrite_phy("s_cteiCL", s_cteiCL) |
| 1387 |
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CALL histwrite_phy("s_therm", s_therm) |
| 1388 |
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CALL histwrite_phy("s_trmb1", s_trmb1) |
| 1389 |
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CALL histwrite_phy("s_trmb2", s_trmb2) |
| 1390 |
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CALL histwrite_phy("s_trmb3", s_trmb3) |
| 1391 |
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if (conv_emanuel) CALL histwrite_phy("ptop", ema_pct) |
| 1392 |
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CALL histwrite_phy("temp", t_seri) |
| 1393 |
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CALL histwrite_phy("vitu", u_seri) |
| 1394 |
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CALL histwrite_phy("vitv", v_seri) |
| 1395 |
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CALL histwrite_phy("geop", zphi) |
| 1396 |
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CALL histwrite_phy("pres", play) |
| 1397 |
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CALL histwrite_phy("dtvdf", d_t_vdf) |
| 1398 |
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CALL histwrite_phy("dqvdf", d_q_vdf) |
| 1399 |
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CALL histwrite_phy("rhum", zx_rh) |
| 1400 |
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| 1401 |
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if (ok_instan) call histsync(nid_ins) |
| 1402 |
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| 1403 |
IF (lafin) then |
IF (lafin) then |
| 1404 |
call NF95_CLOSE(ncid_startphy) |
call NF95_CLOSE(ncid_startphy) |
| 1411 |
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| 1412 |
firstcal = .FALSE. |
firstcal = .FALSE. |
| 1413 |
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contains |
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subroutine write_histins |
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! From phylmd/write_histins.h, version 1.2 2005/05/25 13:10:09 |
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! Ecriture des sorties |
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use dimens_m, only: iim, jjm |
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use gr_fi_ecrit_m, only: gr_fi_ecrit |
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USE histsync_m, ONLY: histsync |
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USE histwrite_m, ONLY: histwrite |
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integer i, itau_w ! pas de temps ecriture |
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REAL zx_tmp_2d(iim, jjm + 1), zx_tmp_3d(iim, jjm + 1, llm) |
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!-------------------------------------------------- |
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IF (ok_instan) THEN |
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! Champs 2D: |
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itau_w = itau_phy + itap |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, pphis, zx_tmp_2d) |
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CALL histwrite(nid_ins, "phis", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, airephy, zx_tmp_2d) |
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CALL histwrite(nid_ins, "aire", itau_w, zx_tmp_2d) |
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DO i = 1, klon |
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zx_tmp_fi2d(i) = paprs(i, 1) |
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ENDDO |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
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CALL histwrite(nid_ins, "psol", itau_w, zx_tmp_2d) |
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DO i = 1, klon |
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zx_tmp_fi2d(i) = rain_fall(i) + snow_fall(i) |
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ENDDO |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
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CALL histwrite(nid_ins, "precip", itau_w, zx_tmp_2d) |
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DO i = 1, klon |
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zx_tmp_fi2d(i) = rain_lsc(i) + snow_lsc(i) |
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ENDDO |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
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CALL histwrite(nid_ins, "plul", itau_w, zx_tmp_2d) |
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DO i = 1, klon |
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zx_tmp_fi2d(i) = rain_con(i) + snow_con(i) |
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ENDDO |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
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CALL histwrite(nid_ins, "pluc", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zxtsol, zx_tmp_2d) |
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CALL histwrite(nid_ins, "tsol", itau_w, zx_tmp_2d) |
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!ccIM |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zt2m, zx_tmp_2d) |
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CALL histwrite(nid_ins, "t2m", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zq2m, zx_tmp_2d) |
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CALL histwrite(nid_ins, "q2m", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zu10m, zx_tmp_2d) |
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CALL histwrite(nid_ins, "u10m", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zv10m, zx_tmp_2d) |
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CALL histwrite(nid_ins, "v10m", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, snow_fall, zx_tmp_2d) |
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CALL histwrite(nid_ins, "snow", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, cdragm, zx_tmp_2d) |
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CALL histwrite(nid_ins, "cdrm", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, cdragh, zx_tmp_2d) |
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CALL histwrite(nid_ins, "cdrh", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, toplw, zx_tmp_2d) |
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CALL histwrite(nid_ins, "topl", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, evap, zx_tmp_2d) |
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CALL histwrite(nid_ins, "evap", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, solsw, zx_tmp_2d) |
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CALL histwrite(nid_ins, "sols", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, sollw, zx_tmp_2d) |
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CALL histwrite(nid_ins, "soll", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, sollwdown, zx_tmp_2d) |
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CALL histwrite(nid_ins, "solldown", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, bils, zx_tmp_2d) |
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CALL histwrite(nid_ins, "bils", itau_w, zx_tmp_2d) |
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zx_tmp_fi2d(1:klon) = - sens(1:klon) |
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! CALL gr_fi_ecrit(1, klon, iim, jjm + 1, sens, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
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CALL histwrite(nid_ins, "sens", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, fder, zx_tmp_2d) |
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CALL histwrite(nid_ins, "fder", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, d_ts(1, is_oce), zx_tmp_2d) |
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CALL histwrite(nid_ins, "dtsvdfo", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, d_ts(1, is_ter), zx_tmp_2d) |
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CALL histwrite(nid_ins, "dtsvdft", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, d_ts(1, is_lic), zx_tmp_2d) |
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CALL histwrite(nid_ins, "dtsvdfg", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, d_ts(1, is_sic), zx_tmp_2d) |
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CALL histwrite(nid_ins, "dtsvdfi", itau_w, zx_tmp_2d) |
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DO nsrf = 1, nbsrf |
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!XXX |
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zx_tmp_fi2d(1 : klon) = pctsrf(1 : klon, nsrf)*100. |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
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CALL histwrite(nid_ins, "pourc_"//clnsurf(nsrf), itau_w, & |
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zx_tmp_2d) |
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zx_tmp_fi2d(1 : klon) = pctsrf(1 : klon, nsrf) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
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CALL histwrite(nid_ins, "fract_"//clnsurf(nsrf), itau_w, & |
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zx_tmp_2d) |
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zx_tmp_fi2d(1 : klon) = fluxt(1 : klon, 1, nsrf) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
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CALL histwrite(nid_ins, "sens_"//clnsurf(nsrf), itau_w, & |
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zx_tmp_2d) |
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zx_tmp_fi2d(1 : klon) = fluxlat(1 : klon, nsrf) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
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CALL histwrite(nid_ins, "lat_"//clnsurf(nsrf), itau_w, & |
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zx_tmp_2d) |
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zx_tmp_fi2d(1 : klon) = ftsol(1 : klon, nsrf) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
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CALL histwrite(nid_ins, "tsol_"//clnsurf(nsrf), itau_w, & |
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zx_tmp_2d) |
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zx_tmp_fi2d(1 : klon) = fluxu(1 : klon, 1, nsrf) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
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CALL histwrite(nid_ins, "taux_"//clnsurf(nsrf), itau_w, & |
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zx_tmp_2d) |
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zx_tmp_fi2d(1 : klon) = fluxv(1 : klon, 1, nsrf) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
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CALL histwrite(nid_ins, "tauy_"//clnsurf(nsrf), itau_w, & |
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zx_tmp_2d) |
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zx_tmp_fi2d(1 : klon) = frugs(1 : klon, nsrf) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
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CALL histwrite(nid_ins, "rugs_"//clnsurf(nsrf), itau_w, & |
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zx_tmp_2d) |
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zx_tmp_fi2d(1 : klon) = falbe(:, nsrf) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
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CALL histwrite(nid_ins, "albe_"//clnsurf(nsrf), itau_w, & |
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zx_tmp_2d) |
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END DO |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, albsol, zx_tmp_2d) |
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CALL histwrite(nid_ins, "albs", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zxrugs, zx_tmp_2d) |
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CALL histwrite(nid_ins, "rugs", itau_w, zx_tmp_2d) |
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!HBTM2 |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, s_pblh, zx_tmp_2d) |
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CALL histwrite(nid_ins, "s_pblh", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, s_pblt, zx_tmp_2d) |
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CALL histwrite(nid_ins, "s_pblt", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, s_lcl, zx_tmp_2d) |
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CALL histwrite(nid_ins, "s_lcl", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, s_capCL, zx_tmp_2d) |
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CALL histwrite(nid_ins, "s_capCL", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, s_oliqCL, zx_tmp_2d) |
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CALL histwrite(nid_ins, "s_oliqCL", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, s_cteiCL, zx_tmp_2d) |
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CALL histwrite(nid_ins, "s_cteiCL", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, s_therm, zx_tmp_2d) |
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CALL histwrite(nid_ins, "s_therm", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, s_trmb1, zx_tmp_2d) |
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CALL histwrite(nid_ins, "s_trmb1", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, s_trmb2, zx_tmp_2d) |
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CALL histwrite(nid_ins, "s_trmb2", itau_w, zx_tmp_2d) |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, s_trmb3, zx_tmp_2d) |
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CALL histwrite(nid_ins, "s_trmb3", itau_w, zx_tmp_2d) |
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if (conv_emanuel) then |
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CALL gr_fi_ecrit(1, klon, iim, jjm + 1, ema_pct, zx_tmp_2d) |
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CALL histwrite(nid_ins, "ptop", itau_w, zx_tmp_2d) |
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end if |
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! Champs 3D: |
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CALL gr_fi_ecrit(llm, klon, iim, jjm + 1, t_seri, zx_tmp_3d) |
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CALL histwrite(nid_ins, "temp", itau_w, zx_tmp_3d) |
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CALL gr_fi_ecrit(llm, klon, iim, jjm + 1, u_seri, zx_tmp_3d) |
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CALL histwrite(nid_ins, "vitu", itau_w, zx_tmp_3d) |
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CALL gr_fi_ecrit(llm, klon, iim, jjm + 1, v_seri, zx_tmp_3d) |
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CALL histwrite(nid_ins, "vitv", itau_w, zx_tmp_3d) |
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CALL gr_fi_ecrit(llm, klon, iim, jjm + 1, zphi, zx_tmp_3d) |
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CALL histwrite(nid_ins, "geop", itau_w, zx_tmp_3d) |
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CALL gr_fi_ecrit(llm, klon, iim, jjm + 1, play, zx_tmp_3d) |
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CALL histwrite(nid_ins, "pres", itau_w, zx_tmp_3d) |
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CALL gr_fi_ecrit(llm, klon, iim, jjm + 1, d_t_vdf, zx_tmp_3d) |
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CALL histwrite(nid_ins, "dtvdf", itau_w, zx_tmp_3d) |
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CALL gr_fi_ecrit(llm, klon, iim, jjm + 1, d_q_vdf, zx_tmp_3d) |
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CALL histwrite(nid_ins, "dqvdf", itau_w, zx_tmp_3d) |
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CALL gr_fi_ecrit(llm, klon, iim, jjm + 1, zx_rh, zx_tmp_3d) |
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CALL histwrite(nid_ins, "rhum", itau_w, zx_tmp_3d) |
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call histsync(nid_ins) |
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ENDIF |
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end subroutine write_histins |
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| 1414 |
END SUBROUTINE physiq |
END SUBROUTINE physiq |
| 1415 |
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| 1416 |
end module physiq_m |
end module physiq_m |
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