4 |
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5 |
implicit none |
implicit none |
6 |
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7 |
LOGICAL bug_ozone ! Pour retrouver le bug de l'ozone (IPCC) |
REAL, protected:: co2_ppm = 348. |
8 |
REAL co2_ppm ! concentration du gaz carbonique en ppmv |
! AMIP II, concentration du gaz carbonique en ppmv |
9 |
real solaire ! Constante solaire en W/m2 |
|
10 |
double precision RCO2 ! Concentration du CO2 |
real, protected:: solaire = 1365. ! AMIP II, constante solaire en W/m2 |
11 |
double precision RCH4 ! Concentration du CH4 |
double precision, save, protected:: RCO2 ! Concentration du CO2 |
12 |
double precision RN2O ! Concentration du N2O |
double precision, save, protected:: RCH4 ! Concentration du CH4 |
13 |
double precision RCFC11 ! Concentration du CFC11 |
double precision, save, protected:: RN2O ! Concentration du N2O |
14 |
double precision RCFC12 ! Concentration du CFC12 |
double precision, save, protected:: RCFC11 ! Concentration du CFC11 |
15 |
double precision CH4_ppb, N2O_ppb, CFC11_ppt, CFC12_ppt |
double precision, save, protected:: RCFC12 ! Concentration du CFC12 |
16 |
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double precision, protected:: CH4_ppb = 1650., N2O_ppb = 306. |
17 |
! Simulateur ISCCP: |
double precision, protected:: CFC11_ppt = 280., CFC12_ppt = 484. |
18 |
INTEGER top_height |
REAL, protected:: cdmmax = 1.3E-3, cdhmax = 1.1E-3 ! seuils cdrm, cdrh |
19 |
INTEGER overlap ! 1, 2 or 3 |
|
20 |
|
REAL, protected:: ksta = 1e-10, ksta_ter = 1e-10 |
21 |
REAL cdmmax, cdhmax ! seuils cdrm, cdrh |
! param\`etres de stabilit\'e sur terre et en dehors |
22 |
REAL ksta, ksta_ter ! paramètres stabilité sur terres et en dehors |
|
23 |
LOGICAL ok_kzmin ! calcul Kzmin dans la couche limite de surface |
LOGICAL, protected:: ok_kzmin = .true. |
24 |
|
! calcul de Kzmin dans la couche limite de surface |
25 |
INTEGER lev_histhf ! niveau sorties 6h |
|
26 |
! 4: histhf3d.nc champs 3d niveaux modele |
INTEGER, save, protected:: ecrit_ins = 1 |
27 |
|
! number of time steps of physics between outputs |
28 |
integer lev_histday ! niveau sorties journalieres |
|
29 |
! 3: champs 3D => F. Lott |
logical, protected:: ok_instan = .false. |
30 |
! 4: + champs sous-surfaces |
! sorties instantanees dans le fichier histins |
31 |
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|
32 |
integer lev_histmth ! niveau sorties mensuelles |
real, protected:: f_cdrag_ter = 1., f_cdrag_oce = 0.8 |
33 |
! 3: albedo, rugosite sous-surfaces |
! surface drag coefficients |
34 |
! 4: champs tendances 3d |
|
35 |
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contains |
36 |
CHARACTER(len=4) type_run ! 'AMIP' ou 'ENSP' |
|
37 |
LOGICAL ok_isccp, ok_regdyn |
subroutine read_clesphys |
38 |
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|
39 |
REAL lonmin_ins, lonmax_ins, latmin_ins, latmax_ins |
use unit_nml_m, only: unit_nml |
40 |
! longitude et latitude minimales et maximales pour la zone avec |
|
41 |
! sorties instantanées tous les pas de temps de la physique, |
namelist /clesphys_nml/ solaire, co2_ppm, CH4_ppb, N2O_ppb, CFC11_ppt, & |
42 |
! fichier "histbilKP_ins.nc" |
CFC12_ppt, cdmmax, cdhmax, ksta, ksta_ter, ok_kzmin, ecrit_ins, & |
43 |
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ok_instan, f_cdrag_ter, f_cdrag_oce |
44 |
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45 |
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!--------------------------------------------------------- |
46 |
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47 |
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print *, "Enter namelist 'clesphys_nml'." |
48 |
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read(unit=*, nml=clesphys_nml) |
49 |
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write(unit_nml, nml=clesphys_nml) |
50 |
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51 |
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RCO2 = co2_ppm * 1.0e-06 * 44.011/28.97 |
52 |
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RCH4 = CH4_ppb * 1.0E-09 * 16.043/28.97 |
53 |
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RN2O = N2O_ppb * 1.0E-09 * 44.013/28.97 |
54 |
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RCFC11=CFC11_ppt* 1.0E-12 * 137.3686/28.97 |
55 |
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RCFC12 = CFC12_ppt * 1.0E-12 * 120.9140/28.97 |
56 |
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57 |
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print *, ' RCO2 = ', RCO2 |
58 |
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print *, ' RCH4 = ', RCH4 |
59 |
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print *, ' RN2O = ', RN2O |
60 |
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print *, ' RCFC11 = ', RCFC11 |
61 |
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print *, ' RCFC12 = ', RCFC12 |
62 |
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63 |
INTEGER ecrit_ins, ecrit_hf, ecrit_hf2mth, ecrit_day |
end subroutine read_clesphys |
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INTEGER ecrit_mth, ecrit_tra, ecrit_reg |
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save |
|
64 |
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|
65 |
end module clesphys |
end module clesphys |