| 22 |
USE clesphys, ONLY: cdhmax, cdmmax, co2_ppm, ecrit_hf, ecrit_ins, & |
USE clesphys, ONLY: cdhmax, cdmmax, co2_ppm, ecrit_hf, ecrit_ins, & |
| 23 |
ecrit_mth, ecrit_reg, ecrit_tra, ksta, ksta_ter, ok_kzmin |
ecrit_mth, ecrit_reg, ecrit_tra, ksta, ksta_ter, ok_kzmin |
| 24 |
USE clesphys2, ONLY: cycle_diurne, iflag_con, nbapp_rad, new_oliq, & |
USE clesphys2, ONLY: cycle_diurne, iflag_con, nbapp_rad, new_oliq, & |
| 25 |
ok_orodr, ok_orolf, soil_model |
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 comgeomphy, ONLY: airephy, cuphy, cvphy |
USE comgeomphy, ONLY: airephy, cuphy, cvphy |
| 242 |
REAL, save:: fqsurf(klon, nbsrf) |
REAL, save:: fqsurf(klon, nbsrf) |
| 243 |
! humidite de l'air au contact de la surface |
! humidite de l'air au contact de la surface |
| 244 |
|
|
| 245 |
REAL, save:: qsol(klon) ! hauteur d'eau dans le sol |
REAL, save:: qsol(klon) |
| 246 |
|
! column-density of water in soil, in kg m-2 |
| 247 |
|
|
| 248 |
REAL, save:: fsnow(klon, nbsrf) ! epaisseur neigeuse |
REAL, save:: fsnow(klon, nbsrf) ! epaisseur neigeuse |
| 249 |
REAL, save:: falbe(klon, nbsrf) ! albedo par type de surface |
REAL, save:: falbe(klon, nbsrf) ! albedo par type de surface |
| 250 |
REAL, save:: falblw(klon, nbsrf) ! albedo par type de surface |
REAL, save:: falblw(klon, nbsrf) ! albedo par type de surface |
| 304 |
REAL frac_impa(klon, llm) ! fractions d'aerosols lessivees (impaction) |
REAL frac_impa(klon, llm) ! fractions d'aerosols lessivees (impaction) |
| 305 |
REAL frac_nucl(klon, llm) ! idem (nucleation) |
REAL frac_nucl(klon, llm) ! idem (nucleation) |
| 306 |
|
|
| 307 |
REAL, save:: rain_fall(klon) ! pluie |
REAL, save:: rain_fall(klon) |
| 308 |
REAL, save:: snow_fall(klon) ! neige |
! liquid water mass flux (kg/m2/s), positive down |
| 309 |
|
|
| 310 |
|
REAL, save:: snow_fall(klon) |
| 311 |
|
! solid water mass flux (kg/m2/s), positive down |
| 312 |
|
|
| 313 |
REAL rain_tiedtke(klon), snow_tiedtke(klon) |
REAL rain_tiedtke(klon), snow_tiedtke(klon) |
| 314 |
|
|
| 396 |
real zlongi |
real zlongi |
| 397 |
REAL z_avant(klon), z_apres(klon), z_factor(klon) |
REAL z_avant(klon), z_apres(klon), z_factor(klon) |
| 398 |
REAL za, zb |
REAL za, zb |
| 399 |
REAL zx_t, zx_qs, zdelta, zcor |
REAL zx_t, zx_qs, zcor |
| 400 |
real zqsat(klon, llm) |
real zqsat(klon, llm) |
| 401 |
INTEGER i, k, iq, nsrf |
INTEGER i, k, iq, nsrf |
| 402 |
REAL, PARAMETER:: t_coup = 234. |
REAL, PARAMETER:: t_coup = 234. |
| 743 |
julien = MOD(NINT(rdayvrai), 360) |
julien = MOD(NINT(rdayvrai), 360) |
| 744 |
if (julien == 0) julien = 360 |
if (julien == 0) julien = 360 |
| 745 |
|
|
| 746 |
forall (k = 1: llm) zmasse(:, k) = (paprs(:, k)-paprs(:, k + 1)) / rg |
forall (k = 1: llm) zmasse(:, k) = (paprs(:, k) - paprs(:, k + 1)) / rg |
| 747 |
|
|
| 748 |
! Prescrire l'ozone : |
! Prescrire l'ozone : |
| 749 |
wo = ozonecm(REAL(julien), paprs) |
wo = ozonecm(REAL(julien), paprs) |
| 797 |
! Couche limite: |
! Couche limite: |
| 798 |
|
|
| 799 |
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, & |
| 800 |
v_seri, julien, rmu0, co2_ppm, ftsol, soil_model, & |
v_seri, julien, rmu0, co2_ppm, ftsol, cdmmax, cdhmax, & |
| 801 |
cdmmax, cdhmax, ksta, ksta_ter, ok_kzmin, ftsoil, qsol, paprs, play, & |
ksta, ksta_ter, ok_kzmin, ftsoil, qsol, paprs, play, fsnow, fqsurf, & |
| 802 |
fsnow, fqsurf, fevap, falbe, falblw, fluxlat, rain_fall, snow_fall, & |
fevap, falbe, falblw, fluxlat, rain_fall, snow_fall, fsolsw, fsollw, & |
| 803 |
fsolsw, fsollw, fder, rlat, frugs, firstcal, agesno, rugoro, & |
fder, rlat, frugs, firstcal, agesno, rugoro, d_t_vdf, d_q_vdf, & |
| 804 |
d_t_vdf, d_q_vdf, d_u_vdf, d_v_vdf, d_ts, fluxt, fluxq, fluxu, & |
d_u_vdf, d_v_vdf, d_ts, fluxt, fluxq, fluxu, fluxv, cdragh, cdragm, & |
| 805 |
fluxv, cdragh, cdragm, q2, dsens, devap, ycoefh, yu1, yv1, t2m, q2m, & |
q2, dsens, devap, ycoefh, yu1, yv1, t2m, q2m, u10m, v10m, pblh, & |
| 806 |
u10m, v10m, pblh, capCL, oliqCL, cteiCL, pblT, therm, trmb1, trmb2, & |
capCL, oliqCL, cteiCL, pblT, therm, trmb1, trmb2, trmb3, plcl, & |
| 807 |
trmb3, plcl, fqcalving, ffonte, run_off_lic_0, fluxo, fluxg, tslab, & |
fqcalving, ffonte, run_off_lic_0, fluxo, fluxg, tslab) |
|
seaice) |
|
| 808 |
|
|
| 809 |
! Incr\'ementation des flux |
! Incr\'ementation des flux |
| 810 |
|
|
| 931 |
dlw(i) = - 4. * RSIGMA * zxtsol(i)**3 |
dlw(i) = - 4. * RSIGMA * zxtsol(i)**3 |
| 932 |
ENDDO |
ENDDO |
| 933 |
|
|
|
! Appeler la convection (au choix) |
|
|
|
|
|
DO k = 1, llm |
|
|
DO i = 1, klon |
|
|
conv_q(i, k) = d_q_dyn(i, k) + d_q_vdf(i, k) / dtphys |
|
|
conv_t(i, k) = d_t_dyn(i, k) + d_t_vdf(i, k) / dtphys |
|
|
ENDDO |
|
|
ENDDO |
|
|
|
|
| 934 |
IF (check) print *, "avantcon = ", qcheck(paprs, q_seri, ql_seri) |
IF (check) print *, "avantcon = ", qcheck(paprs, q_seri, ql_seri) |
| 935 |
|
|
| 936 |
|
! Appeler la convection (au choix) |
| 937 |
|
|
| 938 |
if (iflag_con == 2) then |
if (iflag_con == 2) then |
| 939 |
|
conv_q = d_q_dyn + d_q_vdf / dtphys |
| 940 |
|
conv_t = d_t_dyn + d_t_vdf / dtphys |
| 941 |
z_avant = sum((q_seri + ql_seri) * zmasse, dim=2) |
z_avant = sum((q_seri + ql_seri) * zmasse, dim=2) |
| 942 |
CALL conflx(dtphys, paprs, play, t_seri(:, llm:1:-1), & |
CALL conflx(dtphys, paprs, play, t_seri(:, llm:1:-1), & |
| 943 |
q_seri(:, llm:1:-1), conv_t, conv_q, zxfluxq(:, 1), omega, & |
q_seri(:, llm:1:-1), conv_t, conv_q, zxfluxq(:, 1), omega, & |
| 962 |
mfu = upwd + dnwd |
mfu = upwd + dnwd |
| 963 |
IF (.NOT. ok_gust) wd = 0. |
IF (.NOT. ok_gust) wd = 0. |
| 964 |
|
|
| 965 |
! Calcul des propri\'et\'es des nuages convectifs |
IF (thermcep) THEN |
| 966 |
|
zqsat = MIN(0.5, r2es * FOEEW(t_seri, rtt >= t_seri) / play) |
| 967 |
DO k = 1, llm |
zqsat = zqsat / (1. - retv * zqsat) |
| 968 |
DO i = 1, klon |
ELSE |
| 969 |
IF (thermcep) THEN |
zqsat = merge(qsats(t_seri), qsatl(t_seri), t_seri < t_coup) / play |
| 970 |
zdelta = MAX(0., SIGN(1., rtt - t_seri(i, k))) |
ENDIF |
|
zqsat(i, k) = r2es * FOEEW(t_seri(i, k), zdelta) / play(i, k) |
|
|
zqsat(i, k) = MIN(0.5, zqsat(i, k)) |
|
|
zqsat(i, k) = zqsat(i, k) / (1.-retv*zqsat(i, k)) |
|
|
ELSE |
|
|
IF (t_seri(i, k) < t_coup) THEN |
|
|
zqsat(i, k) = qsats(t_seri(i, k))/play(i, k) |
|
|
ELSE |
|
|
zqsat(i, k) = qsatl(t_seri(i, k))/play(i, k) |
|
|
ENDIF |
|
|
ENDIF |
|
|
ENDDO |
|
|
ENDDO |
|
| 971 |
|
|
| 972 |
! calcul des proprietes des nuages convectifs |
! Properties of convective clouds |
| 973 |
clwcon0 = fact_cldcon * clwcon0 |
clwcon0 = fact_cldcon * clwcon0 |
| 974 |
call clouds_gno(klon, llm, q_seri, zqsat, clwcon0, ptconv, ratqsc, & |
call clouds_gno(klon, llm, q_seri, zqsat, clwcon0, ptconv, ratqsc, & |
| 975 |
rnebcon0) |
rnebcon0) |
| 1208 |
DO i = 1, klon |
DO i = 1, klon |
| 1209 |
zx_t = t_seri(i, k) |
zx_t = t_seri(i, k) |
| 1210 |
IF (thermcep) THEN |
IF (thermcep) THEN |
| 1211 |
zdelta = MAX(0., SIGN(1., rtt-zx_t)) |
zx_qs = r2es * FOEEW(zx_t, rtt >= zx_t)/play(i, k) |
|
zx_qs = r2es * FOEEW(zx_t, zdelta)/play(i, k) |
|
| 1212 |
zx_qs = MIN(0.5, zx_qs) |
zx_qs = MIN(0.5, zx_qs) |
| 1213 |
zcor = 1./(1.-retv*zx_qs) |
zcor = 1./(1.-retv*zx_qs) |
| 1214 |
zx_qs = zx_qs*zcor |
zx_qs = zx_qs*zcor |
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