| 5 |
contains |
contains |
| 6 |
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|
| 7 |
SUBROUTINE clqh(dtime, julien, debut, nisurf, knindex, tsoil, qsol, rmu0, & |
SUBROUTINE clqh(dtime, julien, debut, nisurf, knindex, tsoil, qsol, rmu0, & |
| 8 |
rugos, rugoro, u1lay, v1lay, coef, t, q, ts, paprs, pplay, delp, & |
rugos, rugoro, u1lay, v1lay, coef, tq_cdrag, t, q, ts, paprs, pplay, & |
| 9 |
radsol, albedo, snow, qsurf, precip_rain, precip_snow, fluxlat, & |
delp, radsol, albedo, snow, qsurf, precip_rain, precip_snow, fluxlat, & |
| 10 |
pctsrf_new_sic, agesno, d_t, d_q, d_ts, z0_new, flux_t, flux_q, & |
pctsrf_new_sic, agesno, d_t, d_q, d_ts, z0_new, flux_t, flux_q, & |
| 11 |
dflux_s, dflux_l, fqcalving, ffonte, run_off_lic_0) |
dflux_s, dflux_l, fqcalving, ffonte, run_off_lic_0) |
| 12 |
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|
| 13 |
! Author: Z. X. Li (LMD/CNRS) |
! Author: Z. X. Li (LMD/CNRS) |
| 14 |
! Date: 1993/08/18 |
! Date: 1993 Aug. 18th |
| 15 |
! Objet : diffusion verticale de "q" et de "h" |
! Objet : diffusion verticale de "q" et de "h" |
| 16 |
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| 17 |
USE conf_phys_m, ONLY: iflag_pbl |
USE conf_phys_m, ONLY: iflag_pbl |
| 36 |
REAL, intent(in):: u1lay(:), v1lay(:) ! (knon) |
REAL, intent(in):: u1lay(:), v1lay(:) ! (knon) |
| 37 |
! vitesse de la 1ere couche (m / s) |
! vitesse de la 1ere couche (m / s) |
| 38 |
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| 39 |
REAL, intent(in):: coef(:, :) ! (knon, klev) |
REAL, intent(in):: coef(:, 2:) ! (knon, 2:klev) |
| 40 |
! Le coefficient d'echange (m**2 / s) multiplie par le cisaillement |
! Le coefficient d'echange (m**2 / s) multiplie par le cisaillement |
| 41 |
! du vent (dV / dz). La premiere valeur indique la valeur de Cdrag |
! du vent (dV / dz) |
| 42 |
! (sans unite). |
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| 43 |
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REAL, intent(in):: tq_cdrag(:) ! (knon) sans unite |
| 44 |
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| 45 |
REAL t(klon, klev) ! temperature (K) |
REAL t(klon, klev) ! temperature (K) |
| 46 |
REAL q(klon, klev) ! humidite specifique (kg / kg) |
REAL q(klon, klev) ! humidite specifique (kg / kg) |
| 49 |
REAL pplay(klon, klev) ! pression au milieu de couche (Pa) |
REAL pplay(klon, klev) ! pression au milieu de couche (Pa) |
| 50 |
REAL delp(klon, klev) ! epaisseur de couche en pression (Pa) |
REAL delp(klon, klev) ! epaisseur de couche en pression (Pa) |
| 51 |
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| 52 |
REAL, intent(inout):: radsol(:) ! (knon) |
REAL, intent(in):: radsol(:) ! (knon) |
| 53 |
! rayonnement net au sol (Solaire + IR) W / m2 |
! rayonnement net au sol (Solaire + IR) W / m2 |
| 54 |
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| 55 |
REAL, intent(inout):: albedo(:) ! (knon) albedo de la surface |
REAL, intent(inout):: albedo(:) ! (knon) albedo de la surface |
| 80 |
REAL dflux_s(:) ! (knon) derivee du flux sensible dF / dTs |
REAL dflux_s(:) ! (knon) derivee du flux sensible dF / dTs |
| 81 |
REAL dflux_l(:) ! (knon) derivee du flux latent dF / dTs |
REAL dflux_l(:) ! (knon) derivee du flux latent dF / dTs |
| 82 |
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| 83 |
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REAL, intent(out):: fqcalving(:) ! (knon) |
| 84 |
! Flux d'eau "perdue" par la surface et n\'ecessaire pour que limiter la |
! Flux d'eau "perdue" par la surface et n\'ecessaire pour que limiter la |
| 85 |
! hauteur de neige, en kg / m2 / s |
! hauteur de neige, en kg / m2 / s |
|
REAL fqcalving(klon) |
|
| 86 |
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! Flux thermique utiliser pour fondre la neige |
|
| 87 |
REAL ffonte(klon) |
REAL ffonte(klon) |
| 88 |
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! Flux thermique utiliser pour fondre la neige |
| 89 |
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|
| 90 |
REAL run_off_lic_0(klon)! runof glacier au pas de temps precedent |
REAL run_off_lic_0(klon)! runof glacier au pas de temps precedent |
| 91 |
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|
| 107 |
REAL psref(klon) ! pression de reference pour temperature potent. |
REAL psref(klon) ! pression de reference pour temperature potent. |
| 108 |
REAL zx_pkh(klon, klev), zx_pkf(klon, klev) |
REAL zx_pkh(klon, klev), zx_pkf(klon, klev) |
| 109 |
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| 110 |
! contre-gradient pour la vapeur d'eau: (kg / kg) / metre |
REAL gamq(size(knindex), 2:klev) ! (knon, 2:klev) |
| 111 |
REAL gamq(klon, 2:klev) |
! contre-gradient pour la vapeur d'eau, en m-1 |
| 112 |
! contre-gradient pour la chaleur sensible: Kelvin / metre |
|
| 113 |
REAL gamt(klon, 2:klev) |
REAL gamt(size(knindex), 2:klev) ! (knon, 2:klev) |
| 114 |
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! contre-gradient pour la chaleur sensible, en K m-1 |
| 115 |
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| 116 |
REAL z_gamaq(klon, 2:klev), z_gamah(klon, 2:klev) |
REAL z_gamaq(klon, 2:klev), z_gamah(klon, 2:klev) |
| 117 |
REAL zdelz |
REAL zdelz |
| 118 |
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|
| 119 |
real temp_air(klon), spechum(klon) |
real temp_air(klon), spechum(klon) |
| 120 |
real tq_cdrag(klon), petAcoef(klon), peqAcoef(klon) |
real petAcoef(klon), peqAcoef(klon) |
| 121 |
real petBcoef(klon), peqBcoef(klon) |
real petBcoef(klon), peqBcoef(klon) |
| 122 |
real p1lay(klon) |
real p1lay(klon) |
| 123 |
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| 128 |
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| 129 |
knon = size(knindex) |
knon = size(knindex) |
| 130 |
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| 131 |
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gamq= 0. |
| 132 |
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| 133 |
if (iflag_pbl == 1) then |
if (iflag_pbl == 1) then |
| 134 |
do k = 3, klev |
gamt(:, 2) = - 2.5e-3 |
| 135 |
do i = 1, knon |
gamt(:, 3:)= - 1e-3 |
|
gamq(i, k)= 0.0 |
|
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gamt(i, k)= - 1.0e-03 |
|
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enddo |
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enddo |
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do i = 1, knon |
|
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gamq(i, 2) = 0.0 |
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gamt(i, 2) = - 2.5e-03 |
|
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enddo |
|
| 136 |
else |
else |
| 137 |
do k = 2, klev |
gamt = 0. |
|
do i = 1, knon |
|
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gamq(i, k) = 0.0 |
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gamt(i, k) = 0.0 |
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enddo |
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enddo |
|
| 138 |
endif |
endif |
| 139 |
|
|
| 140 |
DO i = 1, knon |
DO i = 1, knon |
| 141 |
psref(i) = paprs(i, 1) !pression de reference est celle au sol |
psref(i) = paprs(i, 1) ! pression de reference est celle au sol |
| 142 |
ENDDO |
ENDDO |
| 143 |
DO k = 1, klev |
DO k = 1, klev |
| 144 |
DO i = 1, knon |
DO i = 1, knon |
| 169 |
z_gamah(i, k) = gamt(i, k) * zdelz * RCPD * zx_pkh(i, k) |
z_gamah(i, k) = gamt(i, k) * zdelz * RCPD * zx_pkh(i, k) |
| 170 |
ENDDO |
ENDDO |
| 171 |
ENDDO |
ENDDO |
| 172 |
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|
| 173 |
DO i = 1, knon |
DO i = 1, knon |
| 174 |
zx_buf1(i) = zx_coef(i, klev) + delp(i, klev) |
zx_buf1(i) = zx_coef(i, klev) + delp(i, klev) |
| 175 |
zx_cq(i, klev) = (local_q(i, klev) * delp(i, klev) & |
zx_cq(i, klev) = (local_q(i, klev) * delp(i, klev) & |
| 182 |
- zx_coef(i, klev) * z_gamah(i, klev)) / zx_buf2(i) |
- zx_coef(i, klev) * z_gamah(i, klev)) / zx_buf2(i) |
| 183 |
zx_dh(i, klev) = zx_coef(i, klev) / zx_buf2(i) |
zx_dh(i, klev) = zx_coef(i, klev) / zx_buf2(i) |
| 184 |
ENDDO |
ENDDO |
| 185 |
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|
| 186 |
DO k = klev - 1, 2, - 1 |
DO k = klev - 1, 2, - 1 |
| 187 |
DO i = 1, knon |
DO i = 1, knon |
| 188 |
zx_buf1(i) = delp(i, k) + zx_coef(i, k) & |
zx_buf1(i) = delp(i, k) + zx_coef(i, k) & |
| 217 |
zx_dh(i, 1) = - 1. * RG / zx_buf2(i) |
zx_dh(i, 1) = - 1. * RG / zx_buf2(i) |
| 218 |
ENDDO |
ENDDO |
| 219 |
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! Appel \`a interfsurf (appel g\'en\'erique) routine d'interface |
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! avec la surface |
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| 220 |
! Initialisation |
! Initialisation |
| 221 |
petAcoef =0. |
petAcoef =0. |
| 222 |
peqAcoef = 0. |
peqAcoef = 0. |
| 228 |
peqAcoef(1:knon) = zx_cq(1:knon, 1) |
peqAcoef(1:knon) = zx_cq(1:knon, 1) |
| 229 |
petBcoef(1:knon) = zx_dh(1:knon, 1) |
petBcoef(1:knon) = zx_dh(1:knon, 1) |
| 230 |
peqBcoef(1:knon) = zx_dq(1:knon, 1) |
peqBcoef(1:knon) = zx_dq(1:knon, 1) |
|
tq_cdrag(1:knon) =coef(:knon, 1) |
|
| 231 |
temp_air(1:knon) =t(1:knon, 1) |
temp_air(1:knon) =t(1:knon, 1) |
| 232 |
spechum(1:knon)=q(1:knon, 1) |
spechum(1:knon)=q(1:knon, 1) |
| 233 |
p1lay(1:knon) = pplay(1:knon, 1) |
p1lay(1:knon) = pplay(1:knon, 1) |
| 234 |
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| 235 |
CALL interfsurf_hq(dtime, julien, rmu0, nisurf, knindex, debut, tsoil, & |
CALL interfsurf_hq(dtime, julien, rmu0, nisurf, knindex, debut, tsoil, & |
| 236 |
qsol, u1lay, v1lay, temp_air, spechum, tq_cdrag, petAcoef, peqAcoef, & |
qsol, u1lay, v1lay, temp_air, spechum, tq_cdrag(:knon), petAcoef, & |
| 237 |
petBcoef, peqBcoef, precip_rain, precip_snow, rugos, rugoro, snow, & |
peqAcoef, petBcoef, peqBcoef, precip_rain, precip_snow, rugos, & |
| 238 |
qsurf, ts, p1lay, psref, radsol, evap, flux_t, fluxlat, dflux_l, & |
rugoro, snow, qsurf, ts, p1lay, psref, radsol, evap, flux_t, fluxlat, & |
| 239 |
dflux_s, tsurf_new, albedo, z0_new, pctsrf_new_sic, agesno, & |
dflux_l, dflux_s, tsurf_new, albedo, z0_new, pctsrf_new_sic, agesno, & |
| 240 |
fqcalving, ffonte, run_off_lic_0) |
fqcalving, ffonte, run_off_lic_0) |
| 241 |
|
|
| 242 |
flux_q = - evap |
flux_q = - evap |
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