4 |
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5 |
contains |
contains |
6 |
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7 |
SUBROUTINE physiq(lafin, dayvrai, time, dtphys, paprs, play, pphi, pphis, & |
SUBROUTINE physiq(lafin, dayvrai, time, paprs, play, pphi, pphis, u, v, t, & |
8 |
u, v, t, qx, omega, d_u, d_v, d_t, d_qx) |
qx, omega, d_u, d_v, d_t, d_qx) |
9 |
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10 |
! From phylmd/physiq.F, version 1.22 2006/02/20 09:38:28 |
! From phylmd/physiq.F, version 1.22 2006/02/20 09:38:28 |
11 |
! (subversion revision 678) |
! (subversion revision 678) |
12 |
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13 |
! Author: Z.X. Li (LMD/CNRS) 1993 |
! Author: Z. X. Li (LMD/CNRS) 1993 |
14 |
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15 |
! This is the main procedure for the "physics" part of the program. |
! This is the main procedure for the "physics" part of the program. |
16 |
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25 |
ok_orodr, ok_orolf |
ok_orodr, ok_orolf |
26 |
USE clmain_m, ONLY: clmain |
USE clmain_m, ONLY: clmain |
27 |
use clouds_gno_m, only: clouds_gno |
use clouds_gno_m, only: clouds_gno |
28 |
|
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 |
USE conf_gcm_m, ONLY: offline, raz_date, 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 |
46 |
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, & |
47 |
nbsrf |
nbsrf |
48 |
USE ini_histins_m, ONLY: ini_histins |
USE ini_histins_m, ONLY: ini_histins |
49 |
|
use netcdf95, only: NF95_CLOSE |
50 |
use newmicro_m, only: newmicro |
use newmicro_m, only: newmicro |
51 |
|
use nuage_m, only: nuage |
52 |
USE orbite_m, ONLY: orbite |
USE orbite_m, ONLY: orbite |
53 |
USE ozonecm_m, ONLY: ozonecm |
USE ozonecm_m, ONLY: ozonecm |
54 |
USE phyetat0_m, ONLY: phyetat0, rlat, rlon |
USE phyetat0_m, ONLY: phyetat0, rlat, rlon |
55 |
USE phyredem_m, ONLY: phyredem |
USE phyredem_m, ONLY: phyredem |
56 |
|
USE phyredem0_m, ONLY: phyredem0 |
57 |
USE phystokenc_m, ONLY: phystokenc |
USE phystokenc_m, ONLY: phystokenc |
58 |
USE phytrac_m, ONLY: phytrac |
USE phytrac_m, ONLY: phytrac |
59 |
USE qcheck_m, ONLY: qcheck |
USE qcheck_m, ONLY: qcheck |
60 |
use radlwsw_m, only: radlwsw |
use radlwsw_m, only: radlwsw |
61 |
use readsulfate_m, only: readsulfate |
use readsulfate_m, only: readsulfate |
62 |
use readsulfate_preind_m, only: readsulfate_preind |
use readsulfate_preind_m, only: readsulfate_preind |
63 |
use sugwd_m, only: sugwd |
use yoegwd, only: sugwd |
64 |
USE suphec_m, ONLY: ra, rcpd, retv, rg, rlvtt, romega, rsigma, rtt |
USE suphec_m, ONLY: rcpd, retv, rg, rlvtt, romega, rsigma, rtt |
65 |
USE temps, ONLY: itau_phy |
use transp_m, only: transp |
66 |
use unit_nml_m, only: unit_nml |
use unit_nml_m, only: unit_nml |
67 |
USE ymds2ju_m, ONLY: ymds2ju |
USE ymds2ju_m, ONLY: ymds2ju |
68 |
USE yoethf_m, ONLY: r2es, rvtmp2 |
USE yoethf_m, ONLY: r2es, rvtmp2 |
74 |
! current day number, based at value 1 on January 1st of annee_ref |
! current day number, based at value 1 on January 1st of annee_ref |
75 |
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|
76 |
REAL, intent(in):: time ! heure de la journ\'ee en fraction de jour |
REAL, intent(in):: time ! heure de la journ\'ee en fraction de jour |
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REAL, intent(in):: dtphys ! pas d'integration pour la physique (seconde) |
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77 |
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78 |
REAL, intent(in):: paprs(:, :) ! (klon, llm + 1) |
REAL, intent(in):: paprs(:, :) ! (klon, llm + 1) |
79 |
! pression pour chaque inter-couche, en Pa |
! pression pour chaque inter-couche, en Pa |
116 |
LOGICAL, PARAMETER:: ok_stratus = .FALSE. |
LOGICAL, PARAMETER:: ok_stratus = .FALSE. |
117 |
! Ajouter artificiellement les stratus |
! Ajouter artificiellement les stratus |
118 |
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! "slab" ocean |
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REAL, save:: tslab(klon) ! temperature of ocean slab |
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REAL, save:: seaice(klon) ! glace de mer (kg/m2) |
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REAL fluxo(klon) ! flux turbulents ocean-glace de mer |
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REAL fluxg(klon) ! flux turbulents ocean-atmosphere |
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119 |
logical:: ok_journe = .false., ok_mensuel = .true., ok_instan = .false. |
logical:: ok_journe = .false., ok_mensuel = .true., ok_instan = .false. |
120 |
! sorties journalieres, mensuelles et instantanees dans les |
! sorties journalieres, mensuelles et instantanees dans les |
121 |
! fichiers histday, histmth et histins |
! fichiers histday, histmth et histins |
152 |
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153 |
integer nlevSTD |
integer nlevSTD |
154 |
PARAMETER(nlevSTD = 17) |
PARAMETER(nlevSTD = 17) |
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real rlevSTD(nlevSTD) |
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DATA rlevSTD/100000., 92500., 85000., 70000., & |
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60000., 50000., 40000., 30000., 25000., 20000., & |
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15000., 10000., 7000., 5000., 3000., 2000., 1000./ |
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CHARACTER(LEN = 4) clevSTD(nlevSTD) |
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DATA clevSTD/'1000', '925 ', '850 ', '700 ', '600 ', & |
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'500 ', '400 ', '300 ', '250 ', '200 ', '150 ', '100 ', & |
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'70 ', '50 ', '30 ', '20 ', '10 '/ |
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155 |
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156 |
! prw: precipitable water |
! prw: precipitable water |
157 |
real prw(klon) |
real prw(klon) |
164 |
INTEGER kmax, lmax |
INTEGER kmax, lmax |
165 |
PARAMETER(kmax = 8, lmax = 8) |
PARAMETER(kmax = 8, lmax = 8) |
166 |
INTEGER kmaxm1, lmaxm1 |
INTEGER kmaxm1, lmaxm1 |
167 |
PARAMETER(kmaxm1 = kmax-1, lmaxm1 = lmax-1) |
PARAMETER(kmaxm1 = kmax - 1, lmaxm1 = lmax - 1) |
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REAL zx_tau(kmaxm1), zx_pc(lmaxm1) |
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DATA zx_tau/0., 0.3, 1.3, 3.6, 9.4, 23., 60./ |
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DATA zx_pc/50., 180., 310., 440., 560., 680., 800./ |
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! cldtopres pression au sommet des nuages |
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REAL cldtopres(lmaxm1) |
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DATA cldtopres/50., 180., 310., 440., 560., 680., 800./ |
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! taulev: numero du niveau de tau dans les sorties ISCCP |
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CHARACTER(LEN = 4) taulev(kmaxm1) |
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DATA taulev/'tau0', 'tau1', 'tau2', 'tau3', 'tau4', 'tau5', 'tau6'/ |
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CHARACTER(LEN = 3) pclev(lmaxm1) |
|
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DATA pclev/'pc1', 'pc2', 'pc3', 'pc4', 'pc5', 'pc6', 'pc7'/ |
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CHARACTER(LEN = 28) cnameisccp(lmaxm1, kmaxm1) |
|
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DATA cnameisccp/'pc< 50hPa, tau< 0.3', 'pc= 50-180hPa, tau< 0.3', & |
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'pc= 180-310hPa, tau< 0.3', 'pc= 310-440hPa, tau< 0.3', & |
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'pc= 440-560hPa, tau< 0.3', 'pc= 560-680hPa, tau< 0.3', & |
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'pc= 680-800hPa, tau< 0.3', 'pc< 50hPa, tau= 0.3-1.3', & |
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'pc= 50-180hPa, tau= 0.3-1.3', 'pc= 180-310hPa, tau= 0.3-1.3', & |
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'pc= 310-440hPa, tau= 0.3-1.3', 'pc= 440-560hPa, tau= 0.3-1.3', & |
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'pc= 560-680hPa, tau= 0.3-1.3', 'pc= 680-800hPa, tau= 0.3-1.3', & |
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'pc< 50hPa, tau= 1.3-3.6', 'pc= 50-180hPa, tau= 1.3-3.6', & |
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'pc= 180-310hPa, tau= 1.3-3.6', 'pc= 310-440hPa, tau= 1.3-3.6', & |
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'pc= 440-560hPa, tau= 1.3-3.6', 'pc= 560-680hPa, tau= 1.3-3.6', & |
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'pc= 680-800hPa, tau= 1.3-3.6', 'pc< 50hPa, tau= 3.6-9.4', & |
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'pc= 50-180hPa, tau= 3.6-9.4', 'pc= 180-310hPa, tau= 3.6-9.4', & |
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'pc= 310-440hPa, tau= 3.6-9.4', 'pc= 440-560hPa, tau= 3.6-9.4', & |
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'pc= 560-680hPa, tau= 3.6-9.4', 'pc= 680-800hPa, tau= 3.6-9.4', & |
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'pc< 50hPa, tau= 9.4-23', 'pc= 50-180hPa, tau= 9.4-23', & |
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'pc= 180-310hPa, tau= 9.4-23', 'pc= 310-440hPa, tau= 9.4-23', & |
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'pc= 440-560hPa, tau= 9.4-23', 'pc= 560-680hPa, tau= 9.4-23', & |
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'pc= 680-800hPa, tau= 9.4-23', 'pc< 50hPa, tau= 23-60', & |
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'pc= 50-180hPa, tau= 23-60', 'pc= 180-310hPa, tau= 23-60', & |
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'pc= 310-440hPa, tau= 23-60', 'pc= 440-560hPa, tau= 23-60', & |
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'pc= 560-680hPa, tau= 23-60', 'pc= 680-800hPa, tau= 23-60', & |
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'pc< 50hPa, tau> 60.', 'pc= 50-180hPa, tau> 60.', & |
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'pc= 180-310hPa, tau> 60.', 'pc= 310-440hPa, tau> 60.', & |
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'pc= 440-560hPa, tau> 60.', 'pc= 560-680hPa, tau> 60.', & |
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'pc= 680-800hPa, tau> 60.'/ |
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! ISCCP simulator v3.4 |
|
168 |
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169 |
! Variables propres a la physique |
! Variables propres a la physique |
170 |
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175 |
REAL radsol(klon) |
REAL radsol(klon) |
176 |
SAVE radsol ! bilan radiatif au sol calcule par code radiatif |
SAVE radsol ! bilan radiatif au sol calcule par code radiatif |
177 |
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178 |
INTEGER, SAVE:: itap ! number of calls to "physiq" |
INTEGER:: itap = 0 ! number of calls to "physiq" |
179 |
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180 |
REAL, save:: ftsol(klon, nbsrf) ! skin temperature of surface fraction |
REAL, save:: ftsol(klon, nbsrf) ! skin temperature of surface fraction |
181 |
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193 |
! column-density of water in soil, in kg m-2 |
! column-density of water in soil, in kg m-2 |
194 |
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195 |
REAL, save:: fsnow(klon, nbsrf) ! epaisseur neigeuse |
REAL, save:: fsnow(klon, nbsrf) ! epaisseur neigeuse |
196 |
REAL, save:: falbe(klon, nbsrf) ! albedo par type de surface |
REAL, save:: falbe(klon, nbsrf) ! albedo visible par type de surface |
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REAL, save:: falblw(klon, nbsrf) ! albedo par type de surface |
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197 |
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198 |
! Param\`etres de l'orographie \`a l'\'echelle sous-maille (OESM) : |
! Param\`etres de l'orographie \`a l'\'echelle sous-maille (OESM) : |
199 |
REAL, save:: zmea(klon) ! orographie moyenne |
REAL, save:: zmea(klon) ! orographie moyenne |
224 |
REAL, save:: sig1(klon, llm), w01(klon, llm) |
REAL, save:: sig1(klon, llm), w01(klon, llm) |
225 |
REAL, save:: wd(klon) |
REAL, save:: wd(klon) |
226 |
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227 |
! Variables locales pour la couche limite (al1): |
! Variables pour la couche limite (al1): |
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! Variables locales: |
|
228 |
|
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229 |
REAL cdragh(klon) ! drag coefficient pour T and Q |
REAL cdragh(klon) ! drag coefficient pour T and Q |
230 |
REAL cdragm(klon) ! drag coefficient pour vent |
REAL cdragm(klon) ! drag coefficient pour vent |
261 |
REAL dlw(klon) ! derivee infra rouge |
REAL dlw(klon) ! derivee infra rouge |
262 |
SAVE dlw |
SAVE dlw |
263 |
REAL bils(klon) ! bilan de chaleur au sol |
REAL bils(klon) ! bilan de chaleur au sol |
264 |
REAL fder(klon) ! Derive de flux (sensible et latente) |
REAL, save:: fder(klon) ! Derive de flux (sensible et latente) |
|
save fder |
|
265 |
REAL ve(klon) ! integr. verticale du transport meri. de l'energie |
REAL ve(klon) ! integr. verticale du transport meri. de l'energie |
266 |
REAL vq(klon) ! integr. verticale du transport meri. de l'eau |
REAL vq(klon) ! integr. verticale du transport meri. de l'eau |
267 |
REAL ue(klon) ! integr. verticale du transport zonal de l'energie |
REAL ue(klon) ! integr. verticale du transport zonal de l'energie |
276 |
INTEGER, SAVE:: lmt_pas ! number of time steps of "physics" per day |
INTEGER, SAVE:: lmt_pas ! number of time steps of "physics" per day |
277 |
REAL, save:: pctsrf(klon, nbsrf) ! percentage of surface |
REAL, save:: pctsrf(klon, nbsrf) ! percentage of surface |
278 |
REAL pctsrf_new(klon, nbsrf) ! pourcentage surfaces issus d'ORCHIDEE |
REAL pctsrf_new(klon, nbsrf) ! pourcentage surfaces issus d'ORCHIDEE |
279 |
REAL, save:: albsol(klon) ! albedo du sol total |
REAL, save:: albsol(klon) ! albedo du sol total visible |
|
REAL, save:: albsollw(klon) ! albedo du sol total |
|
280 |
REAL, SAVE:: wo(klon, llm) ! column density of ozone in a cell, in kDU |
REAL, SAVE:: wo(klon, llm) ! column density of ozone in a cell, in kDU |
281 |
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! Declaration des procedures appelees |
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EXTERNAL nuage ! calculer les proprietes radiatives |
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EXTERNAL transp ! transport total de l'eau et de l'energie |
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! Variables locales |
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282 |
real, save:: clwcon(klon, llm), rnebcon(klon, llm) |
real, save:: clwcon(klon, llm), rnebcon(klon, llm) |
283 |
real, save:: clwcon0(klon, llm), rnebcon0(klon, llm) |
real, save:: clwcon0(klon, llm), rnebcon0(klon, llm) |
284 |
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|
303 |
! Le rayonnement n'est pas calcul\'e tous les pas, il faut donc que |
! Le rayonnement n'est pas calcul\'e tous les pas, il faut donc que |
304 |
! les variables soient r\'emanentes. |
! les variables soient r\'emanentes. |
305 |
REAL, save:: heat(klon, llm) ! chauffage solaire |
REAL, save:: heat(klon, llm) ! chauffage solaire |
306 |
REAL heat0(klon, llm) ! chauffage solaire ciel clair |
REAL, save:: heat0(klon, llm) ! chauffage solaire ciel clair |
307 |
REAL, save:: cool(klon, llm) ! refroidissement infrarouge |
REAL, save:: cool(klon, llm) ! refroidissement infrarouge |
308 |
REAL cool0(klon, llm) ! refroidissement infrarouge ciel clair |
REAL, save:: cool0(klon, llm) ! refroidissement infrarouge ciel clair |
309 |
REAL, save:: topsw(klon), toplw(klon), solsw(klon) |
REAL, save:: topsw(klon), toplw(klon), solsw(klon) |
310 |
REAL, save:: sollw(klon) ! rayonnement infrarouge montant \`a la surface |
REAL, save:: sollw(klon) ! rayonnement infrarouge montant \`a la surface |
311 |
real, save:: sollwdown(klon) ! downward LW flux at surface |
real, save:: sollwdown(klon) ! downward LW flux at surface |
312 |
REAL, save:: topsw0(klon), toplw0(klon), solsw0(klon), sollw0(klon) |
REAL, save:: topsw0(klon), toplw0(klon), solsw0(klon), sollw0(klon) |
313 |
REAL albpla(klon) |
REAL, save:: albpla(klon) |
314 |
REAL fsollw(klon, nbsrf) ! bilan flux IR pour chaque sous surface |
REAL fsollw(klon, nbsrf) ! bilan flux IR pour chaque sous surface |
315 |
REAL fsolsw(klon, nbsrf) ! flux solaire absorb. pour chaque sous surface |
REAL fsolsw(klon, nbsrf) ! flux solaire absorb. pour chaque sous surface |
|
SAVE albpla |
|
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SAVE heat0, cool0 |
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INTEGER itaprad |
|
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SAVE itaprad |
|
316 |
|
|
317 |
REAL conv_q(klon, llm) ! convergence de l'humidite (kg/kg/s) |
REAL conv_q(klon, llm) ! convergence de l'humidite (kg/kg/s) |
318 |
REAL conv_t(klon, llm) ! convergence of temperature (K/s) |
REAL conv_t(klon, llm) ! convergence of temperature (K/s) |
332 |
REAL, PARAMETER:: t_coup = 234. |
REAL, PARAMETER:: t_coup = 234. |
333 |
REAL zphi(klon, llm) |
REAL zphi(klon, llm) |
334 |
|
|
335 |
! cf. AM Variables locales pour la CLA (hbtm2) |
! cf. AM Variables pour la CLA (hbtm2) |
336 |
|
|
337 |
REAL, SAVE:: pblh(klon, nbsrf) ! Hauteur de couche limite |
REAL, SAVE:: pblh(klon, nbsrf) ! Hauteur de couche limite |
338 |
REAL, SAVE:: plcl(klon, nbsrf) ! Niveau de condensation de la CLA |
REAL, SAVE:: plcl(klon, nbsrf) ! Niveau de condensation de la CLA |
350 |
REAL s_therm(klon), s_trmb1(klon), s_trmb2(klon) |
REAL s_therm(klon), s_trmb1(klon), s_trmb2(klon) |
351 |
REAL s_trmb3(klon) |
REAL s_trmb3(klon) |
352 |
|
|
353 |
! Variables locales pour la convection de K. Emanuel : |
! Variables pour la convection de K. Emanuel : |
354 |
|
|
355 |
REAL upwd(klon, llm) ! saturated updraft mass flux |
REAL upwd(klon, llm) ! saturated updraft mass flux |
356 |
REAL dnwd(klon, llm) ! saturated downdraft mass flux |
REAL dnwd(klon, llm) ! saturated downdraft mass flux |
408 |
integer:: iflag_cldcon = 1 |
integer:: iflag_cldcon = 1 |
409 |
logical ptconv(klon, llm) |
logical ptconv(klon, llm) |
410 |
|
|
411 |
! Variables locales pour effectuer les appels en s\'erie : |
! Variables pour effectuer les appels en s\'erie : |
412 |
|
|
413 |
REAL t_seri(klon, llm), q_seri(klon, llm) |
REAL t_seri(klon, llm), q_seri(klon, llm) |
414 |
REAL ql_seri(klon, llm) |
REAL ql_seri(klon, llm) |
431 |
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. |
432 |
REAL uq_lay(klon, llm) ! transport zonal de l'eau a chaque niveau vert. |
REAL uq_lay(klon, llm) ! transport zonal de l'eau a chaque niveau vert. |
433 |
|
|
|
REAL zsto |
|
434 |
real date0 |
real date0 |
435 |
|
|
436 |
! Variables li\'ees au bilan d'\'energie et d'enthalpie : |
! Variables li\'ees au bilan d'\'energie et d'enthalpie : |
455 |
REAL sulfate(klon, llm) ! SO4 aerosol concentration (micro g/m3) |
REAL sulfate(klon, llm) ! SO4 aerosol concentration (micro g/m3) |
456 |
|
|
457 |
REAL, save:: sulfate_pi(klon, llm) |
REAL, save:: sulfate_pi(klon, llm) |
458 |
! SO4 aerosol concentration, in micro g/m3, pre-industrial value |
! SO4 aerosol concentration, in \mu g/m3, pre-industrial value |
459 |
|
|
460 |
REAL cldtaupi(klon, llm) |
REAL cldtaupi(klon, llm) |
461 |
! cloud optical thickness for pre-industrial (pi) aerosols |
! cloud optical thickness for pre-industrial (pi) aerosols |
499 |
! (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) |
500 |
|
|
501 |
real, parameter:: dobson_u = 2.1415e-05 ! Dobson unit, in kg m-2 |
real, parameter:: dobson_u = 2.1415e-05 ! Dobson unit, in kg m-2 |
502 |
|
integer, save:: ncid_startphy, itau_phy |
503 |
|
|
504 |
namelist /physiq_nml/ ok_journe, ok_mensuel, ok_instan, fact_cldcon, & |
namelist /physiq_nml/ ok_journe, ok_mensuel, ok_instan, fact_cldcon, & |
505 |
facttemps, ok_newmicro, iflag_cldcon, ratqsbas, ratqshaut, if_ebil, & |
facttemps, ok_newmicro, iflag_cldcon, ratqsbas, ratqshaut, if_ebil, & |
509 |
|
|
510 |
IF (if_ebil >= 1) zero_v = 0. |
IF (if_ebil >= 1) zero_v = 0. |
511 |
IF (nqmx < 2) CALL abort_gcm('physiq', & |
IF (nqmx < 2) CALL abort_gcm('physiq', & |
512 |
'eaux vapeur et liquide sont indispensables', 1) |
'eaux vapeur et liquide sont indispensables') |
513 |
|
|
514 |
test_firstcal: IF (firstcal) THEN |
test_firstcal: IF (firstcal) THEN |
515 |
! initialiser |
! initialiser |
560 |
! Initialiser les compteurs: |
! Initialiser les compteurs: |
561 |
|
|
562 |
frugs = 0. |
frugs = 0. |
563 |
itap = 0 |
CALL phyetat0(pctsrf, ftsol, ftsoil, fqsurf, qsol, & |
564 |
itaprad = 0 |
fsnow, falbe, fevap, rain_fall, snow_fall, solsw, sollw, dlw, & |
565 |
CALL phyetat0(pctsrf, ftsol, ftsoil, tslab, seaice, fqsurf, qsol, & |
radsol, frugs, agesno, zmea, zstd, zsig, zgam, zthe, zpic, zval, & |
566 |
fsnow, falbe, falblw, fevap, rain_fall, snow_fall, solsw, sollw, & |
t_ancien, q_ancien, ancien_ok, rnebcon, ratqs, clwcon, & |
567 |
dlw, radsol, frugs, agesno, zmea, zstd, zsig, zgam, zthe, zpic, & |
run_off_lic_0, sig1, w01, ncid_startphy, itau_phy) |
|
zval, t_ancien, q_ancien, ancien_ok, rnebcon, ratqs, clwcon, & |
|
|
run_off_lic_0, sig1, w01) |
|
568 |
|
|
569 |
! ATTENTION : il faudra a terme relire q2 dans l'etat initial |
! ATTENTION : il faudra a terme relire q2 dans l'etat initial |
570 |
q2 = 1e-8 |
q2 = 1e-8 |
571 |
|
|
572 |
radpas = NINT(86400. / dtphys / nbapp_rad) |
lmt_pas = day_step / iphysiq |
573 |
|
print *, 'Number of time steps of "physics" per day: ', lmt_pas |
574 |
|
|
575 |
! on remet le calendrier a zero |
radpas = lmt_pas / nbapp_rad |
576 |
|
|
577 |
|
! On remet le calendrier a zero |
578 |
IF (raz_date) itau_phy = 0 |
IF (raz_date) itau_phy = 0 |
579 |
|
|
580 |
CALL printflag(radpas, ok_journe, ok_instan, ok_region) |
CALL printflag(radpas, ok_journe, ok_instan, ok_region) |
581 |
|
|
|
IF (dtphys * radpas > 21600. .AND. cycle_diurne) THEN |
|
|
print *, "Au minimum 4 appels par jour si cycle diurne" |
|
|
call abort_gcm('physiq', & |
|
|
"Nombre d'appels au rayonnement insuffisant", 1) |
|
|
ENDIF |
|
|
|
|
582 |
! Initialisation pour le sch\'ema de convection d'Emanuel : |
! Initialisation pour le sch\'ema de convection d'Emanuel : |
583 |
IF (iflag_con >= 3) THEN |
IF (iflag_con >= 3) THEN |
584 |
ibas_con = 1 |
ibas_con = 1 |
592 |
rugoro = 0. |
rugoro = 0. |
593 |
ENDIF |
ENDIF |
594 |
|
|
|
lmt_pas = NINT(86400. / dtphys) ! tous les jours |
|
|
print *, 'Number of time steps of "physics" per day: ', lmt_pas |
|
|
|
|
595 |
ecrit_ins = NINT(ecrit_ins/dtphys) |
ecrit_ins = NINT(ecrit_ins/dtphys) |
596 |
ecrit_hf = NINT(ecrit_hf/dtphys) |
ecrit_hf = NINT(ecrit_hf/dtphys) |
597 |
ecrit_mth = NINT(ecrit_mth/dtphys) |
ecrit_mth = NINT(ecrit_mth/dtphys) |
600 |
|
|
601 |
! Initialisation des sorties |
! Initialisation des sorties |
602 |
|
|
603 |
call ini_histins(dtphys, ok_instan, nid_ins) |
call ini_histins(dtphys, ok_instan, nid_ins, itau_phy) |
604 |
CALL ymds2ju(annee_ref, 1, day_ref, 0., date0) |
CALL ymds2ju(annee_ref, 1, day_ref, 0., date0) |
605 |
! Positionner date0 pour initialisation de ORCHIDEE |
! Positionner date0 pour initialisation de ORCHIDEE |
606 |
print *, 'physiq date0: ', date0 |
print *, 'physiq date0: ', date0 |
607 |
|
CALL phyredem0(lmt_pas, itau_phy) |
608 |
ENDIF test_firstcal |
ENDIF test_firstcal |
609 |
|
|
610 |
! We will modify variables *_seri and we will not touch variables |
! We will modify variables *_seri and we will not touch variables |
614 |
v_seri = v |
v_seri = v |
615 |
q_seri = qx(:, :, ivap) |
q_seri = qx(:, :, ivap) |
616 |
ql_seri = qx(:, :, iliq) |
ql_seri = qx(:, :, iliq) |
617 |
tr_seri = qx(:, :, 3: nqmx) |
tr_seri = qx(:, :, 3:nqmx) |
618 |
|
|
619 |
ztsol = sum(ftsol * pctsrf, dim = 2) |
ztsol = sum(ftsol * pctsrf, dim = 2) |
620 |
|
|
699 |
IF (cycle_diurne) THEN |
IF (cycle_diurne) THEN |
700 |
CALL zenang(longi, time, dtphys * radpas, mu0, fract) |
CALL zenang(longi, time, dtphys * radpas, mu0, fract) |
701 |
ELSE |
ELSE |
702 |
mu0 = -999.999 |
mu0 = - 999.999 |
703 |
ENDIF |
ENDIF |
704 |
|
|
705 |
! Calcul de l'abedo moyen par maille |
! Calcul de l'abedo moyen par maille |
706 |
albsol = sum(falbe * pctsrf, dim = 2) |
albsol = sum(falbe * pctsrf, dim = 2) |
|
albsollw = sum(falblw * pctsrf, dim = 2) |
|
707 |
|
|
708 |
! R\'epartition sous maille des flux longwave et shortwave |
! R\'epartition sous maille des flux longwave et shortwave |
709 |
! R\'epartition du longwave par sous-surface lin\'earis\'ee |
! R\'epartition du longwave par sous-surface lin\'earis\'ee |
719 |
! Couche limite: |
! Couche limite: |
720 |
|
|
721 |
CALL clmain(dtphys, itap, pctsrf, pctsrf_new, t_seri, q_seri, u_seri, & |
CALL clmain(dtphys, itap, pctsrf, pctsrf_new, t_seri, q_seri, u_seri, & |
722 |
v_seri, julien, mu0, co2_ppm, ftsol, cdmmax, cdhmax, & |
v_seri, julien, mu0, co2_ppm, ftsol, cdmmax, cdhmax, ksta, ksta_ter, & |
723 |
ksta, ksta_ter, ok_kzmin, ftsoil, qsol, paprs, play, fsnow, fqsurf, & |
ok_kzmin, ftsoil, qsol, paprs, play, fsnow, fqsurf, fevap, falbe, & |
724 |
fevap, falbe, falblw, fluxlat, rain_fall, snow_fall, fsolsw, fsollw, & |
fluxlat, rain_fall, snow_fall, fsolsw, fsollw, fder, rlat, frugs, & |
725 |
fder, rlat, frugs, firstcal, agesno, rugoro, d_t_vdf, d_q_vdf, & |
firstcal, agesno, rugoro, d_t_vdf, d_q_vdf, d_u_vdf, d_v_vdf, d_ts, & |
726 |
d_u_vdf, d_v_vdf, d_ts, fluxt, fluxq, fluxu, fluxv, cdragh, cdragm, & |
fluxt, fluxq, fluxu, fluxv, cdragh, cdragm, q2, dsens, devap, & |
727 |
q2, dsens, devap, ycoefh, yu1, yv1, t2m, q2m, u10m, v10m, pblh, & |
ycoefh, yu1, yv1, t2m, q2m, u10m, v10m, pblh, capCL, oliqCL, cteiCL, & |
728 |
capCL, oliqCL, cteiCL, pblT, therm, trmb1, trmb2, trmb3, plcl, & |
pblT, therm, trmb1, trmb2, trmb3, plcl, fqcalving, ffonte, & |
729 |
fqcalving, ffonte, run_off_lic_0, fluxo, fluxg, tslab) |
run_off_lic_0) |
730 |
|
|
731 |
! Incr\'ementation des flux |
! Incr\'ementation des flux |
732 |
|
|
861 |
conv_q = d_q_dyn + d_q_vdf / dtphys |
conv_q = d_q_dyn + d_q_vdf / dtphys |
862 |
conv_t = d_t_dyn + d_t_vdf / dtphys |
conv_t = d_t_dyn + d_t_vdf / dtphys |
863 |
z_avant = sum((q_seri + ql_seri) * zmasse, dim=2) |
z_avant = sum((q_seri + ql_seri) * zmasse, dim=2) |
864 |
CALL conflx(dtphys, paprs, play, t_seri(:, llm:1:-1), & |
CALL conflx(dtphys, paprs, play, t_seri(:, llm:1:- 1), & |
865 |
q_seri(:, llm:1:-1), conv_t, conv_q, zxfluxq(:, 1), omega, & |
q_seri(:, llm:1:- 1), conv_t, conv_q, zxfluxq(:, 1), omega, & |
866 |
d_t_con, d_q_con, rain_con, snow_con, mfu(:, llm:1:-1), & |
d_t_con, d_q_con, rain_con, snow_con, mfu(:, llm:1:- 1), & |
867 |
mfd(:, llm:1:-1), pen_u, pde_u, pen_d, pde_d, kcbot, kctop, & |
mfd(:, llm:1:- 1), pen_u, pde_u, pen_d, pde_d, kcbot, kctop, & |
868 |
kdtop, pmflxr, pmflxs) |
kdtop, pmflxr, pmflxs) |
869 |
WHERE (rain_con < 0.) rain_con = 0. |
WHERE (rain_con < 0.) rain_con = 0. |
870 |
WHERE (snow_con < 0.) snow_con = 0. |
WHERE (snow_con < 0.) snow_con = 0. |
1052 |
|
|
1053 |
! 1. NUAGES CONVECTIFS |
! 1. NUAGES CONVECTIFS |
1054 |
|
|
1055 |
IF (iflag_cldcon <= -1) THEN |
IF (iflag_cldcon <= - 1) THEN |
1056 |
! seulement pour Tiedtke |
! seulement pour Tiedtke |
1057 |
snow_tiedtke = 0. |
snow_tiedtke = 0. |
1058 |
if (iflag_cldcon == -1) then |
if (iflag_cldcon == - 1) then |
1059 |
rain_tiedtke = rain_con |
rain_tiedtke = rain_con |
1060 |
else |
else |
1061 |
rain_tiedtke = 0. |
rain_tiedtke = 0. |
1062 |
do k = 1, llm |
do k = 1, llm |
1063 |
do i = 1, klon |
do i = 1, klon |
1064 |
if (d_q_con(i, k) < 0.) then |
if (d_q_con(i, k) < 0.) then |
1065 |
rain_tiedtke(i) = rain_tiedtke(i)-d_q_con(i, k)/dtphys & |
rain_tiedtke(i) = rain_tiedtke(i) - d_q_con(i, k)/dtphys & |
1066 |
*zmasse(i, k) |
*zmasse(i, k) |
1067 |
endif |
endif |
1068 |
enddo |
enddo |
1132 |
IF (thermcep) THEN |
IF (thermcep) THEN |
1133 |
zx_qs = r2es * FOEEW(zx_t, rtt >= zx_t)/play(i, k) |
zx_qs = r2es * FOEEW(zx_t, rtt >= zx_t)/play(i, k) |
1134 |
zx_qs = MIN(0.5, zx_qs) |
zx_qs = MIN(0.5, zx_qs) |
1135 |
zcor = 1./(1.-retv*zx_qs) |
zcor = 1./(1. - retv*zx_qs) |
1136 |
zx_qs = zx_qs*zcor |
zx_qs = zx_qs*zcor |
1137 |
ELSE |
ELSE |
1138 |
IF (zx_t < t_coup) THEN |
IF (zx_t < t_coup) THEN |
1172 |
bl95_b1, cldtaupi, re, fl) |
bl95_b1, cldtaupi, re, fl) |
1173 |
endif |
endif |
1174 |
|
|
1175 |
IF (MOD(itaprad, radpas) == 0) THEN |
IF (MOD(itap - 1, radpas) == 0) THEN |
1176 |
! Appeler le rayonnement mais calculer tout d'abord l'albedo du sol. |
! Appeler le rayonnement mais calculer tout d'abord l'albedo du sol. |
1177 |
DO i = 1, klon |
! Calcul de l'abedo moyen par maille |
1178 |
albsol(i) = falbe(i, is_oce) * pctsrf(i, is_oce) & |
albsol = sum(falbe * pctsrf, dim = 2) |
1179 |
+ falbe(i, is_lic) * pctsrf(i, is_lic) & |
|
|
+ falbe(i, is_ter) * pctsrf(i, is_ter) & |
|
|
+ falbe(i, is_sic) * pctsrf(i, is_sic) |
|
|
albsollw(i) = falblw(i, is_oce) * pctsrf(i, is_oce) & |
|
|
+ falblw(i, is_lic) * pctsrf(i, is_lic) & |
|
|
+ falblw(i, is_ter) * pctsrf(i, is_ter) & |
|
|
+ falblw(i, is_sic) * pctsrf(i, is_sic) |
|
|
ENDDO |
|
1180 |
! Rayonnement (compatible Arpege-IFS) : |
! Rayonnement (compatible Arpege-IFS) : |
1181 |
CALL radlwsw(dist, mu0, fract, paprs, play, zxtsol, albsol, & |
CALL radlwsw(dist, mu0, fract, paprs, play, zxtsol, albsol, t_seri, & |
1182 |
albsollw, t_seri, q_seri, wo, cldfra, cldemi, cldtau, heat, & |
q_seri, wo, cldfra, cldemi, cldtau, heat, heat0, cool, cool0, & |
1183 |
heat0, cool, cool0, radsol, albpla, topsw, toplw, solsw, sollw, & |
radsol, albpla, topsw, toplw, solsw, sollw, sollwdown, topsw0, & |
1184 |
sollwdown, topsw0, toplw0, solsw0, sollw0, lwdn0, lwdn, lwup0, & |
toplw0, solsw0, sollw0, lwdn0, lwdn, lwup0, lwup, swdn0, swdn, & |
1185 |
lwup, swdn0, swdn, swup0, swup, ok_ade, ok_aie, tau_ae, piz_ae, & |
swup0, swup, ok_ade, ok_aie, tau_ae, piz_ae, cg_ae, topswad, & |
1186 |
cg_ae, topswad, solswad, cldtaupi, topswai, solswai) |
solswad, cldtaupi, topswai, solswai) |
|
itaprad = 0 |
|
1187 |
ENDIF |
ENDIF |
1188 |
|
|
|
itaprad = itaprad + 1 |
|
|
|
|
1189 |
! Ajouter la tendance des rayonnements (tous les pas) |
! Ajouter la tendance des rayonnements (tous les pas) |
1190 |
|
|
1191 |
DO k = 1, llm |
DO k = 1, llm |
1192 |
DO i = 1, klon |
DO i = 1, klon |
1193 |
t_seri(i, k) = t_seri(i, k) + (heat(i, k)-cool(i, k)) * dtphys/86400. |
t_seri(i, k) = t_seri(i, k) + (heat(i, k) - cool(i, k)) * dtphys/86400. |
1194 |
ENDDO |
ENDDO |
1195 |
ENDDO |
ENDDO |
1196 |
|
|
1223 |
! Param\'etrisation de l'orographie \`a l'\'echelle sous-maille : |
! Param\'etrisation de l'orographie \`a l'\'echelle sous-maille : |
1224 |
|
|
1225 |
IF (ok_orodr) THEN |
IF (ok_orodr) THEN |
1226 |
! selection des points pour lesquels le shema est actif: |
! S\'election des points pour lesquels le sch\'ema est actif : |
1227 |
igwd = 0 |
igwd = 0 |
1228 |
DO i = 1, klon |
DO i = 1, klon |
1229 |
itest(i) = 0 |
itest(i) = 0 |
1230 |
IF (((zpic(i)-zmea(i)) > 100.).AND.(zstd(i) > 10.)) THEN |
IF (zpic(i) - zmea(i) > 100. .AND. zstd(i) > 10.) THEN |
1231 |
itest(i) = 1 |
itest(i) = 1 |
1232 |
igwd = igwd + 1 |
igwd = igwd + 1 |
1233 |
idx(igwd) = i |
idx(igwd) = i |
1253 |
igwd = 0 |
igwd = 0 |
1254 |
DO i = 1, klon |
DO i = 1, klon |
1255 |
itest(i) = 0 |
itest(i) = 0 |
1256 |
IF ((zpic(i) - zmea(i)) > 100.) THEN |
IF (zpic(i) - zmea(i) > 100.) THEN |
1257 |
itest(i) = 1 |
itest(i) = 1 |
1258 |
igwd = igwd + 1 |
igwd = igwd + 1 |
1259 |
idx(igwd) = i |
idx(igwd) = i |
1289 |
ENDDO |
ENDDO |
1290 |
ENDDO |
ENDDO |
1291 |
|
|
1292 |
CALL aaam_bud(ra, rg, romega, rlat, rlon, pphis, zustrdr, zustrli, & |
CALL aaam_bud(rg, romega, rlat, rlon, pphis, zustrdr, zustrli, zustrph, & |
1293 |
zustrph, zvstrdr, zvstrli, zvstrph, paprs, u, v, aam, torsfc) |
zvstrdr, zvstrli, zvstrph, paprs, u, v, aam, torsfc) |
1294 |
|
|
1295 |
IF (if_ebil >= 2) CALL diagetpq(airephy, 'after orography', ip_ebil, 2, & |
IF (if_ebil >= 2) CALL diagetpq(airephy, 'after orography', ip_ebil, 2, & |
1296 |
2, dtphys, t_seri, q_seri, ql_seri, u_seri, v_seri, paprs, d_h_vcol, & |
2, dtphys, t_seri, q_seri, ql_seri, u_seri, v_seri, paprs, d_h_vcol, & |
1299 |
! Calcul des tendances traceurs |
! Calcul des tendances traceurs |
1300 |
call phytrac(itap, lmt_pas, julien, time, firstcal, lafin, dtphys, t, & |
call phytrac(itap, lmt_pas, julien, time, firstcal, lafin, dtphys, t, & |
1301 |
paprs, play, mfu, mfd, pde_u, pen_d, ycoefh, fm_therm, entr_therm, & |
paprs, play, mfu, mfd, pde_u, pen_d, ycoefh, fm_therm, entr_therm, & |
1302 |
yu1, yv1, ftsol, pctsrf, frac_impa, frac_nucl, pphis, da, phi, mp, & |
yu1, yv1, ftsol, pctsrf, frac_impa, frac_nucl, da, phi, mp, upwd, & |
1303 |
upwd, dnwd, tr_seri, zmasse) |
dnwd, tr_seri, zmasse, ncid_startphy, nid_ins, itau_phy) |
1304 |
|
|
1305 |
IF (offline) call phystokenc(dtphys, rlon, rlat, t, mfu, mfd, pen_u, & |
IF (offline) call phystokenc(dtphys, rlon, rlat, t, mfu, mfd, pen_u, & |
1306 |
pde_u, pen_d, pde_d, fm_therm, entr_therm, ycoefh, yu1, yv1, ftsol, & |
pde_u, pen_d, pde_d, fm_therm, entr_therm, ycoefh, yu1, yv1, ftsol, & |
1307 |
pctsrf, frac_impa, frac_nucl, pphis, airephy, dtphys, itap) |
pctsrf, frac_impa, frac_nucl, pphis, airephy, dtphys, itap) |
1308 |
|
|
1309 |
! Calculer le transport de l'eau et de l'energie (diagnostique) |
! Calculer le transport de l'eau et de l'energie (diagnostique) |
1310 |
CALL transp(paprs, zxtsol, t_seri, q_seri, u_seri, v_seri, zphi, ve, vq, & |
CALL transp(paprs, t_seri, q_seri, u_seri, v_seri, zphi, ve, vq, ue, uq) |
|
ue, uq) |
|
1311 |
|
|
1312 |
! diag. bilKP |
! diag. bilKP |
1313 |
|
|
1365 |
DO iq = 3, nqmx |
DO iq = 3, nqmx |
1366 |
DO k = 1, llm |
DO k = 1, llm |
1367 |
DO i = 1, klon |
DO i = 1, klon |
1368 |
d_qx(i, k, iq) = (tr_seri(i, k, iq-2) - qx(i, k, iq)) / dtphys |
d_qx(i, k, iq) = (tr_seri(i, k, iq - 2) - qx(i, k, iq)) / dtphys |
1369 |
ENDDO |
ENDDO |
1370 |
ENDDO |
ENDDO |
1371 |
ENDDO |
ENDDO |
1378 |
ENDDO |
ENDDO |
1379 |
ENDDO |
ENDDO |
1380 |
|
|
|
! Ecriture des sorties |
|
1381 |
call write_histins |
call write_histins |
1382 |
|
|
1383 |
! Si c'est la fin, il faut conserver l'etat de redemarrage |
IF (lafin) then |
1384 |
IF (lafin) THEN |
call NF95_CLOSE(ncid_startphy) |
1385 |
itau_phy = itau_phy + itap |
CALL phyredem(pctsrf, ftsol, ftsoil, fqsurf, qsol, & |
1386 |
CALL phyredem("restartphy.nc", pctsrf, ftsol, ftsoil, tslab, seaice, & |
fsnow, falbe, fevap, rain_fall, snow_fall, solsw, sollw, dlw, & |
1387 |
fqsurf, qsol, fsnow, falbe, falblw, fevap, rain_fall, snow_fall, & |
radsol, frugs, agesno, zmea, zstd, zsig, zgam, zthe, zpic, zval, & |
1388 |
solsw, sollw, dlw, radsol, frugs, agesno, zmea, zstd, zsig, zgam, & |
t_ancien, q_ancien, rnebcon, ratqs, clwcon, run_off_lic_0, sig1, & |
1389 |
zthe, zpic, zval, t_ancien, q_ancien, rnebcon, ratqs, clwcon, & |
w01) |
1390 |
run_off_lic_0, sig1, w01) |
end IF |
|
ENDIF |
|
1391 |
|
|
1392 |
firstcal = .FALSE. |
firstcal = .FALSE. |
1393 |
|
|
1397 |
|
|
1398 |
! From phylmd/write_histins.h, version 1.2 2005/05/25 13:10:09 |
! From phylmd/write_histins.h, version 1.2 2005/05/25 13:10:09 |
1399 |
|
|
1400 |
|
! Ecriture des sorties |
1401 |
|
|
1402 |
use dimens_m, only: iim, jjm |
use dimens_m, only: iim, jjm |
1403 |
USE histsync_m, ONLY: histsync |
USE histsync_m, ONLY: histsync |
1404 |
USE histwrite_m, ONLY: histwrite |
USE histwrite_m, ONLY: histwrite |
1405 |
|
|
1406 |
real zout |
integer i, itau_w ! pas de temps ecriture |
|
integer itau_w ! pas de temps ecriture |
|
1407 |
REAL zx_tmp_2d(iim, jjm + 1), zx_tmp_3d(iim, jjm + 1, llm) |
REAL zx_tmp_2d(iim, jjm + 1), zx_tmp_3d(iim, jjm + 1, llm) |
1408 |
|
|
1409 |
!-------------------------------------------------- |
!-------------------------------------------------- |
1411 |
IF (ok_instan) THEN |
IF (ok_instan) THEN |
1412 |
! Champs 2D: |
! Champs 2D: |
1413 |
|
|
|
zsto = dtphys * ecrit_ins |
|
|
zout = dtphys * ecrit_ins |
|
1414 |
itau_w = itau_phy + itap |
itau_w = itau_phy + itap |
1415 |
|
|
|
i = NINT(zout/zsto) |
|
1416 |
CALL gr_fi_ecrit(1, klon, iim, jjm + 1, pphis, zx_tmp_2d) |
CALL gr_fi_ecrit(1, klon, iim, jjm + 1, pphis, zx_tmp_2d) |
1417 |
CALL histwrite(nid_ins, "phis", itau_w, zx_tmp_2d) |
CALL histwrite(nid_ins, "phis", itau_w, zx_tmp_2d) |
1418 |
|
|
|
i = NINT(zout/zsto) |
|
1419 |
CALL gr_fi_ecrit(1, klon, iim, jjm + 1, airephy, zx_tmp_2d) |
CALL gr_fi_ecrit(1, klon, iim, jjm + 1, airephy, zx_tmp_2d) |
1420 |
CALL histwrite(nid_ins, "aire", itau_w, zx_tmp_2d) |
CALL histwrite(nid_ins, "aire", itau_w, zx_tmp_2d) |
1421 |
|
|
1485 |
CALL gr_fi_ecrit(1, klon, iim, jjm + 1, bils, zx_tmp_2d) |
CALL gr_fi_ecrit(1, klon, iim, jjm + 1, bils, zx_tmp_2d) |
1486 |
CALL histwrite(nid_ins, "bils", itau_w, zx_tmp_2d) |
CALL histwrite(nid_ins, "bils", itau_w, zx_tmp_2d) |
1487 |
|
|
1488 |
zx_tmp_fi2d(1:klon) = -1*sens(1:klon) |
zx_tmp_fi2d(1:klon) = - sens(1:klon) |
1489 |
! CALL gr_fi_ecrit(1, klon, iim, jjm + 1, sens, zx_tmp_2d) |
! CALL gr_fi_ecrit(1, klon, iim, jjm + 1, sens, zx_tmp_2d) |
1490 |
CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
1491 |
CALL histwrite(nid_ins, "sens", itau_w, zx_tmp_2d) |
CALL histwrite(nid_ins, "sens", itau_w, zx_tmp_2d) |
1547 |
CALL histwrite(nid_ins, "rugs_"//clnsurf(nsrf), itau_w, & |
CALL histwrite(nid_ins, "rugs_"//clnsurf(nsrf), itau_w, & |
1548 |
zx_tmp_2d) |
zx_tmp_2d) |
1549 |
|
|
1550 |
zx_tmp_fi2d(1 : klon) = falbe(1 : klon, nsrf) |
zx_tmp_fi2d(1 : klon) = falbe(:, nsrf) |
1551 |
CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zx_tmp_fi2d, zx_tmp_2d) |
1552 |
CALL histwrite(nid_ins, "albe_"//clnsurf(nsrf), itau_w, & |
CALL histwrite(nid_ins, "albe_"//clnsurf(nsrf), itau_w, & |
1553 |
zx_tmp_2d) |
zx_tmp_2d) |
1555 |
END DO |
END DO |
1556 |
CALL gr_fi_ecrit(1, klon, iim, jjm + 1, albsol, zx_tmp_2d) |
CALL gr_fi_ecrit(1, klon, iim, jjm + 1, albsol, zx_tmp_2d) |
1557 |
CALL histwrite(nid_ins, "albs", itau_w, zx_tmp_2d) |
CALL histwrite(nid_ins, "albs", itau_w, zx_tmp_2d) |
|
CALL gr_fi_ecrit(1, klon, iim, jjm + 1, albsollw, zx_tmp_2d) |
|
|
CALL histwrite(nid_ins, "albslw", itau_w, zx_tmp_2d) |
|
1558 |
|
|
1559 |
CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zxrugs, zx_tmp_2d) |
CALL gr_fi_ecrit(1, klon, iim, jjm + 1, zxrugs, zx_tmp_2d) |
1560 |
CALL histwrite(nid_ins, "rugs", itau_w, zx_tmp_2d) |
CALL histwrite(nid_ins, "rugs", itau_w, zx_tmp_2d) |