4 |
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5 |
contains |
contains |
6 |
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7 |
SUBROUTINE clqh(dtime, itime, date0, jour, debut, lafin, rlon, rlat, cufi, & |
SUBROUTINE clqh(dtime, itime, jour, debut, rlat, knon, nisurf, knindex, & |
8 |
cvfi, knon, nisurf, knindex, pctsrf, soil_model, tsoil, qsol, & |
pctsrf, tsoil, qsol, rmu0, co2_ppm, rugos, rugoro, u1lay, v1lay, coef, & |
9 |
ok_veget, ocean, npas, nexca, rmu0, co2_ppm, rugos, rugoro, u1lay, & |
t, q, ts, paprs, pplay, delp, radsol, albedo, alblw, snow, qsurf, & |
10 |
v1lay, coef, t, q, ts, paprs, pplay, delp, radsol, albedo, alblw, & |
precip_rain, precip_snow, fder, swnet, fluxlat, pctsrf_new, agesno, & |
11 |
snow, qsurf, precip_rain, precip_snow, fder, taux, tauy, ywindsp, & |
d_t, d_q, d_ts, z0_new, flux_t, flux_q, dflux_s, dflux_l, fqcalving, & |
12 |
sollw, sollwdown, swnet, fluxlat, pctsrf_new, agesno, d_t, d_q, d_ts, & |
ffonte, run_off_lic_0, flux_o, flux_g) |
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z0_new, flux_t, flux_q, dflux_s, dflux_l, fqcalving, ffonte, & |
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run_off_lic_0, flux_o, flux_g, tslab, seaice) |
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13 |
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14 |
! Author: Z. X. Li (LMD/CNRS) |
! Author: Z. X. Li (LMD/CNRS) |
15 |
! Date: 1993/08/18 |
! Date: 1993/08/18 |
16 |
! Objet : diffusion verticale de "q" et de "h" |
! Objet : diffusion verticale de "q" et de "h" |
17 |
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18 |
USE conf_phys_m, ONLY : iflag_pbl |
USE conf_phys_m, ONLY: iflag_pbl |
19 |
USE dimens_m, ONLY : iim, jjm |
USE dimens_m, ONLY: iim, jjm |
20 |
USE dimphy, ONLY : klev, klon, zmasq |
USE dimphy, ONLY: klev, klon |
21 |
USE dimsoil, ONLY : nsoilmx |
USE dimsoil, ONLY: nsoilmx |
22 |
USE indicesol, ONLY : is_ter, nbsrf |
USE indicesol, ONLY: is_ter, nbsrf |
23 |
USE interfsurf_hq_m, ONLY : interfsurf_hq |
USE interfsurf_hq_m, ONLY: interfsurf_hq |
24 |
USE suphec_m, ONLY : rcpd, rd, rg, rkappa |
USE suphec_m, ONLY: rcpd, rd, rg, rkappa |
25 |
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! Arguments: |
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INTEGER knon |
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26 |
REAL, intent(in):: dtime ! intervalle du temps (s) |
REAL, intent(in):: dtime ! intervalle du temps (s) |
27 |
real, intent(in):: date0 |
integer, intent(in):: itime |
28 |
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integer, intent(in):: jour ! jour de l'annee en cours |
29 |
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logical, intent(in):: debut |
30 |
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real, intent(in):: rlat(klon) |
31 |
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INTEGER, intent(in):: knon |
32 |
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integer nisurf |
33 |
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integer, intent(in):: knindex(:) ! (knon) |
34 |
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real, intent(in):: pctsrf(klon, nbsrf) |
35 |
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REAL tsoil(klon, nsoilmx) |
36 |
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37 |
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REAL, intent(inout):: qsol(klon) |
38 |
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! column-density of water in soil, in kg m-2 |
39 |
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40 |
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real, intent(in):: rmu0(klon) ! cosinus de l'angle solaire zenithal |
41 |
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REAL, intent(in):: co2_ppm ! taux CO2 atmosphere |
42 |
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real rugos(klon) ! rugosite |
43 |
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REAL rugoro(klon) |
44 |
REAL u1lay(klon) ! vitesse u de la 1ere couche (m/s) |
REAL u1lay(klon) ! vitesse u de la 1ere couche (m/s) |
45 |
REAL v1lay(klon) ! vitesse v de la 1ere couche (m/s) |
REAL v1lay(klon) ! vitesse v de la 1ere couche (m/s) |
46 |
REAL coef(klon, klev) ! le coefficient d'echange (m**2/s) |
|
47 |
! multiplie par le cisaillement du |
REAL, intent(in):: coef(:, :) ! (knon, klev) |
48 |
! vent (dV/dz); la premiere valeur |
! Le coefficient d'echange (m**2/s) multiplie par le cisaillement |
49 |
! indique la valeur de Cdrag (sans unite) |
! du vent (dV/dz). La premiere valeur indique la valeur de Cdrag |
50 |
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! (sans unite). |
51 |
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52 |
REAL t(klon, klev) ! temperature (K) |
REAL t(klon, klev) ! temperature (K) |
53 |
REAL q(klon, klev) ! humidite specifique (kg/kg) |
REAL q(klon, klev) ! humidite specifique (kg/kg) |
54 |
REAL ts(klon) ! temperature du sol (K) |
REAL, intent(in):: ts(klon) ! temperature du sol (K) |
|
REAL evap(klon) ! evaporation au sol |
|
55 |
REAL paprs(klon, klev+1) ! pression a inter-couche (Pa) |
REAL paprs(klon, klev+1) ! pression a inter-couche (Pa) |
56 |
REAL pplay(klon, klev) ! pression au milieu de couche (Pa) |
REAL pplay(klon, klev) ! pression au milieu de couche (Pa) |
57 |
REAL delp(klon, klev) ! epaisseur de couche en pression (Pa) |
REAL delp(klon, klev) ! epaisseur de couche en pression (Pa) |
58 |
REAL radsol(klon) ! ray. net au sol (Solaire+IR) W/m2 |
REAL radsol(klon) ! ray. net au sol (Solaire+IR) W/m2 |
59 |
REAL albedo(klon) ! albedo de la surface |
REAL albedo(klon) ! albedo de la surface |
60 |
REAL alblw(klon) |
REAL, intent(out):: alblw(:) ! (knon) |
61 |
REAL snow(klon) ! hauteur de neige |
REAL snow(klon) ! hauteur de neige |
62 |
REAL qsurf(klon) ! humidite de l'air au dessus de la surface |
REAL qsurf(klon) ! humidite de l'air au dessus de la surface |
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real precip_rain(klon), precip_snow(klon) |
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REAL agesno(klon) |
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REAL rugoro(klon) |
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REAL run_off_lic_0(klon)! runof glacier au pas de temps precedent |
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integer, intent(in):: jour ! jour de l'annee en cours |
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real, intent(in):: rmu0(klon) ! cosinus de l'angle solaire zenithal |
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real rugos(klon) ! rugosite |
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integer knindex(klon) |
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real, intent(in):: pctsrf(klon, nbsrf) |
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real, intent(in):: rlon(klon), rlat(klon) |
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real cufi(klon), cvfi(klon) |
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logical ok_veget |
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REAL co2_ppm ! taux CO2 atmosphere |
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character(len=*), intent(in):: ocean |
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integer npas, nexca |
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! -- LOOP |
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REAL yu10mx(klon) |
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REAL yu10my(klon) |
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REAL ywindsp(klon) |
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! -- LOOP |
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63 |
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64 |
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real, intent(in):: precip_rain(klon) |
65 |
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! liquid water mass flux (kg/m2/s), positive down |
66 |
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67 |
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real, intent(in):: precip_snow(klon) |
68 |
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! solid water mass flux (kg/m2/s), positive down |
69 |
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70 |
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real, intent(inout):: fder(klon) |
71 |
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real swnet(klon) |
72 |
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real fluxlat(klon) |
73 |
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real pctsrf_new(klon, nbsrf) |
74 |
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REAL agesno(klon) |
75 |
REAL d_t(klon, klev) ! incrementation de "t" |
REAL d_t(klon, klev) ! incrementation de "t" |
76 |
REAL d_q(klon, klev) ! incrementation de "q" |
REAL d_q(klon, klev) ! incrementation de "q" |
77 |
REAL d_ts(klon) ! incrementation de "ts" |
REAL, intent(out):: d_ts(:) ! (knon) incrementation de "ts" |
78 |
|
real z0_new(klon) |
79 |
REAL flux_t(klon, klev) ! (diagnostic) flux de la chaleur |
REAL flux_t(klon, klev) ! (diagnostic) flux de la chaleur |
80 |
! sensible, flux de Cp*T, positif vers |
! sensible, flux de Cp*T, positif vers |
81 |
! le bas: j/(m**2 s) c.a.d.: W/m2 |
! le bas: j/(m**2 s) c.a.d.: W/m2 |
82 |
REAL flux_q(klon, klev) ! flux de la vapeur d'eau:kg/(m**2 s) |
REAL flux_q(klon, klev) ! flux de la vapeur d'eau:kg/(m**2 s) |
83 |
REAL dflux_s(klon) ! derivee du flux sensible dF/dTs |
REAL dflux_s(klon) ! derivee du flux sensible dF/dTs |
84 |
REAL dflux_l(klon) ! derivee du flux latent dF/dTs |
REAL dflux_l(klon) ! derivee du flux latent dF/dTs |
85 |
!IM cf JLD |
|
86 |
! Flux thermique utiliser pour fondre la neige |
! Flux d'eau "perdue" par la surface et n\'ecessaire pour que limiter la |
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REAL ffonte(klon) |
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! Flux d'eau "perdue" par la surface et nécessaire pour que limiter la |
|
87 |
! hauteur de neige, en kg/m2/s |
! hauteur de neige, en kg/m2/s |
88 |
REAL fqcalving(klon) |
REAL fqcalving(klon) |
89 |
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90 |
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! Flux thermique utiliser pour fondre la neige |
91 |
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REAL ffonte(klon) |
92 |
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93 |
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REAL run_off_lic_0(klon)! runof glacier au pas de temps precedent |
94 |
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95 |
!IM "slab" ocean |
!IM "slab" ocean |
96 |
REAL tslab(klon) !temperature du slab ocean (K) (OCEAN='slab ') |
|
97 |
REAL seaice(klon) ! glace de mer en kg/m2 |
REAL, intent(out):: flux_o(klon) ! flux entre l'ocean et l'atmosphere W/m2 |
98 |
REAL flux_o(klon) ! flux entre l'ocean et l'atmosphere W/m2 |
|
99 |
REAL flux_g(klon) ! flux entre l'ocean et la glace de mer W/m2 |
REAL, intent(out):: flux_g(klon) |
100 |
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! flux entre l'ocean et la glace de mer W/m2 |
101 |
REAL t_grnd ! temperature de rappel pour glace de mer |
|
102 |
PARAMETER (t_grnd=271.35) |
! Local: |
103 |
REAL t_coup |
|
104 |
PARAMETER(t_coup=273.15) |
REAL evap(klon) ! evaporation au sol |
105 |
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106 |
INTEGER i, k |
INTEGER i, k |
107 |
REAL zx_cq(klon, klev) |
REAL zx_cq(klon, klev) |
124 |
REAL z_gamaq(klon, 2:klev), z_gamah(klon, 2:klev) |
REAL z_gamaq(klon, 2:klev), z_gamah(klon, 2:klev) |
125 |
REAL zdelz |
REAL zdelz |
126 |
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! Rajout pour l'interface |
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integer, intent(in):: itime |
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integer nisurf |
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logical, intent(in):: debut |
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logical, intent(in):: lafin |
|
127 |
real zlev1(klon) |
real zlev1(klon) |
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real fder(klon), taux(klon), tauy(klon) |
|
128 |
real temp_air(klon), spechum(klon) |
real temp_air(klon), spechum(klon) |
129 |
real epot_air(klon), ccanopy(klon) |
real epot_air(klon), ccanopy(klon) |
130 |
real tq_cdrag(klon), petAcoef(klon), peqAcoef(klon) |
real tq_cdrag(klon), petAcoef(klon), peqAcoef(klon) |
131 |
real petBcoef(klon), peqBcoef(klon) |
real petBcoef(klon), peqBcoef(klon) |
132 |
real sollw(klon), sollwdown(klon), swnet(klon), swdown(klon) |
real swdown(klon) |
133 |
real p1lay(klon) |
real p1lay(klon) |
|
!$$$C PB ajout pour soil |
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LOGICAL, intent(in):: soil_model |
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REAL tsoil(klon, nsoilmx) |
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REAL qsol(klon) |
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134 |
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135 |
! Parametres de sortie |
real fluxsens(klon) |
136 |
real fluxsens(klon), fluxlat(klon) |
real tsurf_new(knon) |
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real tsol_rad(klon), tsurf_new(klon), alb_new(klon) |
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real emis_new(klon), z0_new(klon) |
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real pctsrf_new(klon, nbsrf) |
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! JLD |
|
137 |
real zzpk |
real zzpk |
138 |
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139 |
character (len = 20) :: modname = 'Debut clqh' |
character (len = 20) :: modname = 'Debut clqh' |
263 |
peqBcoef = 0. |
peqBcoef = 0. |
264 |
p1lay =0. |
p1lay =0. |
265 |
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! do i = 1, knon |
|
266 |
petAcoef(1:knon) = zx_ch(1:knon, 1) |
petAcoef(1:knon) = zx_ch(1:knon, 1) |
267 |
peqAcoef(1:knon) = zx_cq(1:knon, 1) |
peqAcoef(1:knon) = zx_cq(1:knon, 1) |
268 |
petBcoef(1:knon) = zx_dh(1:knon, 1) |
petBcoef(1:knon) = zx_dh(1:knon, 1) |
269 |
peqBcoef(1:knon) = zx_dq(1:knon, 1) |
peqBcoef(1:knon) = zx_dq(1:knon, 1) |
270 |
tq_cdrag(1:knon) =coef(1:knon, 1) |
tq_cdrag(1:knon) =coef(:knon, 1) |
271 |
temp_air(1:knon) =t(1:knon, 1) |
temp_air(1:knon) =t(1:knon, 1) |
272 |
epot_air(1:knon) =local_h(1:knon, 1) |
epot_air(1:knon) =local_h(1:knon, 1) |
273 |
spechum(1:knon)=q(1:knon, 1) |
spechum(1:knon)=q(1:knon, 1) |
274 |
p1lay(1:knon) = pplay(1:knon, 1) |
p1lay(1:knon) = pplay(1:knon, 1) |
275 |
zlev1(1:knon) = delp(1:knon, 1) |
zlev1(1:knon) = delp(1:knon, 1) |
|
! swnet = swdown * (1. - albedo) |
|
276 |
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!IM swdown=flux SW incident sur terres |
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!IM swdown=flux SW net sur les autres surfaces |
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!IM swdown(1:knon) = swnet(1:knon) |
|
277 |
if(nisurf.eq.is_ter) THEN |
if(nisurf.eq.is_ter) THEN |
278 |
swdown(1:knon) = swnet(1:knon)/(1-albedo(1:knon)) |
swdown(1:knon) = swnet(1:knon)/(1-albedo(1:knon)) |
279 |
else |
else |
280 |
swdown(1:knon) = swnet(1:knon) |
swdown(1:knon) = swnet(1:knon) |
281 |
endif |
endif |
|
! enddo |
|
282 |
ccanopy = co2_ppm |
ccanopy = co2_ppm |
283 |
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|
284 |
CALL interfsurf_hq(itime, dtime, date0, jour, rmu0, & |
CALL interfsurf_hq(itime, dtime, jour, rmu0, nisurf, knon, knindex, & |
285 |
klon, iim, jjm, nisurf, knon, knindex, pctsrf, & |
pctsrf, rlat, debut, nsoilmx, tsoil, qsol, u1lay, v1lay, temp_air, & |
286 |
rlon, rlat, cufi, cvfi, & |
spechum, tq_cdrag, petAcoef, peqAcoef, petBcoef, peqBcoef, & |
287 |
debut, lafin, ok_veget, soil_model, nsoilmx, tsoil, qsol, & |
precip_rain, precip_snow, fder, rugos, rugoro, snow, qsurf, & |
288 |
zlev1, u1lay, v1lay, temp_air, spechum, epot_air, ccanopy, & |
ts(:knon), p1lay, psref, radsol, evap, fluxsens, fluxlat, dflux_l, & |
289 |
tq_cdrag, petAcoef, peqAcoef, petBcoef, peqBcoef, & |
dflux_s, tsurf_new, alblw, z0_new, pctsrf_new, agesno, fqcalving, & |
290 |
precip_rain, precip_snow, sollw, sollwdown, swnet, swdown, & |
ffonte, run_off_lic_0, flux_o, flux_g) |
|
fder, taux, tauy, & |
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ywindsp, rugos, rugoro, & |
|
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albedo, snow, qsurf, & |
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|
ts, p1lay, psref, radsol, & |
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|
ocean, npas, nexca, zmasq, & |
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evap, fluxsens, fluxlat, dflux_l, dflux_s, & |
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tsol_rad, tsurf_new, alb_new, alblw, emis_new, z0_new, & |
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pctsrf_new, agesno, fqcalving, ffonte, run_off_lic_0, & |
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flux_o, flux_g, tslab, seaice) |
|
291 |
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|
292 |
do i = 1, knon |
do i = 1, knon |
293 |
flux_t(i, 1) = fluxsens(i) |
flux_t(i, 1) = fluxsens(i) |
294 |
flux_q(i, 1) = - evap(i) |
flux_q(i, 1) = - evap(i) |
295 |
d_ts(i) = tsurf_new(i) - ts(i) |
d_ts(i) = tsurf_new(i) - ts(i) |
296 |
albedo(i) = alb_new(i) |
albedo(i) = alblw(i) |
297 |
enddo |
enddo |
298 |
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|
299 |
!==== une fois on a zx_h_ts, on peut faire l'iteration ======== |
!==== une fois on a zx_h_ts, on peut faire l'iteration ======== |