1 | PROGRAM lmdz1d |
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2 | |
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3 | USE ioipsl, only: ju2ymds, ymds2ju, ioconf_calendar |
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4 | use phys_state_var_mod |
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5 | use comgeomphy |
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6 | use dimphy |
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7 | use surface_data, only : type_ocean,ok_veget |
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8 | use pbl_surface_mod, only : ftsoil, pbl_surface_init, |
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9 | $ pbl_surface_final |
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10 | use fonte_neige_mod, only : fonte_neige_init, fonte_neige_final |
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11 | |
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12 | use infotrac ! new |
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13 | use control_mod |
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14 | USE indice_sol_mod |
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15 | USE phyaqua_mod |
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16 | |
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17 | implicit none |
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18 | #include "dimensions.h" |
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19 | #include "YOMCST.h" |
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20 | #include "temps.h" |
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21 | !!#include "control.h" |
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22 | #include "iniprint.h" |
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23 | #include "clesphys.h" |
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24 | #include "dimsoil.h" |
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25 | !#include "indicesol.h" |
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26 | |
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27 | #include "comvert.h" |
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28 | #include "compar1d.h" |
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29 | #include "flux_arp.h" |
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30 | #include "tsoilnudge.h" |
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31 | #include "fcg_gcssold.h" |
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32 | !!!#include "fbforcing.h" |
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33 | |
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34 | !===================================================================== |
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35 | ! DECLARATIONS |
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36 | !===================================================================== |
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37 | |
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38 | !--------------------------------------------------------------------- |
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39 | ! Externals |
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40 | !--------------------------------------------------------------------- |
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41 | external fq_sat |
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42 | real fq_sat |
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43 | |
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44 | !--------------------------------------------------------------------- |
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45 | ! Arguments d' initialisations de la physique (USER DEFINE) |
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46 | !--------------------------------------------------------------------- |
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47 | |
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48 | integer, parameter :: ngrid=1 |
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49 | real :: zcufi = 1. |
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50 | real :: zcvfi = 1. |
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51 | |
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52 | !- real :: nat_surf |
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53 | !- logical :: ok_flux_surf |
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54 | !- real :: fsens |
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55 | !- real :: flat |
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56 | !- real :: tsurf |
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57 | !- real :: rugos |
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58 | !- real :: qsol(1:2) |
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59 | !- real :: qsurf |
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60 | !- real :: psurf |
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61 | !- real :: zsurf |
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62 | !- real :: albedo |
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63 | !- |
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64 | !- real :: time = 0. |
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65 | !- real :: time_ini |
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66 | !- real :: xlat |
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67 | !- real :: xlon |
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68 | !- real :: wtsurf |
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69 | !- real :: wqsurf |
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70 | !- real :: restart_runoff |
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71 | !- real :: xagesno |
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72 | !- real :: qsolinp |
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73 | !- real :: zpicinp |
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74 | !- |
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75 | real :: fnday |
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76 | real :: day, daytime |
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77 | real :: day1 |
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78 | real :: heure |
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79 | integer :: jour |
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80 | integer :: mois |
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81 | integer :: an |
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82 | |
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83 | ! |
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84 | real :: paire = 1. ! aire de la maille |
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85 | !** common /flux_arp/fsens,flat,ok_flux_surf |
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86 | |
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87 | !--------------------------------------------------------------------- |
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88 | ! Declarations related to forcing and initial profiles |
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89 | !--------------------------------------------------------------------- |
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90 | |
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91 | integer :: kmax = llm |
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92 | integer nlev_max,llm700 |
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93 | parameter (nlev_max = 1000) |
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94 | real timestep, frac, timeit |
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95 | real height(nlev_max),tttprof(nlev_max),qtprof(nlev_max), |
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96 | . uprof(nlev_max),vprof(nlev_max),e12prof(nlev_max), |
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97 | . ugprof(nlev_max),vgprof(nlev_max),wfls(nlev_max), |
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98 | . dqtdxls(nlev_max),dqtdyls(nlev_max), |
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99 | . dqtdtls(nlev_max),thlpcar(nlev_max) |
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100 | |
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101 | real :: fff |
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102 | c integer :: forcing_type |
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103 | logical :: forcing_les = .false. |
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104 | logical :: forcing_armcu = .false. |
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105 | logical :: forcing_rico = .false. |
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106 | logical :: forcing_radconv = .false. |
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107 | logical :: forcing_toga = .false. |
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108 | logical :: forcing_twpice = .false. |
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109 | logical :: forcing_amma = .false. |
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110 | logical :: forcing_GCM2SCM = .false. |
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111 | logical :: forcing_GCSSold = .false. |
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112 | logical :: forcing_sandu = .false. |
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113 | logical :: forcing_astex = .false. |
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114 | logical :: forcing_fire = .false. |
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115 | integer :: type_ts_forcing ! 0 = SST constant; 1 = SST read from a file |
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116 | ! (cf read_tsurf1d.F) |
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117 | |
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118 | !vertical advection computation |
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119 | ! real d_t_z(llm), d_q_z(llm) |
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120 | ! real d_t_dyn_z(llm), d_q_dyn_z(llm) |
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121 | ! real zz(llm) |
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122 | ! real zfact |
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123 | |
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124 | !flag forcings |
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125 | logical :: nudge_wind=.true. |
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126 | logical :: nudge_thermo=.false. |
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127 | logical :: cptadvw=.true. |
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128 | !===================================================================== |
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129 | ! DECLARATIONS FOR EACH CASE |
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130 | !===================================================================== |
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131 | ! |
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132 | #include "1D_decl_cases.h" |
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133 | ! |
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134 | !--------------------------------------------------------------------- |
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135 | ! Declarations related to vertical discretization: |
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136 | !--------------------------------------------------------------------- |
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137 | real :: pzero=1.e5 |
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138 | real :: play (llm),zlay (llm),sig_s(llm),plev(llm+1) |
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139 | real :: playd(llm),zlayd(llm),ap_amma(llm+1),bp_amma(llm+1),poub |
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140 | |
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141 | !--------------------------------------------------------------------- |
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142 | ! Declarations related to variables |
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143 | !--------------------------------------------------------------------- |
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144 | |
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145 | integer :: iq |
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146 | real :: phi(llm) |
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147 | real :: teta(llm),tetal(llm),temp(llm),u(llm),v(llm),w(llm) |
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148 | real :: rlat_rad(1),rlon_rad(1) |
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149 | real :: omega(llm+1),omega2(llm),rho(llm+1) |
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150 | real :: ug(llm),vg(llm),fcoriolis |
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151 | real :: sfdt, cfdt |
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152 | real :: du_phys(llm),dv_phys(llm),dt_phys(llm) |
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153 | real :: du_dyn(llm),dv_dyn(llm),dt_dyn(llm) |
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154 | real :: dt_cooling(llm),d_t_cool(llm),d_th_adv(llm) |
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155 | real :: dq_cooling(llm),d_q_cool(llm) |
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156 | real :: tmpvar(llm) |
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157 | real :: alpha |
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158 | |
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159 | REAL, ALLOCATABLE, DIMENSION(:,:):: q |
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160 | REAL, ALLOCATABLE, DIMENSION(:,:):: dq |
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161 | REAL, ALLOCATABLE, DIMENSION(:,:):: dq_dyn |
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162 | REAL, ALLOCATABLE, DIMENSION(:,:):: d_q_adv |
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163 | |
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164 | !--------------------------------------------------------------------- |
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165 | ! Initialization of surface variables |
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166 | !--------------------------------------------------------------------- |
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167 | real :: run_off_lic_0(1) |
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168 | real :: fder(1),snsrf(1,nbsrf),qsurfsrf(1,nbsrf) |
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169 | real :: evap(1,nbsrf),frugs(1,nbsrf) |
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170 | real :: tsoil(1,nsoilmx,nbsrf) |
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171 | real :: agesno(1,nbsrf) |
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172 | |
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173 | !--------------------------------------------------------------------- |
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174 | ! Call to phyredem |
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175 | !--------------------------------------------------------------------- |
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176 | logical :: ok_writedem =.true. |
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177 | |
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178 | !--------------------------------------------------------------------- |
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179 | ! Call to physiq |
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180 | !--------------------------------------------------------------------- |
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181 | integer, parameter :: longcles=20 |
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182 | logical :: firstcall=.true. |
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183 | logical :: lastcall=.false. |
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184 | real :: phis = 0.0 |
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185 | real :: clesphy0(longcles) = 0.0 |
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186 | real :: dpsrf |
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187 | |
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188 | !--------------------------------------------------------------------- |
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189 | ! Initializations of boundary conditions |
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190 | !--------------------------------------------------------------------- |
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191 | integer, parameter :: yd = 360 |
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192 | real :: phy_nat (yd) = 0.0 ! 0=ocean libre,1=land,2=glacier,3=banquise |
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193 | real :: phy_alb (yd) ! Albedo land only (old value condsurf_jyg=0.3) |
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194 | real :: phy_sst (yd) ! SST (will not be used; cf read_tsurf1d.F) |
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195 | real :: phy_bil (yd) = 1.0 ! Ne sert que pour les slab_ocean |
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196 | real :: phy_rug (yd) ! Longueur rugosite utilisee sur land only |
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197 | real :: phy_ice (yd) = 0.0 ! Fraction de glace |
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198 | real :: phy_fter(yd) = 0.0 ! Fraction de terre |
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199 | real :: phy_foce(yd) = 0.0 ! Fraction de ocean |
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200 | real :: phy_fsic(yd) = 0.0 ! Fraction de glace |
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201 | real :: phy_flic(yd) = 0.0 ! Fraction de glace |
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202 | |
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203 | !--------------------------------------------------------------------- |
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204 | ! Fichiers et d'autres variables |
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205 | !--------------------------------------------------------------------- |
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206 | real ttt,bow,q1 |
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207 | integer :: ierr,k,l,i,it=1,mxcalc |
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208 | integer jjmp1 |
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209 | parameter (jjmp1=jjm+1-1/jjm) |
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210 | INTEGER nbteta |
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211 | PARAMETER(nbteta=3) |
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212 | REAL dudyn(iim+1,jjmp1,llm) |
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213 | REAL PVteta(1,nbteta) |
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214 | INTEGER read_climoz |
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215 | !Al1 |
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216 | integer ecrit_slab_oc !1=ecrit,-1=lit,0=no file |
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217 | data ecrit_slab_oc/-1/ |
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218 | |
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219 | !===================================================================== |
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220 | ! INITIALIZATIONS |
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221 | !===================================================================== |
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222 | ! Initialization of Common turb_forcing |
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223 | dtime_frcg = 0. |
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224 | Turb_fcg_gcssold=.false. |
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225 | hthturb_gcssold = 0. |
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226 | hqturb_gcssold = 0. |
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227 | |
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228 | !--------------------------------------------------------------------- |
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229 | ! OPTIONS OF THE 1D SIMULATION (lmdz1d.def => unicol.def) |
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230 | !--------------------------------------------------------------------- |
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231 | cAl1 |
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232 | call conf_unicol(99) |
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233 | cAl1 moves this gcssold var from common fcg_gcssold to |
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234 | Turb_fcg_gcssold = xTurb_fcg_gcssold |
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235 | c -------------------------------------------------------------------- |
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236 | close(1) |
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237 | cAl1 |
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238 | write(*,*) 'lmdz1d.def lu => unicol.def' |
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239 | |
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240 | ! forcing_type defines the way the SCM is forced: |
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241 | !forcing_type = 0 ==> forcing_les = .true. |
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242 | ! initial profiles from file prof.inp.001 |
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243 | ! no forcing by LS convergence ; |
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244 | ! surface temperature imposed ; |
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245 | ! radiative cooling may be imposed (iflag_radia=0 in physiq.def) |
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246 | !forcing_type = 1 ==> forcing_radconv = .true. |
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247 | ! idem forcing_type = 0, but the imposed radiative cooling |
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248 | ! is set to 0 (hence, if iflag_radia=0 in physiq.def, |
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249 | ! then there is no radiative cooling at all) |
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250 | !forcing_type = 2 ==> forcing_toga = .true. |
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251 | ! initial profiles from TOGA-COARE IFA files |
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252 | ! LS convergence and SST imposed from TOGA-COARE IFA files |
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253 | !forcing_type = 3 ==> forcing_GCM2SCM = .true. |
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254 | ! initial profiles from the GCM output |
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255 | ! LS convergence imposed from the GCM output |
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256 | !forcing_type = 4 ==> forcing_twpice = .true. |
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257 | ! initial profiles from TWP-ICE cdf file |
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258 | ! LS convergence, omega and SST imposed from TWP-ICE files |
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259 | !forcing_type = 5 ==> forcing_rico = .true. |
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260 | ! initial profiles from RICO files |
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261 | ! LS convergence imposed from RICO files |
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262 | !forcing_type = 6 ==> forcing_amma = .true. |
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263 | ! initial profiles from AMMA nc file |
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264 | ! LS convergence, omega and surface fluxes imposed from AMMA file |
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265 | !forcing_type = 40 ==> forcing_GCSSold = .true. |
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266 | ! initial profile from GCSS file |
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267 | ! LS convergence imposed from GCSS file |
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268 | !forcing_type = 50 ==> forcing_fire = .true. |
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269 | ! forcing from fire.nc |
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270 | !forcing_type = 59 ==> forcing_sandu = .true. |
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271 | ! initial profiles from sanduref file: see prof.inp.001 |
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272 | ! SST varying with time and divergence constante: see ifa_sanduref.txt file |
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273 | ! Radiation has to be computed interactively |
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274 | !forcing_type = 60 ==> forcing_astex = .true. |
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275 | ! initial profiles from file: see prof.inp.001 |
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276 | ! SST,divergence,ug,vg,ufa,vfa varying with time : see ifa_astex.txt file |
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277 | ! Radiation has to be computed interactively |
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278 | !forcing_type = 61 ==> forcing_armcu = .true. |
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279 | ! initial profiles from file: see prof.inp.001 |
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280 | ! sensible and latent heat flux imposed: see ifa_arm_cu_1.txt |
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281 | ! large scale advective forcing & radiative tendencies applied below 1000m: see ifa_arm_cu_2.txt |
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282 | ! use geostrophic wind ug=10m/s vg=0m/s. Duration of the case 53100s |
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283 | ! Radiation to be switched off |
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284 | ! |
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285 | if (forcing_type .eq.0) THEN |
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286 | forcing_les = .true. |
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287 | elseif (forcing_type .eq.1) THEN |
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288 | forcing_radconv = .true. |
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289 | elseif (forcing_type .eq.2) THEN |
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290 | forcing_toga = .true. |
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291 | elseif (forcing_type .eq.3) THEN |
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292 | forcing_GCM2SCM = .true. |
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293 | elseif (forcing_type .eq.4) THEN |
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294 | forcing_twpice = .true. |
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295 | elseif (forcing_type .eq.5) THEN |
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296 | forcing_rico = .true. |
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297 | elseif (forcing_type .eq.6) THEN |
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298 | forcing_amma = .true. |
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299 | elseif (forcing_type .eq.40) THEN |
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300 | forcing_GCSSold = .true. |
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301 | elseif (forcing_type .eq.50) THEN |
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302 | forcing_fire = .true. |
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303 | elseif (forcing_type .eq.59) THEN |
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304 | forcing_sandu = .true. |
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305 | elseif (forcing_type .eq.60) THEN |
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306 | forcing_astex = .true. |
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307 | elseif (forcing_type .eq.61) THEN |
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308 | forcing_armcu = .true. |
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309 | IF(llm.NE.19.AND.llm.NE.40) stop 'Erreur nombre de niveaux !!' |
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310 | else |
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311 | write (*,*) 'ERROR : unknown forcing_type ', forcing_type |
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312 | stop 'Forcing_type should be 0,1,2,3,4,5,6 or 40,59,60,61' |
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313 | ENDIF |
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314 | print*,"forcing type=",forcing_type |
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315 | |
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316 | ! if type_ts_forcing=0, the surface temp of 1D simulation is constant in time |
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317 | ! (specified by tsurf in lmdz1d.def); if type_ts_forcing=1, the surface temperature |
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318 | ! varies in time according to a forcing (e.g. forcing_toga) and is passed to read_tsurf1d.F |
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319 | ! through the common sst_forcing. |
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320 | |
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321 | type_ts_forcing = 0 |
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322 | if (forcing_toga .or. forcing_sandu .or. forcing_astex) |
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323 | : type_ts_forcing = 1 |
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324 | |
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325 | !--------------------------------------------------------------------- |
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326 | ! Definition of the run |
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327 | !--------------------------------------------------------------------- |
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328 | |
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329 | call conf_gcm( 99, .TRUE. , clesphy0 ) |
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330 | c----------------------------------------------------------------------- |
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331 | c Choix du calendrier |
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332 | c ------------------- |
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333 | |
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334 | c calend = 'earth_365d' |
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335 | if (calend == 'earth_360d') then |
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336 | call ioconf_calendar('360d') |
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337 | write(*,*)'CALENDRIER CHOISI: Terrestre a 360 jours/an' |
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338 | else if (calend == 'earth_365d') then |
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339 | call ioconf_calendar('noleap') |
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340 | write(*,*)'CALENDRIER CHOISI: Terrestre a 365 jours/an' |
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341 | else if (calend == 'earth_366d') then |
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342 | call ioconf_calendar('all_leap') |
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343 | write(*,*)'CALENDRIER CHOISI: Terrestre bissextile' |
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344 | else if (calend == 'gregorian') then |
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345 | call ioconf_calendar('gregorian') ! not to be used by normal users |
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346 | write(*,*)'CALENDRIER CHOISI: Gregorien' |
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347 | else |
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348 | write (*,*) 'ERROR : unknown calendar ', calend |
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349 | stop 'calend should be 360d,earth_365d,earth_366d,gregorian' |
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350 | endif |
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351 | c----------------------------------------------------------------------- |
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352 | c |
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353 | cc Date : |
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354 | c La date est supposee donnee sous la forme [annee, numero du jour dans |
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355 | c l annee] ; l heure est donnee dans time_ini, lu dans lmdz1d.def. |
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356 | c On appelle ymds2ju pour convertir [annee, jour] en [jour Julien]. |
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357 | c Le numero du jour est dans "day". L heure est traitee separement. |
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358 | c La date complete est dans "daytime" (l'unite est le jour). |
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359 | fnday=nday |
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360 | c Special case for arm_cu which lasts less than one day : 53100s !! (MPL 20111026) |
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361 | IF(forcing_type .EQ. 61) fnday=53100./86400. |
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362 | c Special case for amma which lasts less than one day : 64800s !! (MPL 20120216) |
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363 | IF(forcing_type .EQ. 6) fnday=64800./86400. |
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364 | annee_ref = anneeref |
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365 | mois = 1 |
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366 | day_ref = dayref |
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367 | heure = 0. |
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368 | itau_dyn = 0 |
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369 | itau_phy = 0 |
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370 | call ymds2ju(annee_ref,mois,day_ref,heure,day) |
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371 | day_ini = day |
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372 | day_end = day_ini + nday |
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373 | |
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374 | IF (forcing_type .eq.2) THEN |
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375 | ! Convert the initial date of Toga-Coare to Julian day |
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376 | call ymds2ju |
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377 | $ (year_ini_toga,mth_ini_toga,day_ini_toga,heure,day_ju_ini_toga) |
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378 | |
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379 | ELSEIF (forcing_type .eq.4) THEN |
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380 | ! Convert the initial date of TWPICE to Julian day |
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381 | call ymds2ju |
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382 | $ (year_ini_twpi,mth_ini_twpi,day_ini_twpi,heure_ini_twpi |
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383 | $ ,day_ju_ini_twpi) |
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384 | ELSEIF (forcing_type .eq.6) THEN |
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385 | ! Convert the initial date of AMMA to Julian day |
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386 | call ymds2ju |
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387 | $ (year_ini_amma,mth_ini_amma,day_ini_amma,heure_ini_amma |
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388 | $ ,day_ju_ini_amma) |
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389 | |
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390 | ELSEIF (forcing_type .eq.59) THEN |
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391 | ! Convert the initial date of Sandu case to Julian day |
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392 | call ymds2ju |
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393 | $ (year_ini_sandu,mth_ini_sandu,day_ini_sandu, |
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394 | $ time_ini*3600.,day_ju_ini_sandu) |
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395 | |
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396 | ELSEIF (forcing_type .eq.60) THEN |
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397 | ! Convert the initial date of Astex case to Julian day |
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398 | call ymds2ju |
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399 | $ (year_ini_astex,mth_ini_astex,day_ini_astex, |
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400 | $ time_ini*3600.,day_ju_ini_astex) |
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401 | |
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402 | ELSEIF (forcing_type .eq.61) THEN |
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403 | |
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404 | ! Convert the initial date of Arm_cu case to Julian day |
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405 | call ymds2ju |
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406 | $ (year_ini_armcu,mth_ini_armcu,day_ini_armcu,heure_ini_armcu |
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407 | $ ,day_ju_ini_armcu) |
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408 | ENDIF |
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409 | |
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410 | daytime = day + time_ini/24. ! 1st day and initial time of the simulation |
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411 | ! Print out the actual date of the beginning of the simulation : |
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412 | call ju2ymds(daytime,year_print, month_print,day_print,sec_print) |
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413 | print *,' Time of beginning : ', |
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414 | $ year_print, month_print, day_print, sec_print |
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415 | |
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416 | !--------------------------------------------------------------------- |
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417 | ! Initialization of dimensions, geometry and initial state |
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418 | !--------------------------------------------------------------------- |
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419 | call init_phys_lmdz(1,1,llm,1,(/1/)) |
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420 | call suphel |
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421 | call initcomgeomphy |
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422 | call infotrac_init |
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423 | |
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424 | allocate(q(llm,nqtot)) ; q(:,:)=0. |
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425 | allocate(dq(llm,nqtot)) |
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426 | allocate(dq_dyn(llm,nqtot)) |
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427 | allocate(d_q_adv(llm,nqtot)) |
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428 | |
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429 | c |
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430 | c No ozone climatology need be read in this pre-initialization |
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431 | c (phys_state_var_init is called again in physiq) |
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432 | read_climoz = 0 |
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433 | c |
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434 | call phys_state_var_init(read_climoz) |
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435 | |
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436 | if (ngrid.ne.klon) then |
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437 | print*,'stop in inifis' |
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438 | print*,'Probleme de dimensions :' |
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439 | print*,'ngrid = ',ngrid |
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440 | print*,'klon = ',klon |
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441 | stop |
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442 | endif |
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443 | !!!===================================================================== |
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444 | !!! Feedback forcing values for Gateaux differentiation (al1) |
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445 | !!!===================================================================== |
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446 | !!! Surface Planck forcing bracketing call radiation |
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447 | !! surf_Planck = 0. |
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448 | !! surf_Conv = 0. |
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449 | !! write(*,*) 'Gateaux-dif Planck,Conv:',surf_Planck,surf_Conv |
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450 | !!! a mettre dans le lmdz1d.def ou autre |
---|
451 | !! |
---|
452 | !! |
---|
453 | qsol = qsolinp |
---|
454 | qsurf = fq_sat(tsurf,psurf/100.) |
---|
455 | rlat=xlat |
---|
456 | rlon=xlon |
---|
457 | day1= day_ini |
---|
458 | time=daytime-day |
---|
459 | ts_toga(1)=tsurf ! needed by read_tsurf1d.F |
---|
460 | rho(1)=psurf/(rd*tsurf*(1.+(rv/rd-1.)*qsurf)) |
---|
461 | |
---|
462 | ! |
---|
463 | !! mpl et jyg le 22/08/2012 : |
---|
464 | !! pour que les cas a flux de surface imposes marchent |
---|
465 | IF(.NOT.ok_flux_surf) THEN |
---|
466 | fsens=-wtsurf*rcpd*rho(1) |
---|
467 | flat=-wqsurf*rlvtt*rho(1) |
---|
468 | print *,'Flux: ok_flux wtsurf wqsurf',ok_flux_surf,wtsurf,wqsurf |
---|
469 | ENDIF |
---|
470 | !! ok_flux_surf=.false. |
---|
471 | !! fsens=-wtsurf*rcpd*rho(1) |
---|
472 | !! flat=-wqsurf*rlvtt*rho(1) |
---|
473 | !!!! |
---|
474 | |
---|
475 | ! Vertical discretization and pressure levels at half and mid levels: |
---|
476 | |
---|
477 | pa = 5e4 |
---|
478 | !! preff= 1.01325e5 |
---|
479 | preff = psurf |
---|
480 | IF (ok_old_disvert) THEN |
---|
481 | call disvert0(pa,preff,ap,bp,dpres,presnivs,nivsigs,nivsig) |
---|
482 | print *,'On utilise disvert0' |
---|
483 | ELSE |
---|
484 | call disvert(pa,preff,ap,bp,dpres,presnivs,nivsigs,nivsig, |
---|
485 | : scaleheight) |
---|
486 | print *,'On utilise disvert' |
---|
487 | c Nouvelle version disvert permettant d imposer ap,bp (modif L.Guez) MPL 18092012 |
---|
488 | c Dans ce cas, on lit ap,bp dans le fichier hybrid.txt |
---|
489 | ENDIF |
---|
490 | sig_s=presnivs/preff |
---|
491 | plev =ap+bp*psurf |
---|
492 | play = 0.5*(plev(1:llm)+plev(2:llm+1)) |
---|
493 | ccc zlay=-rd*300.*log(play/psurf)/rg ! moved after reading profiles |
---|
494 | |
---|
495 | IF (forcing_type .eq. 59) THEN |
---|
496 | ! pour forcing_sandu, on cherche l'indice le plus proche de 700hpa#3000m |
---|
497 | write(*,*) '***********************' |
---|
498 | do l = 1, llm |
---|
499 | write(*,*) 'l,play(l),presnivs(l): ',l,play(l),presnivs(l) |
---|
500 | if (trouve_700 .and. play(l).le.70000) then |
---|
501 | llm700=l |
---|
502 | print *,'llm700,play=',llm700,play(l)/100. |
---|
503 | trouve_700= .false. |
---|
504 | endif |
---|
505 | enddo |
---|
506 | write(*,*) '***********************' |
---|
507 | ENDIF |
---|
508 | |
---|
509 | c |
---|
510 | !===================================================================== |
---|
511 | ! EVENTUALLY, READ FORCING DATA : |
---|
512 | !===================================================================== |
---|
513 | |
---|
514 | #include "1D_read_forc_cases.h" |
---|
515 | |
---|
516 | if (forcing_GCM2SCM) then |
---|
517 | write (*,*) 'forcing_GCM2SCM not yet implemented' |
---|
518 | stop 'in initialization' |
---|
519 | endif ! forcing_GCM2SCM |
---|
520 | |
---|
521 | print*,'mxcalc=',mxcalc |
---|
522 | print*,'zlay=',zlay(mxcalc) |
---|
523 | print*,'play=',play(mxcalc) |
---|
524 | |
---|
525 | cAl1 pour SST forced, appellé depuis ocean_forced_noice |
---|
526 | ts_cur = tsurf ! SST used in read_tsurf1d |
---|
527 | !===================================================================== |
---|
528 | ! Initialisation de la physique : |
---|
529 | !===================================================================== |
---|
530 | |
---|
531 | ! Rq: conf_phys.F90 lit tous les flags de physiq.def; conf_phys appele depuis physiq.F |
---|
532 | ! |
---|
533 | ! day_step, iphysiq lus dans gcm.def ci-dessus |
---|
534 | ! timestep: calcule ci-dessous from rday et day_step |
---|
535 | ! ngrid=1 |
---|
536 | ! llm: defini dans .../modipsl/modeles/LMDZ4/libf/grid/dimension |
---|
537 | ! rday: defini dans suphel.F (86400.) |
---|
538 | ! day_ini: lu dans run.def (dayref) |
---|
539 | ! rlat_rad,rlon-rad: transformes en radian de rlat,rlon lus dans lmdz1d.def (en degres) |
---|
540 | ! airefi,zcufi,zcvfi initialises au debut de ce programme |
---|
541 | ! rday,ra,rg,rd,rcpd declares dans YOMCST.h et calcules dans suphel.F |
---|
542 | day_step = float(nsplit_phys)*day_step/float(iphysiq) |
---|
543 | write (*,*) 'Time step divided by nsplit_phys (=',nsplit_phys,')' |
---|
544 | timestep =rday/day_step |
---|
545 | dtime_frcg = timestep |
---|
546 | ! |
---|
547 | zcufi=airefi |
---|
548 | zcvfi=airefi |
---|
549 | ! |
---|
550 | rlat_rad(:)=rlat(:)*rpi/180. |
---|
551 | rlon_rad(:)=rlon(:)*rpi/180. |
---|
552 | |
---|
553 | call iniphysiq(ngrid,llm,rday,day_ini,timestep, |
---|
554 | . rlat_rad,rlon_rad,airefi,zcufi,zcvfi,ra,rg,rd,rcpd,(/1/)) |
---|
555 | print*,'apres iniphysiq' |
---|
556 | |
---|
557 | ! 2 PARAMETRES QUI DEVRAIENT ETRE LUS DANS run.def MAIS NE LE SONT PAS ICI: |
---|
558 | co2_ppm= 330.0 |
---|
559 | solaire=1370.0 |
---|
560 | |
---|
561 | ! Ecriture du startphy avant le premier appel a la physique. |
---|
562 | ! On le met juste avant pour avoir acces a tous les champs |
---|
563 | ! NB: les clesphy0 seront remplies dans phyredem d'apres les flags lus dans gcm.def |
---|
564 | |
---|
565 | if (ok_writedem) then |
---|
566 | |
---|
567 | !-------------------------------------------------------------------------- |
---|
568 | ! pbl_surface_init (called here) and pbl_surface_final (called by phyredem) |
---|
569 | ! need : qsol fder snow qsurf evap rugos agesno ftsoil |
---|
570 | !-------------------------------------------------------------------------- |
---|
571 | |
---|
572 | type_ocean = "force" |
---|
573 | run_off_lic_0(1) = restart_runoff |
---|
574 | call fonte_neige_init(run_off_lic_0) |
---|
575 | |
---|
576 | fder=0. |
---|
577 | snsrf(1,:)=0. ! couverture de neige des sous surface |
---|
578 | qsurfsrf(1,:)=qsurf ! humidite de l'air des sous surface |
---|
579 | evap=0. |
---|
580 | frugs(1,:)=rugos ! couverture de neige des sous surface |
---|
581 | agesno = xagesno |
---|
582 | tsoil(:,:,:)=tsurf |
---|
583 | !------ AMMA 2e run avec modele sol et rayonnement actif (MPL 23052012) |
---|
584 | ! tsoil(1,1,1)=299.18 |
---|
585 | ! tsoil(1,2,1)=300.08 |
---|
586 | ! tsoil(1,3,1)=301.88 |
---|
587 | ! tsoil(1,4,1)=305.48 |
---|
588 | ! tsoil(1,5,1)=308.00 |
---|
589 | ! tsoil(1,6,1)=308.00 |
---|
590 | ! tsoil(1,7,1)=308.00 |
---|
591 | ! tsoil(1,8,1)=308.00 |
---|
592 | ! tsoil(1,9,1)=308.00 |
---|
593 | ! tsoil(1,10,1)=308.00 |
---|
594 | ! tsoil(1,11,1)=308.00 |
---|
595 | !----------------------------------------------------------------------- |
---|
596 | call pbl_surface_init(qsol, fder, snsrf, qsurfsrf, |
---|
597 | & evap, frugs, agesno, tsoil) |
---|
598 | |
---|
599 | !------------------ prepare limit conditions for limit.nc ----------------- |
---|
600 | !-- Ocean force |
---|
601 | |
---|
602 | print*,'avant phyredem' |
---|
603 | pctsrf(1,:)=0. |
---|
604 | if (nat_surf.eq.0.) then |
---|
605 | pctsrf(1,is_oce)=1. |
---|
606 | pctsrf(1,is_ter)=0. |
---|
607 | else |
---|
608 | pctsrf(1,is_oce)=0. |
---|
609 | pctsrf(1,is_ter)=1. |
---|
610 | end if |
---|
611 | |
---|
612 | print*,'nat_surf,pctsrf(1,is_oce),pctsrf(1,is_ter)',nat_surf |
---|
613 | $ ,pctsrf(1,is_oce),pctsrf(1,is_ter) |
---|
614 | |
---|
615 | zmasq=pctsrf(1,is_ter)+pctsrf(1,is_lic) |
---|
616 | zpic = zpicinp |
---|
617 | ftsol=tsurf |
---|
618 | falb1 = albedo |
---|
619 | falb2 = albedo |
---|
620 | rugoro=rugos |
---|
621 | t_ancien(1,:)=temp(:) |
---|
622 | q_ancien(1,:)=q(:,1) |
---|
623 | pbl_tke=1.e-8 |
---|
624 | |
---|
625 | rain_fall=0. |
---|
626 | snow_fall=0. |
---|
627 | solsw=0. |
---|
628 | sollw=0. |
---|
629 | radsol=0. |
---|
630 | rnebcon=0. |
---|
631 | ratqs=0. |
---|
632 | clwcon=0. |
---|
633 | zmea=0. |
---|
634 | zstd=0. |
---|
635 | zsig=0. |
---|
636 | zgam=0. |
---|
637 | zval=0. |
---|
638 | zthe=0. |
---|
639 | sig1=0. |
---|
640 | w01=0. |
---|
641 | u_ancien(1,:)=u(:) |
---|
642 | v_ancien(1,:)=v(:) |
---|
643 | |
---|
644 | !------------------------------------------------------------------------ |
---|
645 | ! Make file containing restart for the physics (startphy.nc) |
---|
646 | ! |
---|
647 | ! NB: List of the variables to be written by phyredem (via put_field): |
---|
648 | ! rlon,rlat,zmasq,pctsrf(:,is_ter),pctsrf(:,is_lic),pctsrf(:,is_oce) |
---|
649 | ! pctsrf(:,is_sic),ftsol(:,nsrf),tsoil(:,isoil,nsrf),qsurf(:,nsrf) |
---|
650 | ! qsol,falb1(:,nsrf),falb2(:,nsrf),evap(:,nsrf),snow(:,nsrf) |
---|
651 | ! radsol,solsw,sollw,fder,rain_fall,snow_fall,frugs(:,nsrf) |
---|
652 | ! agesno(:,nsrf),zmea,zstd,zsig,zgam,zthe,zpic,zval,rugoro |
---|
653 | ! t_ancien,q_ancien,frugs(:,is_oce),clwcon(:,1),rnebcon(:,1),ratqs(:,1) |
---|
654 | ! run_off_lic_0,pbl_tke(:,1:klev,nsrf),zmax0,f0,sig1,w01 |
---|
655 | ! wake_deltat,wake_deltaq,wake_s,wake_cstar,wake_fip |
---|
656 | !------------------------------------------------------------------------ |
---|
657 | CAl1 =============== restart option ========================== |
---|
658 | if (.not.restart) then |
---|
659 | call phyredem ("startphy.nc") |
---|
660 | else |
---|
661 | c (desallocations) |
---|
662 | print*,'callin surf final' |
---|
663 | call pbl_surface_final(qsol, fder, snsrf, qsurfsrf, |
---|
664 | & evap, frugs, agesno, tsoil) |
---|
665 | print*,'after surf final' |
---|
666 | CALL fonte_neige_final(run_off_lic_0) |
---|
667 | endif |
---|
668 | |
---|
669 | ok_writedem=.false. |
---|
670 | print*,'apres phyredem' |
---|
671 | |
---|
672 | endif ! ok_writedem |
---|
673 | |
---|
674 | !------------------------------------------------------------------------ |
---|
675 | ! Make file containing boundary conditions (limit.nc) **Al1->restartdyn*** |
---|
676 | ! -------------------------------------------------- |
---|
677 | ! NB: List of the variables to be written in limit.nc |
---|
678 | ! (by writelim.F, subroutine of 1DUTILS.h): |
---|
679 | ! phy_nat,phy_alb,phy_sst,phy_bil,phy_rug,phy_ice, |
---|
680 | ! phy_fter,phy_foce,phy_flic,phy_fsic) |
---|
681 | !------------------------------------------------------------------------ |
---|
682 | do i=1,yd |
---|
683 | phy_nat(i) = nat_surf |
---|
684 | phy_alb(i) = albedo |
---|
685 | phy_sst(i) = tsurf ! read_tsurf1d will be used instead |
---|
686 | phy_rug(i) = rugos |
---|
687 | phy_fter(i) = pctsrf(1,is_ter) |
---|
688 | phy_foce(i) = pctsrf(1,is_oce) |
---|
689 | phy_fsic(i) = pctsrf(1,is_sic) |
---|
690 | phy_flic(i) = pctsrf(1,is_lic) |
---|
691 | enddo |
---|
692 | |
---|
693 | C fabrication de limit.nc |
---|
694 | call writelim (1,phy_nat,phy_alb,phy_sst,phy_bil,phy_rug, |
---|
695 | & phy_ice,phy_fter,phy_foce,phy_flic,phy_fsic) |
---|
696 | |
---|
697 | |
---|
698 | call phys_state_var_end |
---|
699 | cAl1 |
---|
700 | if (restart) then |
---|
701 | print*,'call to restart dyn 1d' |
---|
702 | Call dyn1deta0("start1dyn.nc", |
---|
703 | & plev,play,phi,phis,presnivs, |
---|
704 | & u,v,temp,q,omega2) |
---|
705 | |
---|
706 | print*,'fnday,annee_ref,day_ref,day_ini', |
---|
707 | & fnday,annee_ref,day_ref,day_ini |
---|
708 | c** call ymds2ju(annee_ref,mois,day_ini,heure,day) |
---|
709 | day = day_ini |
---|
710 | day_end = day_ini + nday |
---|
711 | daytime = day + time_ini/24. ! 1st day and initial time of the simulation |
---|
712 | |
---|
713 | ! Print out the actual date of the beginning of the simulation : |
---|
714 | call ju2ymds(daytime, an, mois, jour, heure) |
---|
715 | print *,' Time of beginning : y m d h',an, mois,jour,heure/3600. |
---|
716 | |
---|
717 | day = int(daytime) |
---|
718 | time=daytime-day |
---|
719 | |
---|
720 | print*,'****** intialised fields from restart1dyn *******' |
---|
721 | print*,'plev,play,phi,phis,presnivs,u,v,temp,q,omega2' |
---|
722 | print*,'temp(1),q(1,1),u(1),v(1),plev(1),phis :' |
---|
723 | print*,temp(1),q(1,1),u(1),v(1),plev(1),phis |
---|
724 | c raz for safety |
---|
725 | do l=1,llm |
---|
726 | dq_dyn(l,1) = 0. |
---|
727 | enddo |
---|
728 | endif |
---|
729 | !Al1 ================ end restart ================================= |
---|
730 | IF (ecrit_slab_oc.eq.1) then |
---|
731 | open(97,file='div_slab.dat',STATUS='UNKNOWN') |
---|
732 | elseif (ecrit_slab_oc.eq.0) then |
---|
733 | open(97,file='div_slab.dat',STATUS='OLD') |
---|
734 | endif |
---|
735 | !===================================================================== |
---|
736 | ! START OF THE TEMPORAL LOOP : |
---|
737 | !===================================================================== |
---|
738 | |
---|
739 | do while(it.le.nint(fnday*day_step)) |
---|
740 | |
---|
741 | if (prt_level.ge.1) then |
---|
742 | print*,'XXXXXXXXXXXXXXXXXXX ITAP,day,time=', |
---|
743 | . it,day,time,nint(fnday*day_step) |
---|
744 | print*,'PAS DE TEMPS ',timestep |
---|
745 | endif |
---|
746 | !Al1 demande de restartphy.nc |
---|
747 | if (it.eq.nint(fnday*day_step)) lastcall=.True. |
---|
748 | |
---|
749 | !--------------------------------------------------------------------- |
---|
750 | ! Interpolation of forcings in time and onto model levels |
---|
751 | !--------------------------------------------------------------------- |
---|
752 | |
---|
753 | #include "1D_interp_cases.h" |
---|
754 | |
---|
755 | if (forcing_GCM2SCM) then |
---|
756 | write (*,*) 'forcing_GCM2SCM not yet implemented' |
---|
757 | stop 'in time loop' |
---|
758 | endif ! forcing_GCM2SCM |
---|
759 | |
---|
760 | !--------------------------------------------------------------------- |
---|
761 | ! Geopotential : |
---|
762 | !--------------------------------------------------------------------- |
---|
763 | |
---|
764 | phi(1)=RD*temp(1)*(plev(1)-play(1))/(.5*(plev(1)+play(1))) |
---|
765 | do l = 1, llm-1 |
---|
766 | phi(l+1)=phi(l)+RD*(temp(l)+temp(l+1))* |
---|
767 | . (play(l)-play(l+1))/(play(l)+play(l+1)) |
---|
768 | enddo |
---|
769 | |
---|
770 | !--------------------------------------------------------------------- |
---|
771 | ! Listing output for debug prt_level>=1 |
---|
772 | !--------------------------------------------------------------------- |
---|
773 | if (prt_level>=1) then |
---|
774 | print *,' avant physiq : -------- day time ',day,time |
---|
775 | write(*,*) 'firstcall,lastcall,phis', |
---|
776 | : firstcall,lastcall,phis |
---|
777 | write(*,'(a10,2a4,4a13)') 'BEFOR1 IT=','it','l', |
---|
778 | : 'presniv','plev','play','phi' |
---|
779 | write(*,'(a10,2i4,4f13.2)') ('BEFOR1 IT= ',it,l, |
---|
780 | : presnivs(l),plev(l),play(l),phi(l),l=1,llm) |
---|
781 | write(*,'(a11,2a4,a11,6a8)') 'BEFOR2','it','l', |
---|
782 | : 'presniv','u','v','temp','q1','q2','omega2' |
---|
783 | write(*,'(a11,2i4,f11.2,5f8.2,e10.2)') ('BEFOR2 IT= ',it,l, |
---|
784 | : presnivs(l),u(l),v(l),temp(l),q(l,1),q(l,2),omega2(l),l=1,llm) |
---|
785 | endif |
---|
786 | |
---|
787 | !--------------------------------------------------------------------- |
---|
788 | ! Call physiq : |
---|
789 | !--------------------------------------------------------------------- |
---|
790 | |
---|
791 | call physiq(ngrid,llm, |
---|
792 | : firstcall,lastcall, |
---|
793 | : day,time,timestep, |
---|
794 | : plev,play,phi,phis,presnivs,clesphy0, |
---|
795 | : u,v,temp,q,omega2, |
---|
796 | : du_phys,dv_phys,dt_phys,dq,dpsrf, |
---|
797 | : dudyn,PVteta) |
---|
798 | firstcall=.false. |
---|
799 | |
---|
800 | !--------------------------------------------------------------------- |
---|
801 | ! Listing output for debug prt_level>=1 |
---|
802 | !--------------------------------------------------------------------- |
---|
803 | if (prt_level>=1) then |
---|
804 | write(*,'(a11,2a4,4a13)') 'AFTER1 IT=','it','l', |
---|
805 | : 'presniv','plev','play','phi' |
---|
806 | write(*,'(a11,2i4,4f13.2)') ('AFTER1 it= ',it,l, |
---|
807 | : presnivs(l),plev(l),play(l),phi(l),l=1,llm) |
---|
808 | write(*,'(a11,2a4,a11,6a8)') 'AFTER2','it','l', |
---|
809 | : 'presniv','u','v','temp','q1','q2','omega2' |
---|
810 | write(*,'(a11,2i4,f11.2,5f8.2,e10.2)') ('AFTER2 it= ',it,l, |
---|
811 | : presnivs(l),u(l),v(l),temp(l),q(l,1),q(l,2),omega2(l),l=1,llm) |
---|
812 | write(*,'(a11,2a4,a11,5a8)') 'AFTER3','it','l', |
---|
813 | : 'presniv','du_phys','dv_phys','dt_phys','dq1','dq2' |
---|
814 | write(*,'(a11,2i4,f11.2,5f8.2)') ('AFTER3 it= ',it,l, |
---|
815 | : presnivs(l),86400*du_phys(l),86400*dv_phys(l), |
---|
816 | : 86400*dt_phys(l),86400*dq(l,1),dq(l,2),l=1,llm) |
---|
817 | write(*,*) 'dpsrf',dpsrf |
---|
818 | endif |
---|
819 | !--------------------------------------------------------------------- |
---|
820 | ! Add physical tendencies : |
---|
821 | !--------------------------------------------------------------------- |
---|
822 | |
---|
823 | fcoriolis=2.*sin(rpi*xlat/180.)*romega |
---|
824 | if (forcing_radconv .or. forcing_fire) then |
---|
825 | fcoriolis=0.0 |
---|
826 | dt_cooling=0.0 |
---|
827 | d_th_adv=0.0 |
---|
828 | d_q_adv=0.0 |
---|
829 | endif |
---|
830 | |
---|
831 | if (forcing_toga .or. forcing_GCSSold .or. forcing_twpice |
---|
832 | : .or.forcing_amma) then |
---|
833 | fcoriolis=0.0 ; ug=0. ; vg=0. |
---|
834 | endif |
---|
835 | if(forcing_rico) then |
---|
836 | dt_cooling=0. |
---|
837 | endif |
---|
838 | |
---|
839 | print*, 'fcoriolis ', fcoriolis, xlat |
---|
840 | |
---|
841 | du_age(1:mxcalc)= |
---|
842 | : fcoriolis*(v(1:mxcalc)-vg(1:mxcalc)) |
---|
843 | dv_age(1:mxcalc)= |
---|
844 | : -fcoriolis*(u(1:mxcalc)-ug(1:mxcalc)) |
---|
845 | |
---|
846 | !!!!!!!!!!!!!!!!!!!!!!!! |
---|
847 | ! Geostrophic wind |
---|
848 | !!!!!!!!!!!!!!!!!!!!!!!! |
---|
849 | sfdt = sin(0.5*fcoriolis*timestep) |
---|
850 | cfdt = cos(0.5*fcoriolis*timestep) |
---|
851 | ! |
---|
852 | du_age(1:mxcalc)= -2.*sfdt/timestep* |
---|
853 | : (sfdt*(u(1:mxcalc)-ug(1:mxcalc)) - |
---|
854 | : cfdt*(v(1:mxcalc)-vg(1:mxcalc)) ) |
---|
855 | !! : fcoriolis*(v(1:mxcalc)-vg(1:mxcalc)) |
---|
856 | ! |
---|
857 | dv_age(1:mxcalc)= -2.*sfdt/timestep* |
---|
858 | : (cfdt*(u(1:mxcalc)-ug(1:mxcalc)) + |
---|
859 | : sfdt*(v(1:mxcalc)-vg(1:mxcalc)) ) |
---|
860 | !! : -fcoriolis*(u(1:mxcalc)-ug(1:mxcalc)) |
---|
861 | ! |
---|
862 | !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! |
---|
863 | ! call writefield_phy('dv_age' ,dv_age,llm) |
---|
864 | ! call writefield_phy('du_age' ,du_age,llm) |
---|
865 | ! call writefield_phy('du_phys' ,du_phys,llm) |
---|
866 | ! call writefield_phy('u_tend' ,u,llm) |
---|
867 | ! call writefield_phy('u_g' ,ug,llm) |
---|
868 | ! |
---|
869 | !!!!!!!!!!!!!!!!!!!!!!!!!!!!! |
---|
870 | !! Increment state variables |
---|
871 | !!!!!!!!!!!!!!!!!!!!!!!!!!!!! |
---|
872 | u(1:mxcalc)=u(1:mxcalc) + timestep*( |
---|
873 | : du_phys(1:mxcalc) |
---|
874 | : +du_age(1:mxcalc) ) |
---|
875 | v(1:mxcalc)=v(1:mxcalc) + timestep*( |
---|
876 | : dv_phys(1:mxcalc) |
---|
877 | : +dv_age(1:mxcalc) ) |
---|
878 | q(1:mxcalc,:)=q(1:mxcalc,:)+timestep*( |
---|
879 | : dq(1:mxcalc,:) |
---|
880 | : +d_q_adv(1:mxcalc,:) ) |
---|
881 | |
---|
882 | if (prt_level.ge.1) then |
---|
883 | print *, |
---|
884 | : 'physiq-> temp(1),dt_phys(1),d_th_adv(1),dt_cooling(1) ', |
---|
885 | : temp(1),dt_phys(1),d_th_adv(1),dt_cooling(1) |
---|
886 | print*,du_phys |
---|
887 | print*, v |
---|
888 | print*, vg |
---|
889 | endif |
---|
890 | |
---|
891 | temp(1:mxcalc)=temp(1:mxcalc)+timestep*( |
---|
892 | . dt_phys(1:mxcalc) |
---|
893 | . +d_th_adv(1:mxcalc) |
---|
894 | . +dt_cooling(1:mxcalc)) ! Taux de chauffage ou refroid. |
---|
895 | |
---|
896 | teta=temp*(pzero/play)**rkappa |
---|
897 | ! |
---|
898 | !--------------------------------------------------------------------- |
---|
899 | ! Nudge soil temperature if requested |
---|
900 | !--------------------------------------------------------------------- |
---|
901 | |
---|
902 | IF (nudge_tsoil) THEN |
---|
903 | ftsoil(1,isoil_nudge,:) = ftsoil(1,isoil_nudge,:) |
---|
904 | . -timestep/tau_soil_nudge*(ftsoil(1,isoil_nudge,:)-Tsoil_nudge) |
---|
905 | ENDIF |
---|
906 | |
---|
907 | !--------------------------------------------------------------------- |
---|
908 | ! Add large-scale tendencies (advection, etc) : |
---|
909 | !--------------------------------------------------------------------- |
---|
910 | |
---|
911 | ccc nrlmd |
---|
912 | ccc tmpvar=teta |
---|
913 | ccc call advect_vert(llm,omega,timestep,tmpvar,plev) |
---|
914 | ccc |
---|
915 | ccc teta(1:mxcalc)=tmpvar(1:mxcalc) |
---|
916 | ccc tmpvar(:)=q(:,1) |
---|
917 | ccc call advect_vert(llm,omega,timestep,tmpvar,plev) |
---|
918 | ccc q(1:mxcalc,1)=tmpvar(1:mxcalc) |
---|
919 | ccc tmpvar(:)=q(:,2) |
---|
920 | ccc call advect_vert(llm,omega,timestep,tmpvar,plev) |
---|
921 | ccc q(1:mxcalc,2)=tmpvar(1:mxcalc) |
---|
922 | |
---|
923 | !--------------------------------------------------------------------- |
---|
924 | ! Air temperature : |
---|
925 | !--------------------------------------------------------------------- |
---|
926 | if (lastcall) then |
---|
927 | print*,'Pas de temps final ',it |
---|
928 | call ju2ymds(daytime, an, mois, jour, heure) |
---|
929 | print*,'a la date : a m j h',an, mois, jour ,heure/3600. |
---|
930 | endif |
---|
931 | |
---|
932 | c incremente day time |
---|
933 | c print*,'daytime bef',daytime,1./day_step |
---|
934 | daytime = daytime+1./day_step |
---|
935 | !Al1dbg |
---|
936 | day = int(daytime+0.1/day_step) |
---|
937 | c time = max(daytime-day,0.0) |
---|
938 | cAl1&jyg: correction de bug |
---|
939 | ccc time = real(mod(it,day_step))/day_step |
---|
940 | time = time_ini/24.+real(mod(it,day_step))/day_step |
---|
941 | c print*,'daytime nxt time',daytime,time |
---|
942 | it=it+1 |
---|
943 | |
---|
944 | enddo |
---|
945 | |
---|
946 | !Al1 |
---|
947 | if (ecrit_slab_oc.ne.-1) close(97) |
---|
948 | |
---|
949 | !Al1 Call to 1D equivalent of dynredem (an,mois,jour,heure ?) |
---|
950 | ! ------------------------------------- |
---|
951 | call dyn1dredem("restart1dyn.nc", |
---|
952 | : plev,play,phi,phis,presnivs, |
---|
953 | : u,v,temp,q,omega2) |
---|
954 | |
---|
955 | CALL abort_gcm ('lmdz1d ','The End ',0) |
---|
956 | |
---|
957 | end |
---|
958 | |
---|
959 | #include "1DUTILS.h" |
---|
960 | #include "1Dconv.h" |
---|
961 | |
---|
962 | |
---|