1 | #include "conf_gcm.F90" |
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2 | |
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3 | ! |
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4 | ! $Id: 1DUTILS.h 3594 2019-10-29 06:32:03Z fhourdin $ |
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5 | ! |
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6 | ! |
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7 | ! |
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8 | SUBROUTINE conf_unicol |
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9 | ! |
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10 | #ifdef CPP_IOIPSL |
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11 | use IOIPSL |
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12 | #else |
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13 | ! if not using IOIPSL, we still need to use (a local version of) getin |
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14 | use ioipsl_getincom |
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15 | #endif |
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16 | USE print_control_mod, ONLY: lunout |
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17 | IMPLICIT NONE |
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18 | !----------------------------------------------------------------------- |
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19 | ! Auteurs : A. Lahellec . |
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20 | ! |
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21 | ! Declarations : |
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22 | ! -------------- |
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23 | |
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24 | #include "compar1d.h" |
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25 | #include "flux_arp.h" |
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26 | #include "tsoilnudge.h" |
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27 | #include "fcg_gcssold.h" |
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28 | #include "fcg_racmo.h" |
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29 | ! |
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30 | ! |
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31 | ! local: |
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32 | ! ------ |
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33 | |
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34 | ! CHARACTER ch1*72,ch2*72,ch3*72,ch4*12 |
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35 | |
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36 | ! |
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37 | ! ------------------------------------------------------------------- |
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38 | ! |
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39 | ! ......... Initilisation parametres du lmdz1D .......... |
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40 | ! |
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41 | !--------------------------------------------------------------------- |
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42 | ! initialisations: |
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43 | ! ---------------- |
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44 | |
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45 | !Config Key = lunout |
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46 | !Config Desc = unite de fichier pour les impressions |
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47 | !Config Def = 6 |
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48 | !Config Help = unite de fichier pour les impressions |
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49 | !Config (defaut sortie standard = 6) |
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50 | lunout=6 |
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51 | ! CALL getin('lunout', lunout) |
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52 | IF (lunout /= 5 .and. lunout /= 6) THEN |
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53 | OPEN(lunout,FILE='lmdz.out') |
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54 | ENDIF |
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55 | |
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56 | !Config Key = prt_level |
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57 | !Config Desc = niveau d'impressions de debogage |
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58 | !Config Def = 0 |
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59 | !Config Help = Niveau d'impression pour le debogage |
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60 | !Config (0 = minimum d'impression) |
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61 | ! prt_level = 0 |
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62 | ! CALL getin('prt_level',prt_level) |
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63 | |
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64 | !----------------------------------------------------------------------- |
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65 | ! Parametres de controle du run: |
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66 | !----------------------------------------------------------------------- |
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67 | |
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68 | !Config Key = restart |
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69 | !Config Desc = on repart des startphy et start1dyn |
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70 | !Config Def = false |
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71 | !Config Help = les fichiers restart doivent etre renomme en start |
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72 | restart =.false. |
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73 | CALL getin('restart',restart) |
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74 | |
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75 | !Config Key = forcing_type |
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76 | !Config Desc = defines the way the SCM is forced: |
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77 | !Config Def = 0 |
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78 | !!Config Help = 0 ==> forcing_les = .true. |
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79 | ! initial profiles from file prof.inp.001 |
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80 | ! no forcing by LS convergence ; |
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81 | ! surface temperature imposed ; |
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82 | ! radiative cooling may be imposed (iflag_radia=0 in physiq.def) |
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83 | ! = 1 ==> forcing_radconv = .true. |
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84 | ! idem forcing_type = 0, but the imposed radiative cooling |
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85 | ! is set to 0 (hence, if iflag_radia=0 in physiq.def, |
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86 | ! then there is no radiative cooling at all) |
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87 | ! = 2 ==> forcing_toga = .true. |
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88 | ! initial profiles from TOGA-COARE IFA files |
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89 | ! LS convergence and SST imposed from TOGA-COARE IFA files |
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90 | ! = 3 ==> forcing_GCM2SCM = .true. |
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91 | ! initial profiles from the GCM output |
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92 | ! LS convergence imposed from the GCM output |
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93 | ! = 4 ==> forcing_twpi = .true. |
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94 | ! initial profiles from TWPICE nc files |
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95 | ! LS convergence and SST imposed from TWPICE nc files |
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96 | ! = 5 ==> forcing_rico = .true. |
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97 | ! initial profiles from RICO idealized |
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98 | ! LS convergence imposed from RICO (cst) |
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99 | ! = 6 ==> forcing_amma = .true. |
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100 | ! = 10 ==> forcing_case = .true. |
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101 | ! initial profiles from case.nc file |
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102 | ! = 40 ==> forcing_GCSSold = .true. |
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103 | ! initial profile from GCSS file |
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104 | ! LS convergence imposed from GCSS file |
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105 | ! = 50 ==> forcing_fire = .true. |
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106 | ! = 59 ==> forcing_sandu = .true. |
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107 | ! initial profiles from sanduref file: see prof.inp.001 |
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108 | ! SST varying with time and divergence constante: see ifa_sanduref.txt file |
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109 | ! Radiation has to be computed interactively |
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110 | ! = 60 ==> forcing_astex = .true. |
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111 | ! initial profiles from file: see prof.inp.001 |
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112 | ! SST,divergence,ug,vg,ufa,vfa varying with time : see ifa_astex.txt file |
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113 | ! Radiation has to be computed interactively |
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114 | ! = 61 ==> forcing_armcu = .true. |
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115 | ! initial profiles from file: see prof.inp.001 |
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116 | ! sensible and latent heat flux imposed: see ifa_arm_cu_1.txt |
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117 | ! large scale advective forcing & radiative tendencies applied below 1000m: see ifa_arm_cu_2.txt |
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118 | ! use geostrophic wind ug=10m/s vg=0m/s. Duration of the case 53100s |
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119 | ! Radiation to be switched off |
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120 | ! > 100 ==> forcing_case = .true. or forcing_case2 = .true. |
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121 | ! initial profiles from case.nc file |
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122 | ! |
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123 | forcing_type = 0 |
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124 | CALL getin('forcing_type',forcing_type) |
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125 | imp_fcg_gcssold = .false. |
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126 | ts_fcg_gcssold = .false. |
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127 | Tp_fcg_gcssold = .false. |
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128 | Tp_ini_gcssold = .false. |
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129 | xTurb_fcg_gcssold = .false. |
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130 | IF (forcing_type .eq.40) THEN |
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131 | CALL getin('imp_fcg',imp_fcg_gcssold) |
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132 | CALL getin('ts_fcg',ts_fcg_gcssold) |
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133 | CALL getin('tp_fcg',Tp_fcg_gcssold) |
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134 | CALL getin('tp_ini',Tp_ini_gcssold) |
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135 | CALL getin('turb_fcg',xTurb_fcg_gcssold) |
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136 | ENDIF |
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137 | |
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138 | !Parametres de forcage |
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139 | !Config Key = tend_t |
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140 | !Config Desc = forcage ou non par advection de T |
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141 | !Config Def = false |
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142 | !Config Help = forcage ou non par advection de T |
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143 | tend_t =0 |
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144 | CALL getin('tend_t',tend_t) |
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145 | |
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146 | !Config Key = tend_q |
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147 | !Config Desc = forcage ou non par advection de q |
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148 | !Config Def = false |
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149 | !Config Help = forcage ou non par advection de q |
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150 | tend_q =0 |
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151 | CALL getin('tend_q',tend_q) |
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152 | |
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153 | !Config Key = tend_u |
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154 | !Config Desc = forcage ou non par advection de u |
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155 | !Config Def = false |
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156 | !Config Help = forcage ou non par advection de u |
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157 | tend_u =0 |
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158 | CALL getin('tend_u',tend_u) |
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159 | |
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160 | !Config Key = tend_v |
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161 | !Config Desc = forcage ou non par advection de v |
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162 | !Config Def = false |
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163 | !Config Help = forcage ou non par advection de v |
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164 | tend_v =0 |
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165 | CALL getin('tend_v',tend_v) |
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166 | |
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167 | !Config Key = tend_w |
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168 | !Config Desc = forcage ou non par vitesse verticale |
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169 | !Config Def = false |
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170 | !Config Help = forcage ou non par vitesse verticale |
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171 | tend_w =0 |
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172 | CALL getin('tend_w',tend_w) |
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173 | |
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174 | !Config Key = tend_rayo |
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175 | !Config Desc = forcage ou non par dtrad |
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176 | !Config Def = false |
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177 | !Config Help = forcage ou non par dtrad |
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178 | tend_rayo =0 |
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179 | CALL getin('tend_rayo',tend_rayo) |
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180 | |
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181 | |
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182 | !Config Key = nudge_t |
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183 | !Config Desc = constante de nudging de T |
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184 | !Config Def = false |
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185 | !Config Help = constante de nudging de T |
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186 | nudge_t =0. |
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187 | CALL getin('nudge_t',nudge_t) |
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188 | |
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189 | !Config Key = nudge_q |
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190 | !Config Desc = constante de nudging de q |
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191 | !Config Def = false |
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192 | !Config Help = constante de nudging de q |
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193 | nudge_q =0. |
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194 | CALL getin('nudge_q',nudge_q) |
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195 | |
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196 | !Config Key = nudge_u |
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197 | !Config Desc = constante de nudging de u |
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198 | !Config Def = false |
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199 | !Config Help = constante de nudging de u |
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200 | nudge_u =0. |
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201 | CALL getin('nudge_u',nudge_u) |
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202 | |
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203 | !Config Key = nudge_v |
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204 | !Config Desc = constante de nudging de v |
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205 | !Config Def = false |
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206 | !Config Help = constante de nudging de v |
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207 | nudge_v =0. |
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208 | CALL getin('nudge_v',nudge_v) |
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209 | |
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210 | !Config Key = nudge_w |
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211 | !Config Desc = constante de nudging de w |
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212 | !Config Def = false |
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213 | !Config Help = constante de nudging de w |
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214 | nudge_w =0. |
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215 | CALL getin('nudge_w',nudge_w) |
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216 | |
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217 | |
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218 | !Config Key = iflag_nudge |
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219 | !Config Desc = atmospheric nudging ttype (decimal code) |
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220 | !Config Def = 0 |
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221 | !Config Help = 0 ==> no nudging |
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222 | ! If digit number n of iflag_nudge is set, then nudging of type n is on |
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223 | ! If digit number n of iflag_nudge is not set, then nudging of type n is off |
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224 | ! (digits are numbered from the right) |
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225 | iflag_nudge = 0 |
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226 | CALL getin('iflag_nudge',iflag_nudge) |
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227 | |
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228 | !Config Key = ok_flux_surf |
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229 | !Config Desc = forcage ou non par les flux de surface |
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230 | !Config Def = false |
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231 | !Config Help = forcage ou non par les flux de surface |
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232 | ok_flux_surf =.false. |
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233 | CALL getin('ok_flux_surf',ok_flux_surf) |
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234 | |
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235 | !Config Key = ok_prescr_ust |
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236 | !Config Desc = ustar impose ou non |
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237 | !Config Def = false |
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238 | !Config Help = ustar impose ou non |
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239 | ok_prescr_ust = .false. |
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240 | CALL getin('ok_prescr_ust',ok_prescr_ust) |
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241 | |
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242 | !Config Key = ok_old_disvert |
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243 | !Config Desc = utilisation de l ancien programme disvert0 (dans 1DUTILS.h) |
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244 | !Config Def = false |
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245 | !Config Help = utilisation de l ancien programme disvert0 (dans 1DUTILS.h) |
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246 | ok_old_disvert = .FALSE. |
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247 | CALL getin('ok_old_disvert',ok_old_disvert) |
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248 | |
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249 | !Config Key = time_ini |
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250 | !Config Desc = meaningless in this case |
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251 | !Config Def = 0. |
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252 | !Config Help = |
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253 | tsurf = 0. |
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254 | CALL getin('time_ini',time_ini) |
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255 | |
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256 | !Config Key = rlat et rlon |
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257 | !Config Desc = latitude et longitude |
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258 | !Config Def = 0.0 0.0 |
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259 | !Config Help = fixe la position de la colonne |
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260 | xlat = 0. |
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261 | xlon = 0. |
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262 | CALL getin('rlat',xlat) |
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263 | CALL getin('rlon',xlon) |
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264 | |
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265 | !Config Key = airephy |
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266 | !Config Desc = Grid cell area |
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267 | !Config Def = 1.e11 |
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268 | !Config Help = |
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269 | airefi = 1.e11 |
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270 | CALL getin('airephy',airefi) |
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271 | |
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272 | !Config Key = nat_surf |
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273 | !Config Desc = surface type |
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274 | !Config Def = 0 (ocean) |
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275 | !Config Help = 0=ocean,1=land,2=glacier,3=banquise |
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276 | nat_surf = 0. |
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277 | CALL getin('nat_surf',nat_surf) |
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278 | |
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279 | !Config Key = tsurf |
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280 | !Config Desc = surface temperature |
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281 | !Config Def = 290. |
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282 | !Config Help = not used if type_ts_forcing=1 in lmdz1d.F |
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283 | tsurf = 290. |
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284 | CALL getin('tsurf',tsurf) |
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285 | |
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286 | !Config Key = psurf |
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287 | !Config Desc = surface pressure |
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288 | !Config Def = 102400. |
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289 | !Config Help = |
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290 | psurf = 102400. |
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291 | CALL getin('psurf',psurf) |
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292 | |
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293 | !Config Key = zsurf |
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294 | !Config Desc = surface altitude |
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295 | !Config Def = 0. |
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296 | !Config Help = |
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297 | zsurf = 0. |
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298 | CALL getin('zsurf',zsurf) |
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299 | |
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300 | !Config Key = rugos |
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301 | !Config Desc = coefficient de frottement |
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302 | !Config Def = 0.0001 |
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303 | !Config Help = calcul du Cdrag |
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304 | rugos = 0.0001 |
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305 | CALL getin('rugos',rugos) |
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306 | |
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307 | !Config Key = rugosh |
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308 | !Config Desc = coefficient de frottement |
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309 | !Config Def = rugos |
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310 | !Config Help = calcul du Cdrag |
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311 | rugosh = rugos |
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312 | CALL getin('rugosh',rugosh) |
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313 | |
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314 | |
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315 | |
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316 | !Config Key = snowmass |
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317 | !Config Desc = mass de neige de la surface en kg/m2 |
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318 | !Config Def = 0.0000 |
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319 | !Config Help = snowmass |
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320 | snowmass = 0.0000 |
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321 | CALL getin('snowmass',snowmass) |
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322 | |
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323 | !Config Key = wtsurf et wqsurf |
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324 | !Config Desc = ??? |
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325 | !Config Def = 0.0 0.0 |
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326 | !Config Help = |
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327 | wtsurf = 0.0 |
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328 | wqsurf = 0.0 |
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329 | CALL getin('wtsurf',wtsurf) |
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330 | CALL getin('wqsurf',wqsurf) |
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331 | |
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332 | !Config Key = albedo |
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333 | !Config Desc = albedo |
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334 | !Config Def = 0.09 |
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335 | !Config Help = |
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336 | albedo = 0.09 |
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337 | CALL getin('albedo',albedo) |
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338 | |
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339 | !Config Key = agesno |
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340 | !Config Desc = age de la neige |
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341 | !Config Def = 30.0 |
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342 | !Config Help = |
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343 | xagesno = 30.0 |
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344 | CALL getin('agesno',xagesno) |
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345 | |
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346 | !Config Key = restart_runoff |
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347 | !Config Desc = age de la neige |
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348 | !Config Def = 30.0 |
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349 | !Config Help = |
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350 | restart_runoff = 0.0 |
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351 | CALL getin('restart_runoff',restart_runoff) |
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352 | |
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353 | !Config Key = qsolinp |
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354 | !Config Desc = initial bucket water content (kg/m2) when land (5std) |
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355 | !Config Def = 30.0 |
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356 | !Config Help = |
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357 | qsolinp = 1. |
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358 | CALL getin('qsolinp',qsolinp) |
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359 | |
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360 | !Config Key = zpicinp |
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361 | !Config Desc = denivellation orographie |
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362 | !Config Def = 0. |
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363 | !Config Help = input brise |
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364 | zpicinp = 0. |
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365 | CALL getin('zpicinp',zpicinp) |
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366 | !Config key = nudge_tsoil |
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367 | !Config Desc = activation of soil temperature nudging |
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368 | !Config Def = .FALSE. |
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369 | !Config Help = ... |
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370 | |
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371 | nudge_tsoil=.FALSE. |
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372 | CALL getin('nudge_tsoil',nudge_tsoil) |
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373 | |
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374 | !Config key = isoil_nudge |
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375 | !Config Desc = level number where soil temperature is nudged |
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376 | !Config Def = 3 |
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377 | !Config Help = ... |
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378 | |
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379 | isoil_nudge=3 |
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380 | CALL getin('isoil_nudge',isoil_nudge) |
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381 | |
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382 | !Config key = Tsoil_nudge |
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383 | !Config Desc = target temperature for tsoil(isoil_nudge) |
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384 | !Config Def = 300. |
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385 | !Config Help = ... |
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386 | |
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387 | Tsoil_nudge=300. |
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388 | CALL getin('Tsoil_nudge',Tsoil_nudge) |
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389 | |
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390 | !Config key = tau_soil_nudge |
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391 | !Config Desc = nudging relaxation time for tsoil |
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392 | !Config Def = 3600. |
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393 | !Config Help = ... |
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394 | |
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395 | tau_soil_nudge=3600. |
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396 | CALL getin('tau_soil_nudge',tau_soil_nudge) |
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397 | |
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398 | !---------------------------------------------------------- |
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399 | ! Param??tres de for??age pour les forcages communs: |
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400 | ! Pour les forcages communs: ces entiers valent 0 ou 1 |
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401 | ! tadv= advection tempe, tadvv= adv tempe verticale, tadvh= adv tempe horizontale |
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402 | ! qadv= advection q, qadvv= adv q verticale, qadvh= adv q horizontale |
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403 | ! trad= 0 (rayonnement actif) ou 1 (prescrit par tend_rad) ou adv (prescir et contenu dans les tadv) |
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404 | ! forcages en omega, w, vent geostrophique ou ustar |
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405 | ! Parametres de nudging en u,v,t,q valent 0 ou 1 ou le temps de nudging |
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406 | !---------------------------------------------------------- |
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407 | |
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408 | !Config Key = tadv |
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409 | !Config Desc = forcage ou non par advection totale de T |
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410 | !Config Def = false |
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411 | !Config Help = forcage ou non par advection totale de T |
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412 | tadv =0 |
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413 | CALL getin('tadv',tadv) |
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414 | |
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415 | !Config Key = tadvv |
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416 | !Config Desc = forcage ou non par advection verticale de T |
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417 | !Config Def = false |
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418 | !Config Help = forcage ou non par advection verticale de T |
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419 | tadvv =0 |
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420 | CALL getin('tadvv',tadvv) |
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421 | |
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422 | !Config Key = tadvh |
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423 | !Config Desc = forcage ou non par advection horizontale de T |
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424 | !Config Def = false |
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425 | !Config Help = forcage ou non par advection horizontale de T |
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426 | tadvh =0 |
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427 | CALL getin('tadvh',tadvh) |
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428 | |
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429 | !Config Key = thadv |
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430 | !Config Desc = forcage ou non par advection totale de Theta |
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431 | !Config Def = false |
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432 | !Config Help = forcage ou non par advection totale de Theta |
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433 | thadv =0 |
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434 | CALL getin('thadv',thadv) |
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435 | |
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436 | !Config Key = thadvv |
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437 | !Config Desc = forcage ou non par advection verticale de Theta |
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438 | !Config Def = false |
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439 | !Config Help = forcage ou non par advection verticale de Theta |
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440 | thadvv =0 |
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441 | CALL getin('thadvv',thadvv) |
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442 | |
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443 | !Config Key = thadvh |
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444 | !Config Desc = forcage ou non par advection horizontale de Theta |
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445 | !Config Def = false |
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446 | !Config Help = forcage ou non par advection horizontale de Theta |
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447 | thadvh =0 |
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448 | CALL getin('thadvh',thadvh) |
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449 | |
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450 | !Config Key = qadv |
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451 | !Config Desc = forcage ou non par advection totale de Q |
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452 | !Config Def = false |
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453 | !Config Help = forcage ou non par advection totale de Q |
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454 | qadv =0 |
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455 | CALL getin('qadv',qadv) |
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456 | |
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457 | !Config Key = qadvv |
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458 | !Config Desc = forcage ou non par advection verticale de Q |
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459 | !Config Def = false |
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460 | !Config Help = forcage ou non par advection verticale de Q |
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461 | qadvv =0 |
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462 | CALL getin('qadvv',qadvv) |
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463 | |
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464 | !Config Key = qadvh |
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465 | !Config Desc = forcage ou non par advection horizontale de Q |
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466 | !Config Def = false |
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467 | !Config Help = forcage ou non par advection horizontale de Q |
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468 | qadvh =0 |
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469 | CALL getin('qadvh',qadvh) |
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470 | |
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471 | !Config Key = trad |
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472 | !Config Desc = forcage ou non par tendance radiative |
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473 | !Config Def = false |
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474 | !Config Help = forcage ou non par tendance radiative |
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475 | trad =0 |
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476 | CALL getin('trad',trad) |
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477 | |
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478 | !Config Key = forc_omega |
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479 | !Config Desc = forcage ou non par omega |
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480 | !Config Def = false |
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481 | !Config Help = forcage ou non par omega |
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482 | forc_omega =0 |
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483 | CALL getin('forc_omega',forc_omega) |
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484 | |
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485 | !Config Key = forc_u |
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486 | !Config Desc = forcage ou non par u |
---|
487 | !Config Def = false |
---|
488 | !Config Help = forcage ou non par u |
---|
489 | forc_u =0 |
---|
490 | CALL getin('forc_u',forc_u) |
---|
491 | |
---|
492 | !Config Key = forc_v |
---|
493 | !Config Desc = forcage ou non par v |
---|
494 | !Config Def = false |
---|
495 | !Config Help = forcage ou non par v |
---|
496 | forc_v =0 |
---|
497 | CALL getin('forc_v',forc_v) |
---|
498 | !Config Key = forc_w |
---|
499 | !Config Desc = forcage ou non par w |
---|
500 | !Config Def = false |
---|
501 | !Config Help = forcage ou non par w |
---|
502 | forc_w =0 |
---|
503 | CALL getin('forc_w',forc_w) |
---|
504 | |
---|
505 | !Config Key = forc_geo |
---|
506 | !Config Desc = forcage ou non par geo |
---|
507 | !Config Def = false |
---|
508 | !Config Help = forcage ou non par geo |
---|
509 | forc_geo =0 |
---|
510 | CALL getin('forc_geo',forc_geo) |
---|
511 | |
---|
512 | ! Meme chose que ok_precr_ust |
---|
513 | !Config Key = forc_ustar |
---|
514 | !Config Desc = forcage ou non par ustar |
---|
515 | !Config Def = false |
---|
516 | !Config Help = forcage ou non par ustar |
---|
517 | forc_ustar =0 |
---|
518 | CALL getin('forc_ustar',forc_ustar) |
---|
519 | IF (forc_ustar .EQ. 1) ok_prescr_ust=.true. |
---|
520 | |
---|
521 | !Config Key = nudging_u |
---|
522 | !Config Desc = forcage ou non par nudging sur u |
---|
523 | !Config Def = false |
---|
524 | !Config Help = forcage ou non par nudging sur u |
---|
525 | nudging_u =0 |
---|
526 | CALL getin('nudging_u',nudging_u) |
---|
527 | |
---|
528 | !Config Key = nudging_v |
---|
529 | !Config Desc = forcage ou non par nudging sur v |
---|
530 | !Config Def = false |
---|
531 | !Config Help = forcage ou non par nudging sur v |
---|
532 | nudging_v =0 |
---|
533 | CALL getin('nudging_v',nudging_v) |
---|
534 | |
---|
535 | !Config Key = nudging_w |
---|
536 | !Config Desc = forcage ou non par nudging sur w |
---|
537 | !Config Def = false |
---|
538 | !Config Help = forcage ou non par nudging sur w |
---|
539 | nudging_w =0 |
---|
540 | CALL getin('nudging_w',nudging_w) |
---|
541 | |
---|
542 | ! RELIQUE ANCIENS FORMAT. ECRASE PAR LE SUIVANT |
---|
543 | !Config Key = nudging_q |
---|
544 | !Config Desc = forcage ou non par nudging sur q |
---|
545 | !Config Def = false |
---|
546 | !Config Help = forcage ou non par nudging sur q |
---|
547 | nudging_qv =0 |
---|
548 | CALL getin('nudging_q',nudging_qv) |
---|
549 | CALL getin('nudging_qv',nudging_qv) |
---|
550 | |
---|
551 | p_nudging_u=11000. |
---|
552 | p_nudging_v=11000. |
---|
553 | p_nudging_t=11000. |
---|
554 | p_nudging_qv=11000. |
---|
555 | CALL getin('p_nudging_u',p_nudging_u) |
---|
556 | CALL getin('p_nudging_v',p_nudging_v) |
---|
557 | CALL getin('p_nudging_t',p_nudging_t) |
---|
558 | CALL getin('p_nudging_qv',p_nudging_qv) |
---|
559 | |
---|
560 | !Config Key = nudging_t |
---|
561 | !Config Desc = forcage ou non par nudging sur t |
---|
562 | !Config Def = false |
---|
563 | !Config Help = forcage ou non par nudging sur t |
---|
564 | nudging_t =0 |
---|
565 | CALL getin('nudging_t',nudging_t) |
---|
566 | |
---|
567 | |
---|
568 | |
---|
569 | write(lunout,*)' +++++++++++++++++++++++++++++++++++++++' |
---|
570 | write(lunout,*)' Configuration des parametres du gcm1D: ' |
---|
571 | write(lunout,*)' +++++++++++++++++++++++++++++++++++++++' |
---|
572 | write(lunout,*)' restart = ', restart |
---|
573 | write(lunout,*)' forcing_type = ', forcing_type |
---|
574 | write(lunout,*)' time_ini = ', time_ini |
---|
575 | write(lunout,*)' rlat = ', xlat |
---|
576 | write(lunout,*)' rlon = ', xlon |
---|
577 | write(lunout,*)' airephy = ', airefi |
---|
578 | write(lunout,*)' nat_surf = ', nat_surf |
---|
579 | write(lunout,*)' tsurf = ', tsurf |
---|
580 | write(lunout,*)' psurf = ', psurf |
---|
581 | write(lunout,*)' zsurf = ', zsurf |
---|
582 | write(lunout,*)' rugos = ', rugos |
---|
583 | write(lunout,*)' snowmass=', snowmass |
---|
584 | write(lunout,*)' wtsurf = ', wtsurf |
---|
585 | write(lunout,*)' wqsurf = ', wqsurf |
---|
586 | write(lunout,*)' albedo = ', albedo |
---|
587 | write(lunout,*)' xagesno = ', xagesno |
---|
588 | write(lunout,*)' restart_runoff = ', restart_runoff |
---|
589 | write(lunout,*)' qsolinp = ', qsolinp |
---|
590 | write(lunout,*)' zpicinp = ', zpicinp |
---|
591 | write(lunout,*)' nudge_tsoil = ', nudge_tsoil |
---|
592 | write(lunout,*)' isoil_nudge = ', isoil_nudge |
---|
593 | write(lunout,*)' Tsoil_nudge = ', Tsoil_nudge |
---|
594 | write(lunout,*)' tau_soil_nudge = ', tau_soil_nudge |
---|
595 | write(lunout,*)' tadv = ', tadv |
---|
596 | write(lunout,*)' tadvv = ', tadvv |
---|
597 | write(lunout,*)' tadvh = ', tadvh |
---|
598 | write(lunout,*)' thadv = ', thadv |
---|
599 | write(lunout,*)' thadvv = ', thadvv |
---|
600 | write(lunout,*)' thadvh = ', thadvh |
---|
601 | write(lunout,*)' qadv = ', qadv |
---|
602 | write(lunout,*)' qadvv = ', qadvv |
---|
603 | write(lunout,*)' qadvh = ', qadvh |
---|
604 | write(lunout,*)' trad = ', trad |
---|
605 | write(lunout,*)' forc_omega = ', forc_omega |
---|
606 | write(lunout,*)' forc_w = ', forc_w |
---|
607 | write(lunout,*)' forc_geo = ', forc_geo |
---|
608 | write(lunout,*)' forc_ustar = ', forc_ustar |
---|
609 | write(lunout,*)' nudging_u = ', nudging_u |
---|
610 | write(lunout,*)' nudging_v = ', nudging_v |
---|
611 | write(lunout,*)' nudging_t = ', nudging_t |
---|
612 | write(lunout,*)' nudging_qv = ', nudging_qv |
---|
613 | IF (forcing_type .eq.40) THEN |
---|
614 | write(lunout,*) '--- Forcing type GCSS Old --- with:' |
---|
615 | write(lunout,*)'imp_fcg',imp_fcg_gcssold |
---|
616 | write(lunout,*)'ts_fcg',ts_fcg_gcssold |
---|
617 | write(lunout,*)'tp_fcg',Tp_fcg_gcssold |
---|
618 | write(lunout,*)'tp_ini',Tp_ini_gcssold |
---|
619 | write(lunout,*)'xturb_fcg',xTurb_fcg_gcssold |
---|
620 | ENDIF |
---|
621 | |
---|
622 | write(lunout,*)' +++++++++++++++++++++++++++++++++++++++' |
---|
623 | write(lunout,*) |
---|
624 | ! |
---|
625 | RETURN |
---|
626 | END |
---|
627 | ! |
---|
628 | ! $Id: dyn1deta0.F 1279 2010/07/30 A Lahellec$ |
---|
629 | ! |
---|
630 | ! |
---|
631 | SUBROUTINE dyn1deta0(fichnom,plev,play,phi,phis,presnivs, & |
---|
632 | & ucov,vcov,temp,q,omega2) |
---|
633 | USE dimphy |
---|
634 | USE mod_grid_phy_lmdz |
---|
635 | USE mod_phys_lmdz_para |
---|
636 | USE iophy |
---|
637 | USE phys_state_var_mod |
---|
638 | USE iostart |
---|
639 | USE write_field_phy |
---|
640 | USE infotrac |
---|
641 | use control_mod |
---|
642 | USE comconst_mod, ONLY: im, jm, lllm |
---|
643 | USE logic_mod, ONLY: fxyhypb, ysinus |
---|
644 | USE temps_mod, ONLY: annee_ref, day_ini, day_ref, itau_dyn |
---|
645 | |
---|
646 | IMPLICIT NONE |
---|
647 | !======================================================= |
---|
648 | ! Ecriture du fichier de redemarrage sous format NetCDF |
---|
649 | !======================================================= |
---|
650 | ! Declarations: |
---|
651 | ! ------------- |
---|
652 | include "dimensions.h" |
---|
653 | !!#include "control.h" |
---|
654 | include "netcdf.inc" |
---|
655 | |
---|
656 | ! Arguments: |
---|
657 | ! ---------- |
---|
658 | CHARACTER*(*) fichnom |
---|
659 | !Al1 plev tronque pour .nc mais plev(klev+1):=0 |
---|
660 | real :: plev(klon,klev+1),play (klon,klev),phi(klon,klev) |
---|
661 | real :: presnivs(klon,klev) |
---|
662 | real :: ucov(klon,klev),vcov(klon,klev),temp(klon,klev) |
---|
663 | real :: q(klon,klev,nqtot),omega2(klon,klev) |
---|
664 | ! real :: ug(klev),vg(klev),fcoriolis |
---|
665 | real :: phis(klon) |
---|
666 | |
---|
667 | ! Variables locales pour NetCDF: |
---|
668 | ! ------------------------------ |
---|
669 | INTEGER iq |
---|
670 | INTEGER length |
---|
671 | PARAMETER (length = 100) |
---|
672 | REAL tab_cntrl(length) ! tableau des parametres du run |
---|
673 | character*4 nmq(nqtot) |
---|
674 | character*12 modname |
---|
675 | character*80 abort_message |
---|
676 | LOGICAL found |
---|
677 | |
---|
678 | modname = 'dyn1deta0 : ' |
---|
679 | !! nmq(1)="vap" |
---|
680 | !! nmq(2)="cond" |
---|
681 | !! do iq=3,nqtot |
---|
682 | !! write(nmq(iq),'("tra",i1)') iq-2 |
---|
683 | !! enddo |
---|
684 | DO iq = 1,nqtot |
---|
685 | nmq(iq) = trim(tname(iq)) |
---|
686 | ENDDO |
---|
687 | print*,'in dyn1deta0 ',fichnom,klon,klev,nqtot |
---|
688 | CALL open_startphy(fichnom) |
---|
689 | print*,'after open startphy ',fichnom,nmq |
---|
690 | |
---|
691 | ! |
---|
692 | ! Lecture des parametres de controle: |
---|
693 | ! |
---|
694 | CALL get_var("controle",tab_cntrl) |
---|
695 | |
---|
696 | |
---|
697 | im = tab_cntrl(1) |
---|
698 | jm = tab_cntrl(2) |
---|
699 | lllm = tab_cntrl(3) |
---|
700 | day_ref = tab_cntrl(4) |
---|
701 | annee_ref = tab_cntrl(5) |
---|
702 | ! rad = tab_cntrl(6) |
---|
703 | ! omeg = tab_cntrl(7) |
---|
704 | ! g = tab_cntrl(8) |
---|
705 | ! cpp = tab_cntrl(9) |
---|
706 | ! kappa = tab_cntrl(10) |
---|
707 | ! daysec = tab_cntrl(11) |
---|
708 | ! dtvr = tab_cntrl(12) |
---|
709 | ! etot0 = tab_cntrl(13) |
---|
710 | ! ptot0 = tab_cntrl(14) |
---|
711 | ! ztot0 = tab_cntrl(15) |
---|
712 | ! stot0 = tab_cntrl(16) |
---|
713 | ! ang0 = tab_cntrl(17) |
---|
714 | ! pa = tab_cntrl(18) |
---|
715 | ! preff = tab_cntrl(19) |
---|
716 | ! |
---|
717 | ! clon = tab_cntrl(20) |
---|
718 | ! clat = tab_cntrl(21) |
---|
719 | ! grossismx = tab_cntrl(22) |
---|
720 | ! grossismy = tab_cntrl(23) |
---|
721 | ! |
---|
722 | IF ( tab_cntrl(24).EQ.1. ) THEN |
---|
723 | fxyhypb =.true. |
---|
724 | ! dzoomx = tab_cntrl(25) |
---|
725 | ! dzoomy = tab_cntrl(26) |
---|
726 | ! taux = tab_cntrl(28) |
---|
727 | ! tauy = tab_cntrl(29) |
---|
728 | ELSE |
---|
729 | fxyhypb = .false. |
---|
730 | ysinus = .false. |
---|
731 | IF( tab_cntrl(27).EQ.1. ) ysinus =.true. |
---|
732 | ENDIF |
---|
733 | |
---|
734 | day_ini = tab_cntrl(30) |
---|
735 | itau_dyn = tab_cntrl(31) |
---|
736 | ! ................................................................. |
---|
737 | ! |
---|
738 | ! |
---|
739 | ! PRINT*,'rad,omeg,g,cpp,kappa',rad,omeg,g,cpp,kappa |
---|
740 | !Al1 |
---|
741 | Print*,'day_ref,annee_ref,day_ini,itau_dyn', & |
---|
742 | & day_ref,annee_ref,day_ini,itau_dyn |
---|
743 | |
---|
744 | ! Lecture des champs |
---|
745 | ! |
---|
746 | CALL get_field("play",play,found) |
---|
747 | IF (.NOT. found) PRINT*, modname//'Le champ <Play> est absent' |
---|
748 | CALL get_field("phi",phi,found) |
---|
749 | IF (.NOT. found) PRINT*, modname//'Le champ <Phi> est absent' |
---|
750 | CALL get_field("phis",phis,found) |
---|
751 | IF (.NOT. found) PRINT*, modname//'Le champ <Phis> est absent' |
---|
752 | CALL get_field("presnivs",presnivs,found) |
---|
753 | IF (.NOT. found) PRINT*, modname//'Le champ <Presnivs> est absent' |
---|
754 | CALL get_field("ucov",ucov,found) |
---|
755 | IF (.NOT. found) PRINT*, modname//'Le champ <ucov> est absent' |
---|
756 | CALL get_field("vcov",vcov,found) |
---|
757 | IF (.NOT. found) PRINT*, modname//'Le champ <vcov> est absent' |
---|
758 | CALL get_field("temp",temp,found) |
---|
759 | IF (.NOT. found) PRINT*, modname//'Le champ <temp> est absent' |
---|
760 | CALL get_field("omega2",omega2,found) |
---|
761 | IF (.NOT. found) PRINT*, modname//'Le champ <omega2> est absent' |
---|
762 | plev(1,klev+1)=0. |
---|
763 | CALL get_field("plev",plev(:,1:klev),found) |
---|
764 | IF (.NOT. found) PRINT*, modname//'Le champ <Plev> est absent' |
---|
765 | |
---|
766 | Do iq=1,nqtot |
---|
767 | CALL get_field("q"//nmq(iq),q(:,:,iq),found) |
---|
768 | IF (.NOT.found)PRINT*, modname//'Le champ <q'//nmq//'> est absent' |
---|
769 | EndDo |
---|
770 | |
---|
771 | CALL close_startphy |
---|
772 | print*,' close startphy',fichnom,play(1,1),play(1,klev),temp(1,klev) |
---|
773 | ! |
---|
774 | RETURN |
---|
775 | END |
---|
776 | ! |
---|
777 | ! $Id: dyn1dredem.F 1279 2010/07/29 A Lahellec$ |
---|
778 | ! |
---|
779 | ! |
---|
780 | SUBROUTINE dyn1dredem(fichnom,plev,play,phi,phis,presnivs, & |
---|
781 | & ucov,vcov,temp,q,omega2) |
---|
782 | USE dimphy |
---|
783 | USE mod_grid_phy_lmdz |
---|
784 | USE mod_phys_lmdz_para |
---|
785 | USE phys_state_var_mod |
---|
786 | USE iostart |
---|
787 | USE infotrac |
---|
788 | use control_mod |
---|
789 | USE comconst_mod, ONLY: cpp, daysec, dtvr, g, kappa, omeg, rad |
---|
790 | USE logic_mod, ONLY: fxyhypb, ysinus |
---|
791 | USE temps_mod, ONLY: annee_ref,day_end,day_ref,itau_dyn,itaufin |
---|
792 | |
---|
793 | IMPLICIT NONE |
---|
794 | !======================================================= |
---|
795 | ! Ecriture du fichier de redemarrage sous format NetCDF |
---|
796 | !======================================================= |
---|
797 | ! Declarations: |
---|
798 | ! ------------- |
---|
799 | include "dimensions.h" |
---|
800 | !!#include "control.h" |
---|
801 | include "netcdf.inc" |
---|
802 | |
---|
803 | ! Arguments: |
---|
804 | ! ---------- |
---|
805 | CHARACTER*(*) fichnom |
---|
806 | !Al1 plev tronque pour .nc mais plev(klev+1):=0 |
---|
807 | real :: plev(klon,klev),play (klon,klev),phi(klon,klev) |
---|
808 | real :: presnivs(klon,klev) |
---|
809 | real :: ucov(klon,klev),vcov(klon,klev),temp(klon,klev) |
---|
810 | real :: q(klon,klev,nqtot) |
---|
811 | real :: omega2(klon,klev),rho(klon,klev+1) |
---|
812 | ! real :: ug(klev),vg(klev),fcoriolis |
---|
813 | real :: phis(klon) |
---|
814 | |
---|
815 | ! Variables locales pour NetCDF: |
---|
816 | ! ------------------------------ |
---|
817 | INTEGER nid |
---|
818 | INTEGER ierr |
---|
819 | INTEGER iq,l |
---|
820 | INTEGER length |
---|
821 | PARAMETER (length = 100) |
---|
822 | REAL tab_cntrl(length) ! tableau des parametres du run |
---|
823 | character*4 nmq(nqtot) |
---|
824 | character*20 modname |
---|
825 | character*80 abort_message |
---|
826 | ! |
---|
827 | INTEGER pass |
---|
828 | |
---|
829 | CALL open_restartphy(fichnom) |
---|
830 | print*,'redm1 ',fichnom,klon,klev,nqtot |
---|
831 | !! nmq(1)="vap" |
---|
832 | !! nmq(2)="cond" |
---|
833 | !! nmq(3)="tra1" |
---|
834 | !! nmq(4)="tra2" |
---|
835 | DO iq = 1,nqtot |
---|
836 | nmq(iq) = trim(tname(iq)) |
---|
837 | ENDDO |
---|
838 | |
---|
839 | ! modname = 'dyn1dredem' |
---|
840 | ! ierr = NF_OPEN(fichnom, NF_WRITE, nid) |
---|
841 | ! IF (ierr .NE. NF_NOERR) THEN |
---|
842 | ! abort_message="Pb. d ouverture "//fichnom |
---|
843 | ! CALL abort_gcm('Modele 1D',abort_message,1) |
---|
844 | ! ENDIF |
---|
845 | |
---|
846 | DO l=1,length |
---|
847 | tab_cntrl(l) = 0. |
---|
848 | ENDDO |
---|
849 | tab_cntrl(1) = FLOAT(iim) |
---|
850 | tab_cntrl(2) = FLOAT(jjm) |
---|
851 | tab_cntrl(3) = FLOAT(llm) |
---|
852 | tab_cntrl(4) = FLOAT(day_ref) |
---|
853 | tab_cntrl(5) = FLOAT(annee_ref) |
---|
854 | tab_cntrl(6) = rad |
---|
855 | tab_cntrl(7) = omeg |
---|
856 | tab_cntrl(8) = g |
---|
857 | tab_cntrl(9) = cpp |
---|
858 | tab_cntrl(10) = kappa |
---|
859 | tab_cntrl(11) = daysec |
---|
860 | tab_cntrl(12) = dtvr |
---|
861 | ! tab_cntrl(13) = etot0 |
---|
862 | ! tab_cntrl(14) = ptot0 |
---|
863 | ! tab_cntrl(15) = ztot0 |
---|
864 | ! tab_cntrl(16) = stot0 |
---|
865 | ! tab_cntrl(17) = ang0 |
---|
866 | ! tab_cntrl(18) = pa |
---|
867 | ! tab_cntrl(19) = preff |
---|
868 | ! |
---|
869 | ! ..... parametres pour le zoom ...... |
---|
870 | |
---|
871 | ! tab_cntrl(20) = clon |
---|
872 | ! tab_cntrl(21) = clat |
---|
873 | ! tab_cntrl(22) = grossismx |
---|
874 | ! tab_cntrl(23) = grossismy |
---|
875 | ! |
---|
876 | IF ( fxyhypb ) THEN |
---|
877 | tab_cntrl(24) = 1. |
---|
878 | ! tab_cntrl(25) = dzoomx |
---|
879 | ! tab_cntrl(26) = dzoomy |
---|
880 | tab_cntrl(27) = 0. |
---|
881 | ! tab_cntrl(28) = taux |
---|
882 | ! tab_cntrl(29) = tauy |
---|
883 | ELSE |
---|
884 | tab_cntrl(24) = 0. |
---|
885 | ! tab_cntrl(25) = dzoomx |
---|
886 | ! tab_cntrl(26) = dzoomy |
---|
887 | tab_cntrl(27) = 0. |
---|
888 | tab_cntrl(28) = 0. |
---|
889 | tab_cntrl(29) = 0. |
---|
890 | IF( ysinus ) tab_cntrl(27) = 1. |
---|
891 | ENDIF |
---|
892 | !Al1 iday_end -> day_end |
---|
893 | tab_cntrl(30) = FLOAT(day_end) |
---|
894 | tab_cntrl(31) = FLOAT(itau_dyn + itaufin) |
---|
895 | ! |
---|
896 | DO pass=1,2 |
---|
897 | CALL put_var(pass,"controle","Param. de controle Dyn1D",tab_cntrl) |
---|
898 | ! |
---|
899 | |
---|
900 | ! Ecriture/extension de la coordonnee temps |
---|
901 | |
---|
902 | |
---|
903 | ! Ecriture des champs |
---|
904 | ! |
---|
905 | CALL put_field(pass,"plev","p interfaces sauf la nulle",plev) |
---|
906 | CALL put_field(pass,"play","",play) |
---|
907 | CALL put_field(pass,"phi","geopotentielle",phi) |
---|
908 | CALL put_field(pass,"phis","geopotentiell de surface",phis) |
---|
909 | CALL put_field(pass,"presnivs","",presnivs) |
---|
910 | CALL put_field(pass,"ucov","",ucov) |
---|
911 | CALL put_field(pass,"vcov","",vcov) |
---|
912 | CALL put_field(pass,"temp","",temp) |
---|
913 | CALL put_field(pass,"omega2","",omega2) |
---|
914 | |
---|
915 | Do iq=1,nqtot |
---|
916 | CALL put_field(pass,"q"//nmq(iq),"eau vap ou condens et traceurs", & |
---|
917 | & q(:,:,iq)) |
---|
918 | EndDo |
---|
919 | IF (pass==1) CALL enddef_restartphy |
---|
920 | IF (pass==2) CALL close_restartphy |
---|
921 | |
---|
922 | |
---|
923 | ENDDO |
---|
924 | |
---|
925 | ! |
---|
926 | RETURN |
---|
927 | END |
---|
928 | SUBROUTINE gr_fi_dyn(nfield,ngrid,im,jm,pfi,pdyn) |
---|
929 | IMPLICIT NONE |
---|
930 | !======================================================================= |
---|
931 | ! passage d'un champ de la grille scalaire a la grille physique |
---|
932 | !======================================================================= |
---|
933 | |
---|
934 | !----------------------------------------------------------------------- |
---|
935 | ! declarations: |
---|
936 | ! ------------- |
---|
937 | |
---|
938 | INTEGER im,jm,ngrid,nfield |
---|
939 | REAL pdyn(im,jm,nfield) |
---|
940 | REAL pfi(ngrid,nfield) |
---|
941 | |
---|
942 | INTEGER i,j,ifield,ig |
---|
943 | |
---|
944 | !----------------------------------------------------------------------- |
---|
945 | ! calcul: |
---|
946 | ! ------- |
---|
947 | |
---|
948 | DO ifield=1,nfield |
---|
949 | ! traitement des poles |
---|
950 | DO i=1,im |
---|
951 | pdyn(i,1,ifield)=pfi(1,ifield) |
---|
952 | pdyn(i,jm,ifield)=pfi(ngrid,ifield) |
---|
953 | ENDDO |
---|
954 | |
---|
955 | ! traitement des point normaux |
---|
956 | DO j=2,jm-1 |
---|
957 | ig=2+(j-2)*(im-1) |
---|
958 | CALL SCOPY(im-1,pfi(ig,ifield),1,pdyn(1,j,ifield),1) |
---|
959 | pdyn(im,j,ifield)=pdyn(1,j,ifield) |
---|
960 | ENDDO |
---|
961 | ENDDO |
---|
962 | |
---|
963 | RETURN |
---|
964 | END |
---|
965 | |
---|
966 | |
---|
967 | |
---|
968 | SUBROUTINE abort_gcm(modname, message, ierr) |
---|
969 | |
---|
970 | USE IOIPSL |
---|
971 | ! |
---|
972 | ! Stops the simulation cleanly, closing files and printing various |
---|
973 | ! comments |
---|
974 | ! |
---|
975 | ! Input: modname = name of calling program |
---|
976 | ! message = stuff to print |
---|
977 | ! ierr = severity of situation ( = 0 normal ) |
---|
978 | |
---|
979 | character(len=*) modname |
---|
980 | integer ierr |
---|
981 | character(len=*) message |
---|
982 | |
---|
983 | write(*,*) 'in abort_gcm' |
---|
984 | call histclo |
---|
985 | ! call histclo(2) |
---|
986 | ! call histclo(3) |
---|
987 | ! call histclo(4) |
---|
988 | ! call histclo(5) |
---|
989 | write(*,*) 'out of histclo' |
---|
990 | write(*,*) 'Stopping in ', modname |
---|
991 | write(*,*) 'Reason = ',message |
---|
992 | call getin_dump |
---|
993 | ! |
---|
994 | if (ierr .eq. 0) then |
---|
995 | write(*,*) 'Everything is cool' |
---|
996 | else |
---|
997 | write(*,*) 'Houston, we have a problem ', ierr |
---|
998 | endif |
---|
999 | STOP |
---|
1000 | END |
---|
1001 | REAL FUNCTION fq_sat(kelvin, millibar) |
---|
1002 | ! |
---|
1003 | IMPLICIT none |
---|
1004 | !====================================================================== |
---|
1005 | ! Autheur(s): Z.X. Li (LMD/CNRS) |
---|
1006 | ! Objet: calculer la vapeur d'eau saturante (formule Centre Euro.) |
---|
1007 | !====================================================================== |
---|
1008 | ! Arguments: |
---|
1009 | ! kelvin---input-R: temperature en Kelvin |
---|
1010 | ! millibar--input-R: pression en mb |
---|
1011 | ! |
---|
1012 | ! fq_sat----output-R: vapeur d'eau saturante en kg/kg |
---|
1013 | !====================================================================== |
---|
1014 | ! |
---|
1015 | REAL kelvin, millibar |
---|
1016 | ! |
---|
1017 | REAL r2es |
---|
1018 | PARAMETER (r2es=611.14 *18.0153/28.9644) |
---|
1019 | ! |
---|
1020 | REAL r3les, r3ies, r3es |
---|
1021 | PARAMETER (R3LES=17.269) |
---|
1022 | PARAMETER (R3IES=21.875) |
---|
1023 | ! |
---|
1024 | REAL r4les, r4ies, r4es |
---|
1025 | PARAMETER (R4LES=35.86) |
---|
1026 | PARAMETER (R4IES=7.66) |
---|
1027 | ! |
---|
1028 | REAL rtt |
---|
1029 | PARAMETER (rtt=273.16) |
---|
1030 | ! |
---|
1031 | REAL retv |
---|
1032 | PARAMETER (retv=28.9644/18.0153 - 1.0) |
---|
1033 | ! |
---|
1034 | REAL zqsat |
---|
1035 | REAL temp, pres |
---|
1036 | ! ------------------------------------------------------------------ |
---|
1037 | ! |
---|
1038 | ! |
---|
1039 | temp = kelvin |
---|
1040 | pres = millibar * 100.0 |
---|
1041 | ! write(*,*)'kelvin,millibar=',kelvin,millibar |
---|
1042 | ! write(*,*)'temp,pres=',temp,pres |
---|
1043 | ! |
---|
1044 | IF (temp .LE. rtt) THEN |
---|
1045 | r3es = r3ies |
---|
1046 | r4es = r4ies |
---|
1047 | ELSE |
---|
1048 | r3es = r3les |
---|
1049 | r4es = r4les |
---|
1050 | ENDIF |
---|
1051 | ! |
---|
1052 | zqsat=r2es/pres * EXP ( r3es*(temp-rtt) / (temp-r4es) ) |
---|
1053 | zqsat=MIN(0.5,ZQSAT) |
---|
1054 | zqsat=zqsat/(1.-retv *zqsat) |
---|
1055 | ! |
---|
1056 | fq_sat = zqsat |
---|
1057 | ! |
---|
1058 | RETURN |
---|
1059 | END |
---|
1060 | |
---|
1061 | SUBROUTINE gr_dyn_fi(nfield,im,jm,ngrid,pdyn,pfi) |
---|
1062 | IMPLICIT NONE |
---|
1063 | !======================================================================= |
---|
1064 | ! passage d'un champ de la grille scalaire a la grille physique |
---|
1065 | !======================================================================= |
---|
1066 | |
---|
1067 | !----------------------------------------------------------------------- |
---|
1068 | ! declarations: |
---|
1069 | ! ------------- |
---|
1070 | |
---|
1071 | INTEGER im,jm,ngrid,nfield |
---|
1072 | REAL pdyn(im,jm,nfield) |
---|
1073 | REAL pfi(ngrid,nfield) |
---|
1074 | |
---|
1075 | INTEGER j,ifield,ig |
---|
1076 | |
---|
1077 | !----------------------------------------------------------------------- |
---|
1078 | ! calcul: |
---|
1079 | ! ------- |
---|
1080 | |
---|
1081 | IF(ngrid.NE.2+(jm-2)*(im-1).AND.ngrid.NE.1) & |
---|
1082 | & STOP 'probleme de dim' |
---|
1083 | ! traitement des poles |
---|
1084 | CALL SCOPY(nfield,pdyn,im*jm,pfi,ngrid) |
---|
1085 | CALL SCOPY(nfield,pdyn(1,jm,1),im*jm,pfi(ngrid,1),ngrid) |
---|
1086 | |
---|
1087 | ! traitement des point normaux |
---|
1088 | DO ifield=1,nfield |
---|
1089 | DO j=2,jm-1 |
---|
1090 | ig=2+(j-2)*(im-1) |
---|
1091 | CALL SCOPY(im-1,pdyn(1,j,ifield),1,pfi(ig,ifield),1) |
---|
1092 | ENDDO |
---|
1093 | ENDDO |
---|
1094 | |
---|
1095 | RETURN |
---|
1096 | END |
---|
1097 | |
---|
1098 | SUBROUTINE disvert0(pa,preff,ap,bp,dpres,presnivs,nivsigs,nivsig) |
---|
1099 | |
---|
1100 | ! Ancienne version disvert dont on a modifie nom pour utiliser |
---|
1101 | ! le disvert de dyn3d (qui permet d'utiliser grille avec ab,bp imposes) |
---|
1102 | ! (MPL 18092012) |
---|
1103 | ! |
---|
1104 | ! Auteur : P. Le Van . |
---|
1105 | ! |
---|
1106 | IMPLICIT NONE |
---|
1107 | |
---|
1108 | include "dimensions.h" |
---|
1109 | include "paramet.h" |
---|
1110 | ! |
---|
1111 | !======================================================================= |
---|
1112 | ! |
---|
1113 | ! |
---|
1114 | ! s = sigma ** kappa : coordonnee verticale |
---|
1115 | ! dsig(l) : epaisseur de la couche l ds la coord. s |
---|
1116 | ! sig(l) : sigma a l'interface des couches l et l-1 |
---|
1117 | ! ds(l) : distance entre les couches l et l-1 en coord.s |
---|
1118 | ! |
---|
1119 | !======================================================================= |
---|
1120 | ! |
---|
1121 | REAL pa,preff |
---|
1122 | REAL ap(llmp1),bp(llmp1),dpres(llm),nivsigs(llm),nivsig(llmp1) |
---|
1123 | REAL presnivs(llm) |
---|
1124 | ! |
---|
1125 | ! declarations: |
---|
1126 | ! ------------- |
---|
1127 | ! |
---|
1128 | REAL sig(llm+1),dsig(llm) |
---|
1129 | ! |
---|
1130 | INTEGER l |
---|
1131 | REAL snorm |
---|
1132 | REAL alpha,beta,gama,delta,deltaz,h |
---|
1133 | INTEGER np,ierr |
---|
1134 | REAL pi,x |
---|
1135 | |
---|
1136 | !----------------------------------------------------------------------- |
---|
1137 | ! |
---|
1138 | pi=2.*ASIN(1.) |
---|
1139 | |
---|
1140 | OPEN(99,file='sigma.def',status='old',form='formatted', & |
---|
1141 | & iostat=ierr) |
---|
1142 | |
---|
1143 | !----------------------------------------------------------------------- |
---|
1144 | ! cas 1 on lit les options dans sigma.def: |
---|
1145 | ! ---------------------------------------- |
---|
1146 | |
---|
1147 | IF (ierr.eq.0) THEN |
---|
1148 | |
---|
1149 | print*,'WARNING!!! on lit les options dans sigma.def' |
---|
1150 | READ(99,*) deltaz |
---|
1151 | READ(99,*) h |
---|
1152 | READ(99,*) beta |
---|
1153 | READ(99,*) gama |
---|
1154 | READ(99,*) delta |
---|
1155 | READ(99,*) np |
---|
1156 | CLOSE(99) |
---|
1157 | alpha=deltaz/(llm*h) |
---|
1158 | ! |
---|
1159 | |
---|
1160 | DO 1 l = 1, llm |
---|
1161 | dsig(l) = (alpha+(1.-alpha)*exp(-beta*(llm-l)))* & |
---|
1162 | & ( (tanh(gama*l)/tanh(gama*llm))**np + & |
---|
1163 | & (1.-l/FLOAT(llm))*delta ) |
---|
1164 | 1 CONTINUE |
---|
1165 | |
---|
1166 | sig(1)=1. |
---|
1167 | DO 101 l=1,llm-1 |
---|
1168 | sig(l+1)=sig(l)*(1.-dsig(l))/(1.+dsig(l)) |
---|
1169 | 101 CONTINUE |
---|
1170 | sig(llm+1)=0. |
---|
1171 | |
---|
1172 | DO 2 l = 1, llm |
---|
1173 | dsig(l) = sig(l)-sig(l+1) |
---|
1174 | 2 CONTINUE |
---|
1175 | ! |
---|
1176 | |
---|
1177 | ELSE |
---|
1178 | !----------------------------------------------------------------------- |
---|
1179 | ! cas 2 ancienne discretisation (LMD5...): |
---|
1180 | ! ---------------------------------------- |
---|
1181 | |
---|
1182 | PRINT*,'WARNING!!! Ancienne discretisation verticale' |
---|
1183 | |
---|
1184 | h=7. |
---|
1185 | snorm = 0. |
---|
1186 | DO l = 1, llm |
---|
1187 | x = 2.*asin(1.) * (FLOAT(l)-0.5) / float(llm+1) |
---|
1188 | dsig(l) = 1.0 + 7.0 * SIN(x)**2 |
---|
1189 | snorm = snorm + dsig(l) |
---|
1190 | ENDDO |
---|
1191 | snorm = 1./snorm |
---|
1192 | DO l = 1, llm |
---|
1193 | dsig(l) = dsig(l)*snorm |
---|
1194 | ENDDO |
---|
1195 | sig(llm+1) = 0. |
---|
1196 | DO l = llm, 1, -1 |
---|
1197 | sig(l) = sig(l+1) + dsig(l) |
---|
1198 | ENDDO |
---|
1199 | |
---|
1200 | ENDIF |
---|
1201 | |
---|
1202 | |
---|
1203 | DO l=1,llm |
---|
1204 | nivsigs(l) = FLOAT(l) |
---|
1205 | ENDDO |
---|
1206 | |
---|
1207 | DO l=1,llmp1 |
---|
1208 | nivsig(l)= FLOAT(l) |
---|
1209 | ENDDO |
---|
1210 | |
---|
1211 | ! |
---|
1212 | ! .... Calculs de ap(l) et de bp(l) .... |
---|
1213 | ! ......................................... |
---|
1214 | ! |
---|
1215 | ! |
---|
1216 | ! ..... pa et preff sont lus sur les fichiers start par lectba ..... |
---|
1217 | ! |
---|
1218 | |
---|
1219 | bp(llmp1) = 0. |
---|
1220 | |
---|
1221 | DO l = 1, llm |
---|
1222 | !c |
---|
1223 | !cc ap(l) = 0. |
---|
1224 | !cc bp(l) = sig(l) |
---|
1225 | |
---|
1226 | bp(l) = EXP( 1. -1./( sig(l)*sig(l)) ) |
---|
1227 | ap(l) = pa * ( sig(l) - bp(l) ) |
---|
1228 | ! |
---|
1229 | ENDDO |
---|
1230 | ap(llmp1) = pa * ( sig(llmp1) - bp(llmp1) ) |
---|
1231 | |
---|
1232 | PRINT *,' BP ' |
---|
1233 | PRINT *, bp |
---|
1234 | PRINT *,' AP ' |
---|
1235 | PRINT *, ap |
---|
1236 | |
---|
1237 | DO l = 1, llm |
---|
1238 | dpres(l) = bp(l) - bp(l+1) |
---|
1239 | presnivs(l) = 0.5 *( ap(l)+bp(l)*preff + ap(l+1)+bp(l+1)*preff ) |
---|
1240 | ENDDO |
---|
1241 | |
---|
1242 | PRINT *,' PRESNIVS ' |
---|
1243 | PRINT *,presnivs |
---|
1244 | |
---|
1245 | RETURN |
---|
1246 | END |
---|
1247 | |
---|
1248 | !====================================================================== |
---|
1249 | SUBROUTINE read_tsurf1d(knon,sst_out) |
---|
1250 | |
---|
1251 | ! This subroutine specifies the surface temperature to be used in 1D simulations |
---|
1252 | |
---|
1253 | USE dimphy, ONLY : klon |
---|
1254 | |
---|
1255 | INTEGER, INTENT(IN) :: knon ! nomber of points on compressed grid |
---|
1256 | REAL, DIMENSION(klon), INTENT(OUT) :: sst_out ! tsurf used to force the single-column model |
---|
1257 | |
---|
1258 | INTEGER :: i |
---|
1259 | ! COMMON defined in lmdz1d.F: |
---|
1260 | real ts_cur |
---|
1261 | common /sst_forcing/ts_cur |
---|
1262 | |
---|
1263 | DO i = 1, knon |
---|
1264 | sst_out(i) = ts_cur |
---|
1265 | ENDDO |
---|
1266 | |
---|
1267 | END SUBROUTINE read_tsurf1d |
---|
1268 | |
---|
1269 | !=============================================================== |
---|
1270 | subroutine advect_vert(llm,w,dt,q,plev) |
---|
1271 | !=============================================================== |
---|
1272 | ! Schema amont pour l'advection verticale en 1D |
---|
1273 | ! w est la vitesse verticale dp/dt en Pa/s |
---|
1274 | ! Traitement en volumes finis |
---|
1275 | ! d / dt ( zm q ) = delta_z ( omega q ) |
---|
1276 | ! d / dt ( zm ) = delta_z ( omega ) |
---|
1277 | ! avec zm = delta_z ( p ) |
---|
1278 | ! si * designe la valeur au pas de temps t+dt |
---|
1279 | ! zm*(l) q*(l) - zm(l) q(l) = w(l+1) q(l+1) - w(l) q(l) |
---|
1280 | ! zm*(l) -zm(l) = w(l+1) - w(l) |
---|
1281 | ! avec w=omega * dt |
---|
1282 | !--------------------------------------------------------------- |
---|
1283 | implicit none |
---|
1284 | ! arguments |
---|
1285 | integer llm |
---|
1286 | real w(llm+1),q(llm),plev(llm+1),dt |
---|
1287 | |
---|
1288 | ! local |
---|
1289 | integer l |
---|
1290 | real zwq(llm+1),zm(llm+1),zw(llm+1) |
---|
1291 | real qold |
---|
1292 | |
---|
1293 | !--------------------------------------------------------------- |
---|
1294 | |
---|
1295 | do l=1,llm |
---|
1296 | zw(l)=dt*w(l) |
---|
1297 | zm(l)=plev(l)-plev(l+1) |
---|
1298 | zwq(l)=q(l)*zw(l) |
---|
1299 | enddo |
---|
1300 | zwq(llm+1)=0. |
---|
1301 | zw(llm+1)=0. |
---|
1302 | |
---|
1303 | do l=1,llm |
---|
1304 | qold=q(l) |
---|
1305 | q(l)=(q(l)*zm(l)+zwq(l+1)-zwq(l))/(zm(l)+zw(l+1)-zw(l)) |
---|
1306 | print*,'ADV Q ',zm(l),zw(l),zwq(l),qold,q(l) |
---|
1307 | enddo |
---|
1308 | |
---|
1309 | |
---|
1310 | return |
---|
1311 | end |
---|
1312 | |
---|
1313 | !=============================================================== |
---|
1314 | |
---|
1315 | |
---|
1316 | SUBROUTINE advect_va(llm,omega,d_t_va,d_q_va,d_u_va,d_v_va, & |
---|
1317 | & q,temp,u,v,play) |
---|
1318 | !itlmd |
---|
1319 | !---------------------------------------------------------------------- |
---|
1320 | ! Calcul de l'advection verticale (ascendance et subsidence) de |
---|
1321 | ! temperature et d'humidite. Hypothese : ce qui rentre de l'exterieur |
---|
1322 | ! a les memes caracteristiques que l'air de la colonne 1D (WTG) ou |
---|
1323 | ! sans WTG rajouter une advection horizontale |
---|
1324 | !---------------------------------------------------------------------- |
---|
1325 | implicit none |
---|
1326 | #include "YOMCST.h" |
---|
1327 | ! argument |
---|
1328 | integer llm |
---|
1329 | real omega(llm+1),d_t_va(llm), d_q_va(llm,3) |
---|
1330 | real d_u_va(llm), d_v_va(llm) |
---|
1331 | real q(llm,3),temp(llm) |
---|
1332 | real u(llm),v(llm) |
---|
1333 | real play(llm) |
---|
1334 | ! interne |
---|
1335 | integer l |
---|
1336 | real alpha,omgdown,omgup |
---|
1337 | |
---|
1338 | do l= 1,llm |
---|
1339 | if(l.eq.1) then |
---|
1340 | !si omgup pour la couche 1, alors tendance nulle |
---|
1341 | omgdown=max(omega(2),0.0) |
---|
1342 | alpha = rkappa*temp(l)*(1.+q(l,1)*rv/rd)/(play(l)*(1.+q(l,1))) |
---|
1343 | d_t_va(l)= alpha*(omgdown)-omgdown*(temp(l)-temp(l+1)) & |
---|
1344 | & /(play(l)-play(l+1)) |
---|
1345 | |
---|
1346 | d_q_va(l,:)= -omgdown*(q(l,:)-q(l+1,:))/(play(l)-play(l+1)) |
---|
1347 | |
---|
1348 | d_u_va(l)= -omgdown*(u(l)-u(l+1))/(play(l)-play(l+1)) |
---|
1349 | d_v_va(l)= -omgdown*(v(l)-v(l+1))/(play(l)-play(l+1)) |
---|
1350 | |
---|
1351 | |
---|
1352 | elseif(l.eq.llm) then |
---|
1353 | omgup=min(omega(l),0.0) |
---|
1354 | alpha = rkappa*temp(l)*(1.+q(l,1)*rv/rd)/(play(l)*(1.+q(l,1))) |
---|
1355 | d_t_va(l)= alpha*(omgup)- & |
---|
1356 | |
---|
1357 | !bug? & omgup*(temp(l-1)-temp(l))/(play(l-1)-plev(l)) |
---|
1358 | & omgup*(temp(l-1)-temp(l))/(play(l-1)-play(l)) |
---|
1359 | d_q_va(l,:)= -omgup*(q(l-1,:)-q(l,:))/(play(l-1)-play(l)) |
---|
1360 | d_u_va(l)= -omgup*(u(l-1)-u(l))/(play(l-1)-play(l)) |
---|
1361 | d_v_va(l)= -omgup*(v(l-1)-v(l))/(play(l-1)-play(l)) |
---|
1362 | |
---|
1363 | else |
---|
1364 | omgup=min(omega(l),0.0) |
---|
1365 | omgdown=max(omega(l+1),0.0) |
---|
1366 | alpha = rkappa*temp(l)*(1.+q(l,1)*rv/rd)/(play(l)*(1.+q(l,1))) |
---|
1367 | d_t_va(l)= alpha*(omgup+omgdown)-omgdown*(temp(l)-temp(l+1)) & |
---|
1368 | & /(play(l)-play(l+1))- & |
---|
1369 | !bug? & omgup*(temp(l-1)-temp(l))/(play(l-1)-plev(l)) |
---|
1370 | & omgup*(temp(l-1)-temp(l))/(play(l-1)-play(l)) |
---|
1371 | ! print*, ' ??? ' |
---|
1372 | |
---|
1373 | d_q_va(l,:)= -omgdown*(q(l,:)-q(l+1,:)) & |
---|
1374 | & /(play(l)-play(l+1))- & |
---|
1375 | & omgup*(q(l-1,:)-q(l,:))/(play(l-1)-play(l)) |
---|
1376 | d_u_va(l)= -omgdown*(u(l)-u(l+1)) & |
---|
1377 | & /(play(l)-play(l+1))- & |
---|
1378 | & omgup*(u(l-1)-u(l))/(play(l-1)-play(l)) |
---|
1379 | d_v_va(l)= -omgdown*(v(l)-v(l+1)) & |
---|
1380 | & /(play(l)-play(l+1))- & |
---|
1381 | & omgup*(v(l-1)-v(l))/(play(l-1)-play(l)) |
---|
1382 | |
---|
1383 | endif |
---|
1384 | |
---|
1385 | enddo |
---|
1386 | !fin itlmd |
---|
1387 | return |
---|
1388 | end |
---|
1389 | ! SUBROUTINE lstendH(llm,omega,d_t_va,d_q_va,d_u_va,d_v_va, |
---|
1390 | SUBROUTINE lstendH(llm,nqtot,omega,d_t_va,d_q_va, & |
---|
1391 | & q,temp,u,v,play) |
---|
1392 | !itlmd |
---|
1393 | !---------------------------------------------------------------------- |
---|
1394 | ! Calcul de l'advection verticale (ascendance et subsidence) de |
---|
1395 | ! temperature et d'humidite. Hypothese : ce qui rentre de l'exterieur |
---|
1396 | ! a les memes caracteristiques que l'air de la colonne 1D (WTG) ou |
---|
1397 | ! sans WTG rajouter une advection horizontale |
---|
1398 | !---------------------------------------------------------------------- |
---|
1399 | implicit none |
---|
1400 | #include "YOMCST.h" |
---|
1401 | ! argument |
---|
1402 | integer llm,nqtot |
---|
1403 | real omega(llm+1),d_t_va(llm), d_q_va(llm,nqtot) |
---|
1404 | ! real d_u_va(llm), d_v_va(llm) |
---|
1405 | real q(llm,nqtot),temp(llm) |
---|
1406 | real u(llm),v(llm) |
---|
1407 | real play(llm) |
---|
1408 | real cor(llm) |
---|
1409 | ! real dph(llm),dudp(llm),dvdp(llm),dqdp(llm),dtdp(llm) |
---|
1410 | real dph(llm),dqdp(llm),dtdp(llm) |
---|
1411 | ! interne |
---|
1412 | integer k |
---|
1413 | real omdn,omup |
---|
1414 | |
---|
1415 | ! dudp=0. |
---|
1416 | ! dvdp=0. |
---|
1417 | dqdp=0. |
---|
1418 | dtdp=0. |
---|
1419 | ! d_u_va=0. |
---|
1420 | ! d_v_va=0. |
---|
1421 | |
---|
1422 | cor(:) = rkappa*temp*(1.+q(:,1)*rv/rd)/(play*(1.+q(:,1))) |
---|
1423 | |
---|
1424 | |
---|
1425 | do k=2,llm-1 |
---|
1426 | |
---|
1427 | dph (k-1) = (play(k )- play(k-1 )) |
---|
1428 | ! dudp (k-1) = (u (k )- u (k-1 ))/dph(k-1) |
---|
1429 | ! dvdp (k-1) = (v (k )- v (k-1 ))/dph(k-1) |
---|
1430 | dqdp (k-1) = (q (k,1)- q (k-1,1))/dph(k-1) |
---|
1431 | dtdp (k-1) = (temp(k )- temp(k-1 ))/dph(k-1) |
---|
1432 | |
---|
1433 | enddo |
---|
1434 | |
---|
1435 | ! dudp ( llm ) = dudp ( llm-1 ) |
---|
1436 | ! dvdp ( llm ) = dvdp ( llm-1 ) |
---|
1437 | dqdp ( llm ) = dqdp ( llm-1 ) |
---|
1438 | dtdp ( llm ) = dtdp ( llm-1 ) |
---|
1439 | |
---|
1440 | do k=2,llm-1 |
---|
1441 | omdn=max(0.0,omega(k+1)) |
---|
1442 | omup=min(0.0,omega( k )) |
---|
1443 | |
---|
1444 | ! d_u_va(k) = -omdn*dudp(k)-omup*dudp(k-1) |
---|
1445 | ! d_v_va(k) = -omdn*dvdp(k)-omup*dvdp(k-1) |
---|
1446 | d_q_va(k,1)= -omdn*dqdp(k)-omup*dqdp(k-1) |
---|
1447 | d_t_va(k) = -omdn*dtdp(k)-omup*dtdp(k-1)+(omup+omdn)*cor(k) |
---|
1448 | enddo |
---|
1449 | |
---|
1450 | omdn=max(0.0,omega( 2 )) |
---|
1451 | omup=min(0.0,omega(llm)) |
---|
1452 | ! d_u_va( 1 ) = -omdn*dudp( 1 ) |
---|
1453 | ! d_u_va(llm) = -omup*dudp(llm) |
---|
1454 | ! d_v_va( 1 ) = -omdn*dvdp( 1 ) |
---|
1455 | ! d_v_va(llm) = -omup*dvdp(llm) |
---|
1456 | d_q_va( 1 ,1) = -omdn*dqdp( 1 ) |
---|
1457 | d_q_va(llm,1) = -omup*dqdp(llm) |
---|
1458 | d_t_va( 1 ) = -omdn*dtdp( 1 )+omdn*cor( 1 ) |
---|
1459 | d_t_va(llm) = -omup*dtdp(llm)!+omup*cor(llm) |
---|
1460 | |
---|
1461 | ! if(abs(rlat(1))>10.) then |
---|
1462 | ! Calculate the tendency due agestrophic motions |
---|
1463 | ! du_age = fcoriolis*(v-vg) |
---|
1464 | ! dv_age = fcoriolis*(ug-u) |
---|
1465 | ! endif |
---|
1466 | |
---|
1467 | ! call writefield_phy('d_t_va',d_t_va,llm) |
---|
1468 | |
---|
1469 | return |
---|
1470 | end |
---|
1471 | |
---|
1472 | !====================================================================== |
---|
1473 | |
---|
1474 | ! Subroutines for nudging |
---|
1475 | |
---|
1476 | Subroutine Nudge_RHT_init (paprs,pplay,t,q,t_targ,rh_targ) |
---|
1477 | ! ======================================================== |
---|
1478 | USE dimphy |
---|
1479 | |
---|
1480 | implicit none |
---|
1481 | |
---|
1482 | ! ======================================================== |
---|
1483 | REAL paprs(klon,klevp1) |
---|
1484 | REAL pplay(klon,klev) |
---|
1485 | ! |
---|
1486 | ! Variables d'etat |
---|
1487 | REAL t(klon,klev) |
---|
1488 | REAL q(klon,klev) |
---|
1489 | ! |
---|
1490 | ! Profiles cible |
---|
1491 | REAL t_targ(klon,klev) |
---|
1492 | REAL rh_targ(klon,klev) |
---|
1493 | ! |
---|
1494 | INTEGER k,i |
---|
1495 | REAL zx_qs |
---|
1496 | |
---|
1497 | ! Declaration des constantes et des fonctions thermodynamiques |
---|
1498 | ! |
---|
1499 | include "YOMCST.h" |
---|
1500 | include "YOETHF.h" |
---|
1501 | ! |
---|
1502 | ! ---------------------------------------- |
---|
1503 | ! Statement functions |
---|
1504 | include "FCTTRE.h" |
---|
1505 | ! ---------------------------------------- |
---|
1506 | ! |
---|
1507 | DO k = 1,klev |
---|
1508 | DO i = 1,klon |
---|
1509 | t_targ(i,k) = t(i,k) |
---|
1510 | IF (t(i,k).LT.RTT) THEN |
---|
1511 | zx_qs = qsats(t(i,k))/(pplay(i,k)) |
---|
1512 | ELSE |
---|
1513 | zx_qs = qsatl(t(i,k))/(pplay(i,k)) |
---|
1514 | ENDIF |
---|
1515 | rh_targ(i,k) = q(i,k)/zx_qs |
---|
1516 | ENDDO |
---|
1517 | ENDDO |
---|
1518 | print *, 't_targ',t_targ |
---|
1519 | print *, 'rh_targ',rh_targ |
---|
1520 | ! |
---|
1521 | ! |
---|
1522 | RETURN |
---|
1523 | END |
---|
1524 | |
---|
1525 | Subroutine Nudge_UV_init (paprs,pplay,u,v,u_targ,v_targ) |
---|
1526 | ! ======================================================== |
---|
1527 | USE dimphy |
---|
1528 | |
---|
1529 | implicit none |
---|
1530 | |
---|
1531 | ! ======================================================== |
---|
1532 | REAL paprs(klon,klevp1) |
---|
1533 | REAL pplay(klon,klev) |
---|
1534 | ! |
---|
1535 | ! Variables d'etat |
---|
1536 | REAL u(klon,klev) |
---|
1537 | REAL v(klon,klev) |
---|
1538 | ! |
---|
1539 | ! Profiles cible |
---|
1540 | REAL u_targ(klon,klev) |
---|
1541 | REAL v_targ(klon,klev) |
---|
1542 | ! |
---|
1543 | INTEGER k,i |
---|
1544 | ! |
---|
1545 | DO k = 1,klev |
---|
1546 | DO i = 1,klon |
---|
1547 | u_targ(i,k) = u(i,k) |
---|
1548 | v_targ(i,k) = v(i,k) |
---|
1549 | ENDDO |
---|
1550 | ENDDO |
---|
1551 | print *, 'u_targ',u_targ |
---|
1552 | print *, 'v_targ',v_targ |
---|
1553 | ! |
---|
1554 | ! |
---|
1555 | RETURN |
---|
1556 | END |
---|
1557 | |
---|
1558 | Subroutine Nudge_RHT (dtime,paprs,pplay,t_targ,rh_targ,t,q, & |
---|
1559 | & d_t,d_q) |
---|
1560 | ! ======================================================== |
---|
1561 | USE dimphy |
---|
1562 | |
---|
1563 | implicit none |
---|
1564 | |
---|
1565 | ! ======================================================== |
---|
1566 | REAL dtime |
---|
1567 | REAL paprs(klon,klevp1) |
---|
1568 | REAL pplay(klon,klev) |
---|
1569 | ! |
---|
1570 | ! Variables d'etat |
---|
1571 | REAL t(klon,klev) |
---|
1572 | REAL q(klon,klev) |
---|
1573 | ! |
---|
1574 | ! Tendances |
---|
1575 | REAL d_t(klon,klev) |
---|
1576 | REAL d_q(klon,klev) |
---|
1577 | ! |
---|
1578 | ! Profiles cible |
---|
1579 | REAL t_targ(klon,klev) |
---|
1580 | REAL rh_targ(klon,klev) |
---|
1581 | ! |
---|
1582 | ! Temps de relaxation |
---|
1583 | REAL tau |
---|
1584 | !c DATA tau /3600./ |
---|
1585 | !! DATA tau /5400./ |
---|
1586 | DATA tau /1800./ |
---|
1587 | ! |
---|
1588 | INTEGER k,i |
---|
1589 | REAL zx_qs, rh, tnew, d_rh, rhnew |
---|
1590 | |
---|
1591 | ! Declaration des constantes et des fonctions thermodynamiques |
---|
1592 | ! |
---|
1593 | include "YOMCST.h" |
---|
1594 | include "YOETHF.h" |
---|
1595 | ! |
---|
1596 | ! ---------------------------------------- |
---|
1597 | ! Statement functions |
---|
1598 | include "FCTTRE.h" |
---|
1599 | ! ---------------------------------------- |
---|
1600 | ! |
---|
1601 | print *,'dtime, tau ',dtime,tau |
---|
1602 | print *, 't_targ',t_targ |
---|
1603 | print *, 'rh_targ',rh_targ |
---|
1604 | print *,'temp ',t |
---|
1605 | print *,'hum ',q |
---|
1606 | ! |
---|
1607 | DO k = 1,klev |
---|
1608 | DO i = 1,klon |
---|
1609 | IF (paprs(i,1)-pplay(i,k) .GT. 10000.) THEN |
---|
1610 | IF (t(i,k).LT.RTT) THEN |
---|
1611 | zx_qs = qsats(t(i,k))/(pplay(i,k)) |
---|
1612 | ELSE |
---|
1613 | zx_qs = qsatl(t(i,k))/(pplay(i,k)) |
---|
1614 | ENDIF |
---|
1615 | rh = q(i,k)/zx_qs |
---|
1616 | ! |
---|
1617 | d_t(i,k) = d_t(i,k) + 1./tau*(t_targ(i,k)-t(i,k)) |
---|
1618 | d_rh = 1./tau*(rh_targ(i,k)-rh) |
---|
1619 | ! |
---|
1620 | tnew = t(i,k)+d_t(i,k)*dtime |
---|
1621 | !jyg< |
---|
1622 | ! Formule pour q : |
---|
1623 | ! d_q = (1/tau) [rh_targ*qsat(T_new) - q] |
---|
1624 | ! |
---|
1625 | ! Cette formule remplace d_q = (1/tau) [rh_targ - rh] qsat(T_new) |
---|
1626 | ! qui n'etait pas correcte. |
---|
1627 | ! |
---|
1628 | IF (tnew.LT.RTT) THEN |
---|
1629 | zx_qs = qsats(tnew)/(pplay(i,k)) |
---|
1630 | ELSE |
---|
1631 | zx_qs = qsatl(tnew)/(pplay(i,k)) |
---|
1632 | ENDIF |
---|
1633 | !! d_q(i,k) = d_q(i,k) + d_rh*zx_qs |
---|
1634 | d_q(i,k) = d_q(i,k) + (1./tau)*(rh_targ(i,k)*zx_qs - q(i,k)) |
---|
1635 | rhnew = (q(i,k)+d_q(i,k)*dtime)/zx_qs |
---|
1636 | ! |
---|
1637 | print *,' k,d_t,rh,d_rh,rhnew,d_q ', & |
---|
1638 | k,d_t(i,k),rh,d_rh,rhnew,d_q(i,k) |
---|
1639 | ENDIF |
---|
1640 | ! |
---|
1641 | ENDDO |
---|
1642 | ENDDO |
---|
1643 | ! |
---|
1644 | RETURN |
---|
1645 | END |
---|
1646 | |
---|
1647 | Subroutine Nudge_UV (dtime,paprs,pplay,u_targ,v_targ,u,v, & |
---|
1648 | & d_u,d_v) |
---|
1649 | ! ======================================================== |
---|
1650 | USE dimphy |
---|
1651 | |
---|
1652 | implicit none |
---|
1653 | |
---|
1654 | ! ======================================================== |
---|
1655 | REAL dtime |
---|
1656 | REAL paprs(klon,klevp1) |
---|
1657 | REAL pplay(klon,klev) |
---|
1658 | ! |
---|
1659 | ! Variables d'etat |
---|
1660 | REAL u(klon,klev) |
---|
1661 | REAL v(klon,klev) |
---|
1662 | ! |
---|
1663 | ! Tendances |
---|
1664 | REAL d_u(klon,klev) |
---|
1665 | REAL d_v(klon,klev) |
---|
1666 | ! |
---|
1667 | ! Profiles cible |
---|
1668 | REAL u_targ(klon,klev) |
---|
1669 | REAL v_targ(klon,klev) |
---|
1670 | ! |
---|
1671 | ! Temps de relaxation |
---|
1672 | REAL tau |
---|
1673 | !c DATA tau /3600./ |
---|
1674 | ! DATA tau /5400./ |
---|
1675 | DATA tau /43200./ |
---|
1676 | ! |
---|
1677 | INTEGER k,i |
---|
1678 | |
---|
1679 | ! |
---|
1680 | print *,'dtime, tau ',dtime,tau |
---|
1681 | print *, 'u_targ',u_targ |
---|
1682 | print *, 'v_targ',v_targ |
---|
1683 | print *,'zonal velocity ',u |
---|
1684 | print *,'meridional velocity ',v |
---|
1685 | DO k = 1,klev |
---|
1686 | DO i = 1,klon |
---|
1687 | !CR: nudging everywhere |
---|
1688 | ! IF (paprs(i,1)-pplay(i,k) .GT. 10000.) THEN |
---|
1689 | ! |
---|
1690 | d_u(i,k) = d_u(i,k) + 1./tau*(u_targ(i,k)-u(i,k)) |
---|
1691 | d_v(i,k) = d_v(i,k) + 1./tau*(v_targ(i,k)-v(i,k)) |
---|
1692 | ! |
---|
1693 | print *,' k,u,d_u,v,d_v ', & |
---|
1694 | k,u(i,k),d_u(i,k),v(i,k),d_v(i,k) |
---|
1695 | ! ENDIF |
---|
1696 | ! |
---|
1697 | ENDDO |
---|
1698 | ENDDO |
---|
1699 | ! |
---|
1700 | RETURN |
---|
1701 | END |
---|
1702 | |
---|
1703 | !===================================================================== |
---|
1704 | SUBROUTINE interp2_case_vertical(play,nlev_cas,plev_prof_cas & |
---|
1705 | & ,t_prof_cas,th_prof_cas,thv_prof_cas,thl_prof_cas & |
---|
1706 | & ,qv_prof_cas,ql_prof_cas,qi_prof_cas,u_prof_cas,v_prof_cas & |
---|
1707 | & ,ug_prof_cas,vg_prof_cas,vitw_prof_cas,omega_prof_cas & |
---|
1708 | & ,du_prof_cas,hu_prof_cas,vu_prof_cas,dv_prof_cas,hv_prof_cas,vv_prof_cas & |
---|
1709 | & ,dt_prof_cas,ht_prof_cas,vt_prof_cas,dtrad_prof_cas,dq_prof_cas,hq_prof_cas,vq_prof_cas & |
---|
1710 | & ,dth_prof_cas,hth_prof_cas,vth_prof_cas & |
---|
1711 | ! |
---|
1712 | & ,t_mod_cas,theta_mod_cas,thv_mod_cas,thl_mod_cas & |
---|
1713 | & ,qv_mod_cas,ql_mod_cas,qi_mod_cas,u_mod_cas,v_mod_cas & |
---|
1714 | & ,ug_mod_cas,vg_mod_cas,w_mod_cas,omega_mod_cas & |
---|
1715 | & ,du_mod_cas,hu_mod_cas,vu_mod_cas,dv_mod_cas,hv_mod_cas,vv_mod_cas & |
---|
1716 | & ,dt_mod_cas,ht_mod_cas,vt_mod_cas,dtrad_mod_cas,dq_mod_cas,hq_mod_cas,vq_mod_cas & |
---|
1717 | & ,dth_mod_cas,hth_mod_cas,vth_mod_cas,mxcalc) |
---|
1718 | |
---|
1719 | implicit none |
---|
1720 | |
---|
1721 | #include "YOMCST.h" |
---|
1722 | #include "dimensions.h" |
---|
1723 | |
---|
1724 | !------------------------------------------------------------------------- |
---|
1725 | ! Vertical interpolation of generic case forcing data onto mod_casel levels |
---|
1726 | !------------------------------------------------------------------------- |
---|
1727 | |
---|
1728 | integer nlevmax |
---|
1729 | parameter (nlevmax=41) |
---|
1730 | integer nlev_cas,mxcalc |
---|
1731 | ! real play(llm), plev_prof(nlevmax) |
---|
1732 | ! real t_prof(nlevmax),q_prof(nlevmax) |
---|
1733 | ! real u_prof(nlevmax),v_prof(nlevmax), w_prof(nlevmax) |
---|
1734 | ! real ht_prof(nlevmax),vt_prof(nlevmax) |
---|
1735 | ! real hq_prof(nlevmax),vq_prof(nlevmax) |
---|
1736 | |
---|
1737 | real play(llm), plev_prof_cas(nlev_cas) |
---|
1738 | real t_prof_cas(nlev_cas),th_prof_cas(nlev_cas),thv_prof_cas(nlev_cas),thl_prof_cas(nlev_cas) |
---|
1739 | real qv_prof_cas(nlev_cas),ql_prof_cas(nlev_cas),qi_prof_cas(nlev_cas) |
---|
1740 | real u_prof_cas(nlev_cas),v_prof_cas(nlev_cas) |
---|
1741 | real ug_prof_cas(nlev_cas),vg_prof_cas(nlev_cas), vitw_prof_cas(nlev_cas),omega_prof_cas(nlev_cas) |
---|
1742 | real du_prof_cas(nlev_cas),hu_prof_cas(nlev_cas),vu_prof_cas(nlev_cas) |
---|
1743 | real dv_prof_cas(nlev_cas),hv_prof_cas(nlev_cas),vv_prof_cas(nlev_cas) |
---|
1744 | real dt_prof_cas(nlev_cas),ht_prof_cas(nlev_cas),vt_prof_cas(nlev_cas),dtrad_prof_cas(nlev_cas) |
---|
1745 | real dth_prof_cas(nlev_cas),hth_prof_cas(nlev_cas),vth_prof_cas(nlev_cas) |
---|
1746 | real dq_prof_cas(nlev_cas),hq_prof_cas(nlev_cas),vq_prof_cas(nlev_cas) |
---|
1747 | |
---|
1748 | real t_mod_cas(llm),theta_mod_cas(llm),thv_mod_cas(llm),thl_mod_cas(llm) |
---|
1749 | real qv_mod_cas(llm),ql_mod_cas(llm),qi_mod_cas(llm) |
---|
1750 | real u_mod_cas(llm),v_mod_cas(llm) |
---|
1751 | real ug_mod_cas(llm),vg_mod_cas(llm), w_mod_cas(llm),omega_mod_cas(llm) |
---|
1752 | real du_mod_cas(llm),hu_mod_cas(llm),vu_mod_cas(llm) |
---|
1753 | real dv_mod_cas(llm),hv_mod_cas(llm),vv_mod_cas(llm) |
---|
1754 | real dt_mod_cas(llm),ht_mod_cas(llm),vt_mod_cas(llm),dtrad_mod_cas(llm) |
---|
1755 | real dth_mod_cas(llm),hth_mod_cas(llm),vth_mod_cas(llm) |
---|
1756 | real dq_mod_cas(llm),hq_mod_cas(llm),vq_mod_cas(llm) |
---|
1757 | |
---|
1758 | integer l,k,k1,k2 |
---|
1759 | real frac,frac1,frac2,fact |
---|
1760 | |
---|
1761 | ! do l = 1, llm |
---|
1762 | ! print *,'debut interp2, play=',l,play(l) |
---|
1763 | ! enddo |
---|
1764 | ! do l = 1, nlev_cas |
---|
1765 | ! print *,'debut interp2, plev_prof_cas=',l,play(l),plev_prof_cas(l) |
---|
1766 | ! enddo |
---|
1767 | |
---|
1768 | do l = 1, llm |
---|
1769 | |
---|
1770 | if (play(l).ge.plev_prof_cas(nlev_cas)) then |
---|
1771 | |
---|
1772 | mxcalc=l |
---|
1773 | ! print *,'debut interp2, mxcalc=',mxcalc |
---|
1774 | k1=0 |
---|
1775 | k2=0 |
---|
1776 | |
---|
1777 | if (play(l).le.plev_prof_cas(1)) then |
---|
1778 | |
---|
1779 | do k = 1, nlev_cas-1 |
---|
1780 | if (play(l).le.plev_prof_cas(k).and. play(l).gt.plev_prof_cas(k+1)) then |
---|
1781 | k1=k |
---|
1782 | k2=k+1 |
---|
1783 | endif |
---|
1784 | enddo |
---|
1785 | |
---|
1786 | if (k1.eq.0 .or. k2.eq.0) then |
---|
1787 | write(*,*) 'PB! k1, k2 = ',k1,k2 |
---|
1788 | write(*,*) 'l,play(l) = ',l,play(l)/100 |
---|
1789 | do k = 1, nlev_cas-1 |
---|
1790 | write(*,*) 'k,plev_prof_cas(k) = ',k,plev_prof_cas(k)/100 |
---|
1791 | enddo |
---|
1792 | endif |
---|
1793 | |
---|
1794 | frac = (plev_prof_cas(k2)-play(l))/(plev_prof_cas(k2)-plev_prof_cas(k1)) |
---|
1795 | t_mod_cas(l)= t_prof_cas(k2) - frac*(t_prof_cas(k2)-t_prof_cas(k1)) |
---|
1796 | theta_mod_cas(l)= th_prof_cas(k2) - frac*(th_prof_cas(k2)-th_prof_cas(k1)) |
---|
1797 | if(theta_mod_cas(l).NE.0) t_mod_cas(l)= theta_mod_cas(l)*(play(l)/100000.)**(RD/RCPD) |
---|
1798 | thv_mod_cas(l)= thv_prof_cas(k2) - frac*(thv_prof_cas(k2)-thv_prof_cas(k1)) |
---|
1799 | thl_mod_cas(l)= thl_prof_cas(k2) - frac*(thl_prof_cas(k2)-thl_prof_cas(k1)) |
---|
1800 | qv_mod_cas(l)= qv_prof_cas(k2) - frac*(qv_prof_cas(k2)-qv_prof_cas(k1)) |
---|
1801 | ql_mod_cas(l)= ql_prof_cas(k2) - frac*(ql_prof_cas(k2)-ql_prof_cas(k1)) |
---|
1802 | qi_mod_cas(l)= qi_prof_cas(k2) - frac*(qi_prof_cas(k2)-qi_prof_cas(k1)) |
---|
1803 | u_mod_cas(l)= u_prof_cas(k2) - frac*(u_prof_cas(k2)-u_prof_cas(k1)) |
---|
1804 | v_mod_cas(l)= v_prof_cas(k2) - frac*(v_prof_cas(k2)-v_prof_cas(k1)) |
---|
1805 | ug_mod_cas(l)= ug_prof_cas(k2) - frac*(ug_prof_cas(k2)-ug_prof_cas(k1)) |
---|
1806 | vg_mod_cas(l)= vg_prof_cas(k2) - frac*(vg_prof_cas(k2)-vg_prof_cas(k1)) |
---|
1807 | w_mod_cas(l)= vitw_prof_cas(k2) - frac*(vitw_prof_cas(k2)-vitw_prof_cas(k1)) |
---|
1808 | omega_mod_cas(l)= omega_prof_cas(k2) - frac*(omega_prof_cas(k2)-omega_prof_cas(k1)) |
---|
1809 | du_mod_cas(l)= du_prof_cas(k2) - frac*(du_prof_cas(k2)-du_prof_cas(k1)) |
---|
1810 | hu_mod_cas(l)= hu_prof_cas(k2) - frac*(hu_prof_cas(k2)-hu_prof_cas(k1)) |
---|
1811 | vu_mod_cas(l)= vu_prof_cas(k2) - frac*(vu_prof_cas(k2)-vu_prof_cas(k1)) |
---|
1812 | dv_mod_cas(l)= dv_prof_cas(k2) - frac*(dv_prof_cas(k2)-dv_prof_cas(k1)) |
---|
1813 | hv_mod_cas(l)= hv_prof_cas(k2) - frac*(hv_prof_cas(k2)-hv_prof_cas(k1)) |
---|
1814 | vv_mod_cas(l)= vv_prof_cas(k2) - frac*(vv_prof_cas(k2)-vv_prof_cas(k1)) |
---|
1815 | dt_mod_cas(l)= dt_prof_cas(k2) - frac*(dt_prof_cas(k2)-dt_prof_cas(k1)) |
---|
1816 | ht_mod_cas(l)= ht_prof_cas(k2) - frac*(ht_prof_cas(k2)-ht_prof_cas(k1)) |
---|
1817 | vt_mod_cas(l)= vt_prof_cas(k2) - frac*(vt_prof_cas(k2)-vt_prof_cas(k1)) |
---|
1818 | dth_mod_cas(l)= dth_prof_cas(k2) - frac*(dth_prof_cas(k2)-dth_prof_cas(k1)) |
---|
1819 | hth_mod_cas(l)= hth_prof_cas(k2) - frac*(hth_prof_cas(k2)-hth_prof_cas(k1)) |
---|
1820 | vth_mod_cas(l)= vth_prof_cas(k2) - frac*(vth_prof_cas(k2)-vth_prof_cas(k1)) |
---|
1821 | dq_mod_cas(l)= dq_prof_cas(k2) - frac*(dq_prof_cas(k2)-dq_prof_cas(k1)) |
---|
1822 | hq_mod_cas(l)= hq_prof_cas(k2) - frac*(hq_prof_cas(k2)-hq_prof_cas(k1)) |
---|
1823 | vq_mod_cas(l)= vq_prof_cas(k2) - frac*(vq_prof_cas(k2)-vq_prof_cas(k1)) |
---|
1824 | dtrad_mod_cas(l)= dtrad_prof_cas(k2) - frac*(dtrad_prof_cas(k2)-dtrad_prof_cas(k1)) |
---|
1825 | |
---|
1826 | else !play>plev_prof_cas(1) |
---|
1827 | |
---|
1828 | k1=1 |
---|
1829 | k2=2 |
---|
1830 | print *,'interp2_vert, k1,k2=',plev_prof_cas(k1),plev_prof_cas(k2) |
---|
1831 | frac1 = (play(l)-plev_prof_cas(k2))/(plev_prof_cas(k1)-plev_prof_cas(k2)) |
---|
1832 | frac2 = (play(l)-plev_prof_cas(k1))/(plev_prof_cas(k1)-plev_prof_cas(k2)) |
---|
1833 | t_mod_cas(l)= frac1*t_prof_cas(k1) - frac2*t_prof_cas(k2) |
---|
1834 | theta_mod_cas(l)= frac1*th_prof_cas(k1) - frac2*th_prof_cas(k2) |
---|
1835 | if(theta_mod_cas(l).NE.0) t_mod_cas(l)= theta_mod_cas(l)*(play(l)/100000.)**(RD/RCPD) |
---|
1836 | thv_mod_cas(l)= frac1*thv_prof_cas(k1) - frac2*thv_prof_cas(k2) |
---|
1837 | thl_mod_cas(l)= frac1*thl_prof_cas(k1) - frac2*thl_prof_cas(k2) |
---|
1838 | qv_mod_cas(l)= frac1*qv_prof_cas(k1) - frac2*qv_prof_cas(k2) |
---|
1839 | ql_mod_cas(l)= frac1*ql_prof_cas(k1) - frac2*ql_prof_cas(k2) |
---|
1840 | qi_mod_cas(l)= frac1*qi_prof_cas(k1) - frac2*qi_prof_cas(k2) |
---|
1841 | u_mod_cas(l)= frac1*u_prof_cas(k1) - frac2*u_prof_cas(k2) |
---|
1842 | v_mod_cas(l)= frac1*v_prof_cas(k1) - frac2*v_prof_cas(k2) |
---|
1843 | ug_mod_cas(l)= frac1*ug_prof_cas(k1) - frac2*ug_prof_cas(k2) |
---|
1844 | vg_mod_cas(l)= frac1*vg_prof_cas(k1) - frac2*vg_prof_cas(k2) |
---|
1845 | w_mod_cas(l)= frac1*vitw_prof_cas(k1) - frac2*vitw_prof_cas(k2) |
---|
1846 | omega_mod_cas(l)= frac1*omega_prof_cas(k1) - frac2*omega_prof_cas(k2) |
---|
1847 | du_mod_cas(l)= frac1*du_prof_cas(k1) - frac2*du_prof_cas(k2) |
---|
1848 | hu_mod_cas(l)= frac1*hu_prof_cas(k1) - frac2*hu_prof_cas(k2) |
---|
1849 | vu_mod_cas(l)= frac1*vu_prof_cas(k1) - frac2*vu_prof_cas(k2) |
---|
1850 | dv_mod_cas(l)= frac1*dv_prof_cas(k1) - frac2*dv_prof_cas(k2) |
---|
1851 | hv_mod_cas(l)= frac1*hv_prof_cas(k1) - frac2*hv_prof_cas(k2) |
---|
1852 | vv_mod_cas(l)= frac1*vv_prof_cas(k1) - frac2*vv_prof_cas(k2) |
---|
1853 | dt_mod_cas(l)= frac1*dt_prof_cas(k1) - frac2*dt_prof_cas(k2) |
---|
1854 | ht_mod_cas(l)= frac1*ht_prof_cas(k1) - frac2*ht_prof_cas(k2) |
---|
1855 | vt_mod_cas(l)= frac1*vt_prof_cas(k1) - frac2*vt_prof_cas(k2) |
---|
1856 | dth_mod_cas(l)= frac1*dth_prof_cas(k1) - frac2*dth_prof_cas(k2) |
---|
1857 | hth_mod_cas(l)= frac1*hth_prof_cas(k1) - frac2*hth_prof_cas(k2) |
---|
1858 | vth_mod_cas(l)= frac1*vth_prof_cas(k1) - frac2*vth_prof_cas(k2) |
---|
1859 | dq_mod_cas(l)= frac1*dq_prof_cas(k1) - frac2*dq_prof_cas(k2) |
---|
1860 | hq_mod_cas(l)= frac1*hq_prof_cas(k1) - frac2*hq_prof_cas(k2) |
---|
1861 | vq_mod_cas(l)= frac1*vq_prof_cas(k1) - frac2*vq_prof_cas(k2) |
---|
1862 | dtrad_mod_cas(l)= frac1*dtrad_prof_cas(k1) - frac2*dtrad_prof_cas(k2) |
---|
1863 | |
---|
1864 | endif ! play.le.plev_prof_cas(1) |
---|
1865 | |
---|
1866 | else ! above max altitude of forcing file |
---|
1867 | |
---|
1868 | !jyg |
---|
1869 | fact=20.*(plev_prof_cas(nlev_cas)-play(l))/plev_prof_cas(nlev_cas) !jyg |
---|
1870 | fact = max(fact,0.) !jyg |
---|
1871 | fact = exp(-fact) !jyg |
---|
1872 | t_mod_cas(l)= t_prof_cas(nlev_cas) !jyg |
---|
1873 | theta_mod_cas(l)= th_prof_cas(nlev_cas) !jyg |
---|
1874 | thv_mod_cas(l)= thv_prof_cas(nlev_cas) !jyg |
---|
1875 | thl_mod_cas(l)= thl_prof_cas(nlev_cas) !jyg |
---|
1876 | qv_mod_cas(l)= qv_prof_cas(nlev_cas)*fact !jyg |
---|
1877 | ql_mod_cas(l)= ql_prof_cas(nlev_cas)*fact !jyg |
---|
1878 | qi_mod_cas(l)= qi_prof_cas(nlev_cas)*fact !jyg |
---|
1879 | u_mod_cas(l)= u_prof_cas(nlev_cas)*fact !jyg |
---|
1880 | v_mod_cas(l)= v_prof_cas(nlev_cas)*fact !jyg |
---|
1881 | ug_mod_cas(l)= ug_prof_cas(nlev_cas)*fact !jyg |
---|
1882 | vg_mod_cas(l)= vg_prof_cas(nlev_cas)*fact !jyg |
---|
1883 | w_mod_cas(l)= 0.0 !jyg |
---|
1884 | omega_mod_cas(l)= 0.0 !jyg |
---|
1885 | du_mod_cas(l)= du_prof_cas(nlev_cas)*fact |
---|
1886 | hu_mod_cas(l)= hu_prof_cas(nlev_cas)*fact !jyg |
---|
1887 | vu_mod_cas(l)= vu_prof_cas(nlev_cas)*fact !jyg |
---|
1888 | dv_mod_cas(l)= dv_prof_cas(nlev_cas)*fact |
---|
1889 | hv_mod_cas(l)= hv_prof_cas(nlev_cas)*fact !jyg |
---|
1890 | vv_mod_cas(l)= vv_prof_cas(nlev_cas)*fact !jyg |
---|
1891 | dt_mod_cas(l)= dt_prof_cas(nlev_cas) |
---|
1892 | ht_mod_cas(l)= ht_prof_cas(nlev_cas) !jyg |
---|
1893 | vt_mod_cas(l)= vt_prof_cas(nlev_cas) !jyg |
---|
1894 | dth_mod_cas(l)= dth_prof_cas(nlev_cas) |
---|
1895 | hth_mod_cas(l)= hth_prof_cas(nlev_cas) !jyg |
---|
1896 | vth_mod_cas(l)= vth_prof_cas(nlev_cas) !jyg |
---|
1897 | dq_mod_cas(l)= dq_prof_cas(nlev_cas)*fact |
---|
1898 | hq_mod_cas(l)= hq_prof_cas(nlev_cas)*fact !jyg |
---|
1899 | vq_mod_cas(l)= vq_prof_cas(nlev_cas)*fact !jyg |
---|
1900 | dtrad_mod_cas(l)= dtrad_prof_cas(nlev_cas)*fact !jyg |
---|
1901 | |
---|
1902 | endif ! play |
---|
1903 | |
---|
1904 | enddo ! l |
---|
1905 | |
---|
1906 | return |
---|
1907 | end |
---|
1908 | !***************************************************************************** |
---|
1909 | |
---|
1910 | |
---|
1911 | |
---|
1912 | |
---|