| 4 |
|
|
| 5 |
contains |
contains |
| 6 |
|
|
| 7 |
SUBROUTINE clmain(dtime, pctsrf, t, q, u, v, jour, rmu0, ts, cdmmax, & |
SUBROUTINE clmain(dtime, pctsrf, t, q, u, v, jour, mu0, ftsol, cdmmax, & |
| 8 |
cdhmax, ksta, ksta_ter, ok_kzmin, ftsoil, qsol, paprs, pplay, snow, & |
cdhmax, ksta, ksta_ter, ok_kzmin, ftsoil, qsol, paprs, pplay, snow, & |
| 9 |
qsurf, evap, falbe, fluxlat, rain_fall, snow_f, solsw, sollw, fder, & |
qsurf, evap, falbe, fluxlat, rain_fall, snow_f, solsw, sollw, fder, & |
| 10 |
rlat, rugos, agesno, rugoro, d_t, d_q, d_u, d_v, d_ts, flux_t, flux_q, & |
rugos, agesno, rugoro, d_t, d_q, d_u, d_v, d_ts, flux_t, flux_q, & |
| 11 |
flux_u, flux_v, cdragh, cdragm, q2, dflux_t, dflux_q, ycoefh, zu1, & |
flux_u, flux_v, cdragh, cdragm, q2, dflux_t, dflux_q, ycoefh, zu1, & |
| 12 |
zv1, t2m, q2m, u10m, v10m, pblh, capcl, oliqcl, cteicl, pblt, therm, & |
zv1, t2m, q2m, u10m, v10m, pblh, capcl, oliqcl, cteicl, pblt, therm, & |
| 13 |
trmb1, trmb2, trmb3, plcl, fqcalving, ffonte, run_off_lic_0) |
trmb1, trmb2, trmb3, plcl, fqcalving, ffonte, run_off_lic_0) |
| 53 |
REAL, INTENT(IN):: q(klon, klev) ! vapeur d'eau (kg/kg) |
REAL, INTENT(IN):: q(klon, klev) ! vapeur d'eau (kg/kg) |
| 54 |
REAL, INTENT(IN):: u(klon, klev), v(klon, klev) ! vitesse |
REAL, INTENT(IN):: u(klon, klev), v(klon, klev) ! vitesse |
| 55 |
INTEGER, INTENT(IN):: jour ! jour de l'annee en cours |
INTEGER, INTENT(IN):: jour ! jour de l'annee en cours |
| 56 |
REAL, intent(in):: rmu0(klon) ! cosinus de l'angle solaire zenithal |
REAL, intent(in):: mu0(klon) ! cosinus de l'angle solaire zenithal |
| 57 |
REAL, INTENT(IN):: ts(klon, nbsrf) ! temperature du sol (en Kelvin) |
REAL, INTENT(IN):: ftsol(klon, nbsrf) ! temp\'erature du sol (en K) |
| 58 |
REAL, INTENT(IN):: cdmmax, cdhmax ! seuils cdrm, cdrh |
REAL, INTENT(IN):: cdmmax, cdhmax ! seuils cdrm, cdrh |
| 59 |
REAL, INTENT(IN):: ksta, ksta_ter |
REAL, INTENT(IN):: ksta, ksta_ter |
| 60 |
LOGICAL, INTENT(IN):: ok_kzmin |
LOGICAL, INTENT(IN):: ok_kzmin |
| 71 |
REAL qsurf(klon, nbsrf) |
REAL qsurf(klon, nbsrf) |
| 72 |
REAL evap(klon, nbsrf) |
REAL evap(klon, nbsrf) |
| 73 |
REAL, intent(inout):: falbe(klon, nbsrf) |
REAL, intent(inout):: falbe(klon, nbsrf) |
| 74 |
|
REAL, intent(out):: fluxlat(:, :) ! (klon, nbsrf) |
|
REAL fluxlat(klon, nbsrf) |
|
| 75 |
|
|
| 76 |
REAL, intent(in):: rain_fall(klon) |
REAL, intent(in):: rain_fall(klon) |
| 77 |
! liquid water mass flux (kg/m2/s), positive down |
! liquid water mass flux (kg/m2/s), positive down |
| 81 |
|
|
| 82 |
REAL, INTENT(IN):: solsw(klon, nbsrf), sollw(klon, nbsrf) |
REAL, INTENT(IN):: solsw(klon, nbsrf), sollw(klon, nbsrf) |
| 83 |
REAL, intent(in):: fder(klon) |
REAL, intent(in):: fder(klon) |
|
REAL, INTENT(IN):: rlat(klon) ! latitude en degr\'es |
|
|
|
|
| 84 |
REAL, intent(inout):: rugos(klon, nbsrf) ! longueur de rugosit\'e (en m) |
REAL, intent(inout):: rugos(klon, nbsrf) ! longueur de rugosit\'e (en m) |
|
|
|
| 85 |
real agesno(klon, nbsrf) |
real agesno(klon, nbsrf) |
| 86 |
REAL, INTENT(IN):: rugoro(klon) |
REAL, INTENT(IN):: rugoro(klon) |
| 87 |
|
|
| 92 |
REAL, intent(out):: d_u(klon, klev), d_v(klon, klev) |
REAL, intent(out):: d_u(klon, klev), d_v(klon, klev) |
| 93 |
! changement pour "u" et "v" |
! changement pour "u" et "v" |
| 94 |
|
|
| 95 |
REAL, intent(out):: d_ts(klon, nbsrf) ! le changement pour "ts" |
REAL, intent(out):: d_ts(klon, nbsrf) ! le changement pour ftsol |
| 96 |
|
|
| 97 |
|
REAL, intent(out):: flux_t(klon, nbsrf) |
| 98 |
|
! flux de chaleur sensible (Cp T) (W/m2) (orientation positive vers |
| 99 |
|
! le bas) à la surface |
| 100 |
|
|
| 101 |
|
REAL, intent(out):: flux_q(klon, nbsrf) |
| 102 |
|
! flux de vapeur d'eau (kg/m2/s) à la surface |
| 103 |
|
|
| 104 |
REAL flux_t(klon, klev, nbsrf), flux_q(klon, klev, nbsrf) |
REAL, intent(out):: flux_u(klon, nbsrf), flux_v(klon, nbsrf) |
| 105 |
! flux_t---output-R- flux de chaleur sensible (CpT) J/m**2/s (W/m**2) |
! tension du vent à la surface, en Pa |
|
! (orientation positive vers le bas) |
|
|
! flux_q---output-R- flux de vapeur d'eau (kg/m**2/s) |
|
|
|
|
|
REAL flux_u(klon, klev, nbsrf), flux_v(klon, klev, nbsrf) |
|
|
! flux_u---output-R- tension du vent X: (kg m/s)/(m**2 s) ou Pascal |
|
|
! flux_v---output-R- tension du vent Y: (kg m/s)/(m**2 s) ou Pascal |
|
| 106 |
|
|
| 107 |
REAL, INTENT(out):: cdragh(klon), cdragm(klon) |
REAL, INTENT(out):: cdragh(klon), cdragm(klon) |
| 108 |
real q2(klon, klev+1, nbsrf) |
real q2(klon, klev+1, nbsrf) |
| 151 |
|
|
| 152 |
REAL y_fqcalving(klon), y_ffonte(klon) |
REAL y_fqcalving(klon), y_ffonte(klon) |
| 153 |
real y_run_off_lic_0(klon) |
real y_run_off_lic_0(klon) |
|
|
|
| 154 |
REAL rugmer(klon) |
REAL rugmer(klon) |
|
|
|
| 155 |
REAL ytsoil(klon, nsoilmx) |
REAL ytsoil(klon, nsoilmx) |
|
|
|
| 156 |
REAL yts(klon), yrugos(klon), ypct(klon), yz0_new(klon) |
REAL yts(klon), yrugos(klon), ypct(klon), yz0_new(klon) |
| 157 |
REAL yalb(klon) |
REAL yalb(klon) |
| 158 |
REAL yu1(klon), yv1(klon) |
REAL yu1(klon), yv1(klon) |
| 171 |
|
|
| 172 |
REAL yfder(klon) |
REAL yfder(klon) |
| 173 |
REAL yrugm(klon), yrads(klon), yrugoro(klon) |
REAL yrugm(klon), yrads(klon), yrugoro(klon) |
|
|
|
| 174 |
REAL yfluxlat(klon) |
REAL yfluxlat(klon) |
|
|
|
| 175 |
REAL y_d_ts(klon) |
REAL y_d_ts(klon) |
| 176 |
REAL y_d_t(klon, klev), y_d_q(klon, klev) |
REAL y_d_t(klon, klev), y_d_q(klon, klev) |
| 177 |
REAL y_d_u(klon, klev), y_d_v(klon, klev) |
REAL y_d_u(klon, klev), y_d_v(klon, klev) |
| 178 |
REAL y_flux_t(klon, klev), y_flux_q(klon, klev) |
REAL y_flux_t(klon), y_flux_q(klon) |
| 179 |
REAL y_flux_u(klon, klev), y_flux_v(klon, klev) |
REAL y_flux_u(klon), y_flux_v(klon) |
| 180 |
REAL y_dflux_t(klon), y_dflux_q(klon) |
REAL y_dflux_t(klon), y_dflux_q(klon) |
| 181 |
REAL coefh(klon, klev), coefm(klon, klev) |
REAL coefh(klon, klev), coefm(klon, klev) |
| 182 |
REAL yu(klon, klev), yv(klon, klev) |
REAL yu(klon, klev), yv(klon, klev) |
| 270 |
yv = 0. |
yv = 0. |
| 271 |
yt = 0. |
yt = 0. |
| 272 |
yq = 0. |
yq = 0. |
|
y_flux_u = 0. |
|
|
y_flux_v = 0. |
|
| 273 |
y_dflux_t = 0. |
y_dflux_t = 0. |
| 274 |
y_dflux_q = 0. |
y_dflux_q = 0. |
|
ytsoil = 999999. |
|
| 275 |
yrugoro = 0. |
yrugoro = 0. |
| 276 |
d_ts = 0. |
d_ts = 0. |
|
yfluxlat = 0. |
|
| 277 |
flux_t = 0. |
flux_t = 0. |
| 278 |
flux_q = 0. |
flux_q = 0. |
| 279 |
flux_u = 0. |
flux_u = 0. |
| 280 |
flux_v = 0. |
flux_v = 0. |
| 281 |
|
fluxlat = 0. |
| 282 |
d_t = 0. |
d_t = 0. |
| 283 |
d_q = 0. |
d_q = 0. |
| 284 |
d_u = 0. |
d_u = 0. |
| 318 |
DO j = 1, knon |
DO j = 1, knon |
| 319 |
i = ni(j) |
i = ni(j) |
| 320 |
ypct(j) = pctsrf(i, nsrf) |
ypct(j) = pctsrf(i, nsrf) |
| 321 |
yts(j) = ts(i, nsrf) |
yts(j) = ftsol(i, nsrf) |
| 322 |
ysnow(j) = snow(i, nsrf) |
ysnow(j) = snow(i, nsrf) |
| 323 |
yqsurf(j) = qsurf(i, nsrf) |
yqsurf(j) = qsurf(i, nsrf) |
| 324 |
yalb(j) = falbe(i, nsrf) |
yalb(j) = falbe(i, nsrf) |
| 342 |
yqsol = 0. |
yqsol = 0. |
| 343 |
END IF |
END IF |
| 344 |
|
|
| 345 |
DO k = 1, nsoilmx |
ytsoil(:knon, :) = ftsoil(ni(:knon), :, nsrf) |
|
DO j = 1, knon |
|
|
i = ni(j) |
|
|
ytsoil(j, k) = ftsoil(i, k, nsrf) |
|
|
END DO |
|
|
END DO |
|
| 346 |
|
|
| 347 |
DO k = 1, klev |
DO k = 1, klev |
| 348 |
DO j = 1, knon |
DO j = 1, knon |
| 358 |
END DO |
END DO |
| 359 |
|
|
| 360 |
! calculer Cdrag et les coefficients d'echange |
! calculer Cdrag et les coefficients d'echange |
| 361 |
CALL coefkz(nsrf, knon, ypaprs, ypplay, ksta, ksta_ter, yts, yrugos, & |
CALL coefkz(nsrf, ypaprs, ypplay, ksta, ksta_ter, yts, yrugos, yu, & |
| 362 |
yu, yv, yt, yq, yqsurf, coefm(:knon, :), coefh(:knon, :)) |
yv, yt, yq, yqsurf, coefm(:knon, :), coefh(:knon, :)) |
| 363 |
IF (iflag_pbl == 1) THEN |
IF (iflag_pbl == 1) THEN |
| 364 |
CALL coefkz2(nsrf, knon, ypaprs, ypplay, yt, ycoefm0, ycoefh0) |
CALL coefkz2(nsrf, knon, ypaprs, ypplay, yt, ycoefm0, ycoefh0) |
| 365 |
coefm(:knon, :) = max(coefm(:knon, :), ycoefm0(:knon, :)) |
coefm(:knon, :) = max(coefm(:knon, :), ycoefm0(:knon, :)) |
| 429 |
|
|
| 430 |
! calculer la diffusion des vitesses "u" et "v" |
! calculer la diffusion des vitesses "u" et "v" |
| 431 |
CALL clvent(knon, dtime, yu1, yv1, coefm(:knon, :), yt, yu, ypaprs, & |
CALL clvent(knon, dtime, yu1, yv1, coefm(:knon, :), yt, yu, ypaprs, & |
| 432 |
ypplay, ydelp, y_d_u, y_flux_u) |
ypplay, ydelp, y_d_u, y_flux_u(:knon)) |
| 433 |
CALL clvent(knon, dtime, yu1, yv1, coefm(:knon, :), yt, yv, ypaprs, & |
CALL clvent(knon, dtime, yu1, yv1, coefm(:knon, :), yt, yv, ypaprs, & |
| 434 |
ypplay, ydelp, y_d_v, y_flux_v) |
ypplay, ydelp, y_d_v, y_flux_v(:knon)) |
| 435 |
|
|
| 436 |
! calculer la diffusion de "q" et de "h" |
! calculer la diffusion de "q" et de "h" |
| 437 |
CALL clqh(dtime, jour, firstcal, rlat, knon, nsrf, ni(:knon), & |
CALL clqh(dtime, jour, firstcal, nsrf, ni(:knon), ytsoil(:knon, :), & |
| 438 |
ytsoil, yqsol, rmu0, yrugos, yrugoro, yu1, yv1, & |
yqsol, mu0, yrugos, yrugoro, yu1, yv1, coefh(:knon, :), yt, & |
| 439 |
coefh(:knon, :), yt, yq, yts, ypaprs, ypplay, ydelp, yrads, & |
yq, yts(:knon), ypaprs, ypplay, ydelp, yrads, yalb(:knon), & |
| 440 |
yalb(:knon), ysnow, yqsurf, yrain_f, ysnow_f, yfder, yfluxlat, & |
ysnow, yqsurf, yrain_f, ysnow_f, yfder, yfluxlat(:knon), & |
| 441 |
pctsrf_new_sic, yagesno(:knon), y_d_t, y_d_q, y_d_ts(:knon), & |
pctsrf_new_sic, yagesno(:knon), y_d_t, y_d_q, y_d_ts(:knon), & |
| 442 |
yz0_new, y_flux_t, y_flux_q, y_dflux_t, y_dflux_q, & |
yz0_new, y_flux_t(:knon), y_flux_q(:knon), y_dflux_t, & |
| 443 |
y_fqcalving, y_ffonte, y_run_off_lic_0) |
y_dflux_q, y_fqcalving, y_ffonte, y_run_off_lic_0) |
| 444 |
|
|
| 445 |
! calculer la longueur de rugosite sur ocean |
! calculer la longueur de rugosite sur ocean |
| 446 |
yrugm = 0. |
yrugm = 0. |
| 465 |
coefm(j, k) = coefm(j, k)*ypct(j) |
coefm(j, k) = coefm(j, k)*ypct(j) |
| 466 |
y_d_t(j, k) = y_d_t(j, k)*ypct(j) |
y_d_t(j, k) = y_d_t(j, k)*ypct(j) |
| 467 |
y_d_q(j, k) = y_d_q(j, k)*ypct(j) |
y_d_q(j, k) = y_d_q(j, k)*ypct(j) |
|
flux_t(i, k, nsrf) = y_flux_t(j, k) |
|
|
flux_q(i, k, nsrf) = y_flux_q(j, k) |
|
|
flux_u(i, k, nsrf) = y_flux_u(j, k) |
|
|
flux_v(i, k, nsrf) = y_flux_v(j, k) |
|
| 468 |
y_d_u(j, k) = y_d_u(j, k)*ypct(j) |
y_d_u(j, k) = y_d_u(j, k)*ypct(j) |
| 469 |
y_d_v(j, k) = y_d_v(j, k)*ypct(j) |
y_d_v(j, k) = y_d_v(j, k)*ypct(j) |
| 470 |
END DO |
END DO |
| 471 |
END DO |
END DO |
| 472 |
|
|
| 473 |
evap(:, nsrf) = -flux_q(:, 1, nsrf) |
flux_t(ni(:knon), nsrf) = y_flux_t(:knon) |
| 474 |
|
flux_q(ni(:knon), nsrf) = y_flux_q(:knon) |
| 475 |
|
flux_u(ni(:knon), nsrf) = y_flux_u(:knon) |
| 476 |
|
flux_v(ni(:knon), nsrf) = y_flux_v(:knon) |
| 477 |
|
|
| 478 |
|
evap(:, nsrf) = -flux_q(:, nsrf) |
| 479 |
|
|
| 480 |
falbe(:, nsrf) = 0. |
falbe(:, nsrf) = 0. |
| 481 |
snow(:, nsrf) = 0. |
snow(:, nsrf) = 0. |
| 482 |
qsurf(:, nsrf) = 0. |
qsurf(:, nsrf) = 0. |
| 483 |
rugos(:, nsrf) = 0. |
rugos(:, nsrf) = 0. |
|
fluxlat(:, nsrf) = 0. |
|
| 484 |
DO j = 1, knon |
DO j = 1, knon |
| 485 |
i = ni(j) |
i = ni(j) |
| 486 |
d_ts(i, nsrf) = y_d_ts(j) |
d_ts(i, nsrf) = y_d_ts(j) |
| 513 |
END IF |
END IF |
| 514 |
|
|
| 515 |
ftsoil(:, :, nsrf) = 0. |
ftsoil(:, :, nsrf) = 0. |
| 516 |
DO k = 1, nsoilmx |
ftsoil(ni(:knon), :, nsrf) = ytsoil(:knon, :) |
|
DO j = 1, knon |
|
|
i = ni(j) |
|
|
ftsoil(i, k, nsrf) = ytsoil(j, k) |
|
|
END DO |
|
|
END DO |
|
| 517 |
|
|
| 518 |
DO j = 1, knon |
DO j = 1, knon |
| 519 |
i = ni(j) |
i = ni(j) |
| 559 |
! u10m, v10m : composantes du vent a 10m sans spirale de Ekman |
! u10m, v10m : composantes du vent a 10m sans spirale de Ekman |
| 560 |
u10m(i, nsrf) = (yu10m(j)*uzon(j))/sqrt(uzon(j)**2+vmer(j)**2) |
u10m(i, nsrf) = (yu10m(j)*uzon(j))/sqrt(uzon(j)**2+vmer(j)**2) |
| 561 |
v10m(i, nsrf) = (yu10m(j)*vmer(j))/sqrt(uzon(j)**2+vmer(j)**2) |
v10m(i, nsrf) = (yu10m(j)*vmer(j))/sqrt(uzon(j)**2+vmer(j)**2) |
|
|
|
| 562 |
END DO |
END DO |
| 563 |
|
|
| 564 |
CALL hbtm(knon, ypaprs, ypplay, yt2m, yq2m, yustar, y_flux_t, & |
CALL hbtm(ypaprs, ypplay, yt2m, yq2m, yustar, y_flux_t(:knon), & |
| 565 |
y_flux_q, yu, yv, yt, yq, ypblh(:knon), ycapcl, yoliqcl, & |
y_flux_q(:knon), yu, yv, yt, yq, ypblh(:knon), ycapcl, & |
| 566 |
ycteicl, ypblt, ytherm, ytrmb1, ytrmb2, ytrmb3, ylcl) |
yoliqcl, ycteicl, ypblt, ytherm, ytrmb1, ytrmb2, ytrmb3, ylcl) |
| 567 |
|
|
| 568 |
DO j = 1, knon |
DO j = 1, knon |
| 569 |
i = ni(j) |
i = ni(j) |
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