1 | program rcm1d |
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2 | |
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3 | use radcommon_h, only: tauvis |
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4 | ! to use 'getin' |
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5 | use ioipsl_getincom |
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6 | |
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7 | implicit none |
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8 | |
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9 | !================================================================== |
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10 | ! |
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11 | ! Purpose |
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12 | ! ------- |
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13 | ! Run the physics package of the universal model in a 1D column. |
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14 | ! |
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15 | ! It can be compiled with a command like (e.g. for 25 layers): |
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16 | ! "makegcm -p std -d 25 rcm1d" |
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17 | ! It requires the files "callphys.def", "z2sig.def", |
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18 | ! "traceur.def", and "run.def" with a line "INCLUDEDEF=callphys.def" |
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19 | ! |
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20 | ! Authors |
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21 | ! ------- |
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22 | ! Frederic Hourdin |
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23 | ! R. Fournier |
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24 | ! F. Forget |
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25 | ! F. Montmessin (water ice added) |
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26 | ! R. Wordsworth |
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27 | ! |
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28 | !================================================================== |
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29 | |
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30 | #include "dimensions.h" |
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31 | #include "paramet.h" |
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32 | #include "dimphys.h" |
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33 | #include "comgeomfi.h" |
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34 | #include "surfdat.h" |
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35 | #include "comsoil.h" |
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36 | #include "comdiurn.h" |
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37 | #include "callkeys.h" |
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38 | #include "comcstfi.h" |
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39 | #include "planete.h" |
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40 | #include "comsaison.h" |
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41 | #include "control.h" |
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42 | #include "comvert.h" |
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43 | #include "netcdf.inc" |
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44 | #include "watercap.h" |
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45 | #include "fisice.h" |
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46 | #include "logic.h" |
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47 | #include "advtrac.h" |
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48 | #include "comgeom.h" |
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49 | |
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50 | c -------------------------------------------------------------- |
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51 | c Declarations |
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52 | c -------------------------------------------------------------- |
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53 | c |
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54 | INTEGER unitstart ! unite d'ecriture de "startfi" |
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55 | INTEGER nlayer,nlevel,nsoil,ndt |
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56 | INTEGER ilayer,ilevel,isoil,idt,iq |
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57 | LOGICAl firstcall,lastcall |
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58 | c |
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59 | INTEGER day0 ! date initial (sol ; =0 a Ls=0) |
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60 | REAL day ! date durant le run |
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61 | REAL time ! time (0<time<1 ; time=0.5 a midi) |
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62 | REAL play(nlayermx) ! Pressure at the middle of the layers (Pa) |
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63 | REAL plev(nlayermx+1) ! intermediate pressure levels (pa) |
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64 | REAL psurf,tsurf |
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65 | REAL u(nlayermx),v(nlayermx) ! zonal, meridional wind |
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66 | REAL gru,grv ! prescribed "geostrophic" background wind |
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67 | REAL temp(nlayermx) ! temperature at the middle of the layers |
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68 | REAL q(nlayermx,nqmx) ! tracer mixing ratio (e.g. kg/kg) |
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69 | REAL qsurf(nqmx) ! tracer surface budget (e.g. kg.m-2) |
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70 | REAL tsoil(nsoilmx) ! subsurface soik temperature (K) |
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71 | ! REAL co2ice ! co2ice layer (kg.m-2) !not used anymore |
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72 | integer :: i_co2_ice=0 ! tracer index of co2 ice |
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73 | integer :: i_h2o_ice=0 ! tracer index of co2 ice |
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74 | REAL emis ! surface layer |
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75 | REAL q2(nlayermx+1) ! Turbulent Kinetic Energy |
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76 | REAL zlay(nlayermx) ! altitude estimee dans les couches (km) |
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77 | |
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78 | c Physical and dynamical tandencies (e.g. m.s-2, K/s, Pa/s) |
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79 | REAL du(nlayermx),dv(nlayermx),dtemp(nlayermx) |
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80 | REAL dudyn(nlayermx),dvdyn(nlayermx),dtempdyn(nlayermx) |
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81 | REAL dpsurf |
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82 | REAL dq(nlayermx,nqmx) |
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83 | REAL dqdyn(nlayermx,nqmx) |
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84 | |
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85 | c Various intermediate variables |
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86 | ! INTEGER thermo |
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87 | REAL zls |
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88 | REAL phi(nlayermx),h(nlayermx),s(nlayermx) |
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89 | REAL pks, ptif, w(nlayermx) |
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90 | REAL qtotinit, mqtot(nqmx),qtot |
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91 | INTEGER ierr, aslun |
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92 | REAL tmp1(0:nlayermx),tmp2(0:nlayermx) |
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93 | Logical tracerdyn |
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94 | integer :: nq=1 ! number of tracers |
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95 | |
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96 | character*2 str2 |
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97 | character (len=7) :: str7 |
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98 | |
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99 | logical oldcompare, earthhack,saveprofile |
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100 | |
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101 | ! added by RW for zlay computation |
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102 | real Hscale, Hmax, rho, dz |
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103 | |
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104 | ! added by RW for autozlevs computation |
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105 | real nu, xx, pMIN, zlev, Htop |
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106 | real logplevs(nlayermx) |
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107 | |
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108 | ! added by RDW to allow variations in cp with location |
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109 | REAL cpp3D(ngridmx,nlayermx) ! specific heat capacity at const. pressure |
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110 | REAL rcp3D(ngridmx,nlayermx) ! R / specific heat capacity |
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111 | |
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112 | ! added by BC |
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113 | REAL cloudfrac(ngridmx,nlayermx) |
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114 | REAL hice(ngridmx),totcloudfrac(ngridmx) |
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115 | |
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116 | c======================================================================= |
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117 | c INITIALISATION |
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118 | c======================================================================= |
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119 | |
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120 | saveprofile=.false. |
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121 | |
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122 | c ------------------------------------------------------ |
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123 | c Default values for constants (corresponding to Mars) |
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124 | c ------------------------------------------------------ |
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125 | |
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126 | pi=2.E+0*asin(1.E+0) |
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127 | |
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128 | c Constante de la Planete Mars |
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129 | c ---------------------------- |
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130 | rad=3397200. ! rayon de mars (m) ~3397200 m |
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131 | daysec=88775. ! duree du sol (s) ~88775 s |
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132 | omeg=4.*asin(1.)/(daysec) ! vitesse de rotation (rad.s-1) |
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133 | g=3.72 ! gravite (m.s-2) ~3.72 |
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134 | mugaz=43.49 ! Masse molaire de l'atm (g.mol-1) ~43.49 |
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135 | rcp=.256793 ! = r/cp ~0.256793 |
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136 | r= 8.314511E+0 *1000.E+0/mugaz |
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137 | cpp= r/rcp |
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138 | year_day = 669 ! duree de l'annee (sols) ~668.6 |
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139 | periastr = 206.66 ! min. dist. star-planet (Mkm) ~206.66 |
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140 | apoastr = 249.22 ! max. dist. star-planet (Mkm) ~249.22 |
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141 | peri_day = 485. ! date du periastron (sols depuis printemps) |
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142 | obliquit = 25.2 ! Obliquite de la planete (deg) ~25.2 |
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143 | |
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144 | c Parametres Couche limite et Turbulence |
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145 | c -------------------------------------- |
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146 | z0 = 1.e-2 ! surface roughness (m) ~0.01 |
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147 | emin_turb = 1.e-6 ! energie minimale ~1.e-8 |
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148 | lmixmin = 30 ! longueur de melange ~100 |
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149 | |
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150 | c propriete optiques des calottes et emissivite du sol |
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151 | c ---------------------------------------------------- |
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152 | emissiv= 0.95 ! Emissivite du sol martien ~.95 |
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153 | emisice(1)=0.95 ! Emissivite calotte nord |
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154 | emisice(2)=0.95 ! Emissivite calotte sud |
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155 | |
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156 | albedice(1)=0.5 ! Albedo calotte nord |
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157 | albedice(2)=0.5 ! Albedo calotte sud |
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158 | iceradius(1) = 100.e-6 ! mean scat radius of CO2 snow (north) |
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159 | iceradius(2) = 100.e-6 ! mean scat radius of CO2 snow (south) |
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160 | dtemisice(1) = 2. ! time scale for snow metamorphism (north) |
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161 | dtemisice(2) = 2. ! time scale for snow metamorphism (south |
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162 | hybrid=.false. |
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163 | |
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164 | c ------------------------------------------------------ |
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165 | c Load parameters from "run.def" |
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166 | c ------------------------------------------------------ |
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167 | |
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168 | ! also check if 'run1d.def' file is around (otherwise reading parameters |
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169 | ! from callphys.def via getin() routine won't work. |
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170 | open(90,file='run.def',status='old',form='formatted', |
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171 | & iostat=ierr) |
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172 | if (ierr.ne.0) then |
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173 | write(*,*) 'Cannot find required file "run.def"' |
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174 | write(*,*) ' (which should contain some input parameters' |
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175 | write(*,*) ' along with the following line:' |
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176 | write(*,*) ' INCLUDEDEF=callphys.def' |
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177 | write(*,*) ' )' |
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178 | write(*,*) ' ... might as well stop here ...' |
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179 | stop |
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180 | else |
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181 | close(90) |
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182 | endif |
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183 | |
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184 | ! check if we are going to run with or without tracers |
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185 | write(*,*) "Run with or without tracer transport ?" |
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186 | tracer=.false. ! default value |
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187 | call getin("tracer",tracer) |
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188 | write(*,*) " tracer = ",tracer |
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189 | |
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190 | ! while we're at it, check if there is a 'traceur.def' file |
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191 | ! and preocess it, if necessary. Otherwise initialize tracer names |
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192 | if (tracer) then |
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193 | ! load tracer names from file 'traceur.def' |
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194 | open(90,file='traceur.def',status='old',form='formatted', |
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195 | & iostat=ierr) |
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196 | if (ierr.eq.0) then |
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197 | write(*,*) "rcm1d: Reading file traceur.def" |
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198 | ! read number of tracers: |
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199 | read(90,*,iostat=ierr) nq |
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200 | if (ierr.ne.0) then |
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201 | write(*,*) "rcm1d: error reading number of tracers" |
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202 | write(*,*) " (first line of traceur.def) " |
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203 | stop |
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204 | else |
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205 | ! check that the number of tracers is indeed nqmx |
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206 | if (nq.ne.nqmx) then |
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207 | write(*,*) "rcm1d: error, wrong number of tracers:" |
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208 | write(*,*) "nq=",nq," whereas nqmx=",nqmx |
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209 | stop |
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210 | endif |
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211 | endif |
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212 | |
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213 | ! initialize advection schemes to Van-Leer for all tracers |
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214 | do iq=1,nq |
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215 | iadv(iq)=3 ! Van-Leer |
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216 | enddo |
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217 | |
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218 | do iq=1,nq |
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219 | ! minimal version, just read in the tracer names, 1 per line |
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220 | read(90,*,iostat=ierr) tnom(iq) |
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221 | if (ierr.ne.0) then |
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222 | write(*,*) 'rcm1d: error reading tracer names...' |
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223 | stop |
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224 | endif |
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225 | enddo !of do iq=1,nq |
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226 | ! check for co2_ice / h2o_ice tracers: |
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227 | i_co2_ice=0 |
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228 | i_h2o_ice=0 |
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229 | do iq=1,nq |
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230 | if (tnom(iq)=="co2_ice") then |
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231 | i_co2_ice=iq |
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232 | elseif (tnom(iq)=="h2o_ice") then |
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233 | i_h2o_ice=iq |
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234 | endif |
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235 | enddo |
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236 | !if (i_co2_ice==0) then |
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237 | ! write(*,*) "rcm1d: error, we need a 'co2_ice' tracer" |
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238 | ! write(*,*) " (add one to traceur.def)" |
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239 | ! stop |
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240 | !endif |
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241 | else |
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242 | write(*,*) 'Cannot find required file "traceur.def"' |
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243 | write(*,*) ' If you want to run with tracers, I need it' |
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244 | write(*,*) ' ... might as well stop here ...' |
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245 | stop |
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246 | endif |
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247 | close(90) |
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248 | |
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249 | else |
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250 | ! we still need to set (dummy) tracer names for physdem1 |
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251 | nq=nqmx |
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252 | do iq=1,nq |
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253 | write(str7,'(a1,i2.2)')'q',iq |
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254 | tnom(iq)=str7 |
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255 | enddo |
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256 | ! actually, we'll need at least one "co2_ice" tracer |
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257 | ! (for surface CO2 ice) |
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258 | tnom(1)="co2_ice" |
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259 | i_co2_ice=1 |
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260 | endif ! of if (tracer) |
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261 | |
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262 | |
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263 | c Date et heure locale du debut du run |
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264 | c ------------------------------------ |
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265 | c Date (en sols depuis le solstice de printemps) du debut du run |
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266 | day0 = 0 ! default value for day0 |
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267 | write(*,*) 'Initial date (in martian sols ; =0 at Ls=0)?' |
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268 | call getin("day0",day0) |
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269 | day=float(day0) |
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270 | write(*,*) " day0 = ",day0 |
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271 | c Heure de demarrage |
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272 | time=0 ! default value for time |
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273 | write(*,*)'Initial local time (in hours, between 0 and 24)?' |
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274 | call getin("time",time) |
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275 | write(*,*)" time = ",time |
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276 | time=time/24.E+0 ! convert time (hours) to fraction of sol |
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277 | |
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278 | |
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279 | c Discretisation (Definition de la grille et des pas de temps) |
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280 | c -------------- |
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281 | c |
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282 | nlayer=nlayermx |
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283 | nlevel=nlayer+1 |
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284 | nsoil=nsoilmx |
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285 | |
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286 | day_step=48 ! default value for day_step |
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287 | PRINT *,'Number of time steps per sol ?' |
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288 | call getin("day_step",day_step) |
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289 | write(*,*) " day_step = ",day_step |
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290 | |
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291 | |
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292 | ecritphy=day_step ! default value for ecritphy |
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293 | PRINT *,'Nunber of steps between writediagfi ?' |
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294 | call getin("ecritphy",ecritphy) |
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295 | write(*,*) " ecritphy = ",ecritphy |
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296 | |
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297 | ndt=10 ! default value for ndt |
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298 | PRINT *,'Number of sols to run ?' |
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299 | call getin("ndt",ndt) |
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300 | write(*,*) " ndt = ",ndt |
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301 | |
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302 | ndt=ndt*day_step |
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303 | dtphys=daysec/day_step |
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304 | |
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305 | |
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306 | c output spectrum? |
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307 | write(*,*)"Output spectral OLR?" |
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308 | specOLR=.false. |
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309 | call getin("specOLR",specOLR) |
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310 | write(*,*)" specOLR = ",specOLR |
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311 | |
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312 | |
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313 | c Pression de surface sur la planete |
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314 | c ------------------------------------ |
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315 | c |
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316 | psurf=100000. ! default value for psurf |
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317 | PRINT *,'Surface pressure (Pa) ?' |
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318 | call getin("psurf",psurf) |
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319 | write(*,*) " psurf = ",psurf |
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320 | c Pression de reference |
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321 | pa=psurf/30. |
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322 | preff=psurf ! these values are not needed in 1D (are you sure JL12) |
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323 | |
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324 | c Gravity of planet |
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325 | c ----------------- |
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326 | g=10.0 ! default value for g |
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327 | PRINT *,'Gravity ?' |
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328 | call getin("g",g) |
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329 | write(*,*) " g = ",g |
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330 | |
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331 | mugaz=0. |
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332 | cpp=0. |
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333 | |
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334 | call su_gases |
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335 | call calc_cpp_mugaz |
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336 | |
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337 | |
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338 | c Proprietes des poussiere aerosol |
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339 | c -------------------------------- |
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340 | tauvis=0.2 ! default value for tauvis |
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341 | print *,'Reference dust opacity at 700 Pa ?' |
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342 | call getin("tauvis",tauvis) |
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343 | write(*,*) " tauvis = ",tauvis |
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344 | |
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345 | c latitude/longitude |
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346 | c ------------------ |
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347 | lati(1)=0 ! default value for lati(1) |
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348 | PRINT *,'latitude (in degrees) ?' |
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349 | call getin("latitude",lati(1)) |
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350 | write(*,*) " latitude = ",lati(1) |
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351 | lati(1)=lati(1)*pi/180.E+0 |
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352 | long(1)=0.E+0 |
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353 | long(1)=long(1)*pi/180.E+0 |
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354 | |
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355 | c periastron/apoastron |
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356 | c -------------------- |
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357 | periastr=227.94 |
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358 | apoastr=227.94 ! default = mean martian values |
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359 | PRINT *,'periastron (in AU) ?' |
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360 | call getin("periastr",periastr) |
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361 | write(*,*) "periastron = ",periastr |
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362 | periastr=periastr*149.598 ! AU to Mkm |
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363 | PRINT *,'apoastron (in AU) ?' |
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364 | call getin("apoastr",apoastr) |
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365 | write(*,*) "apoastron = ",apoastr |
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366 | apoastr=apoastr*149.598 ! AU to Mkm |
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367 | |
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368 | c obliquity |
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369 | c --------- |
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370 | obliquit=0.0! default=zero in 1d |
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371 | PRINT *,'obliquity (in AU) ?' |
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372 | call getin("obliquit",obliquit) |
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373 | write(*,*) "obliquity = ",obliquit |
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374 | |
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375 | c Initialisation albedo / inertie du sol |
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376 | c -------------------------------------- |
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377 | albedodat(1)=0.2 ! default value for albedodat |
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378 | PRINT *,'Albedo of bare ground ?' |
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379 | call getin("albedo",albedodat(1)) |
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380 | write(*,*) " albedo = ",albedodat(1) |
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381 | |
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382 | inertiedat(1,1)=400 ! default value for inertiedat |
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383 | PRINT *,'Soil thermal inertia (SI) ?' |
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384 | call getin("inertia",inertiedat(1,1)) |
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385 | write(*,*) " inertia = ",inertiedat(1,1) |
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386 | c |
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387 | c pour le schema d'ondes de gravite |
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388 | c --------------------------------- |
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389 | c |
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390 | zmea(1)=0.E+0 |
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391 | zstd(1)=0.E+0 |
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392 | zsig(1)=0.E+0 |
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393 | zgam(1)=0.E+0 |
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394 | zthe(1)=0.E+0 |
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395 | |
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396 | c Initialisation des traceurs |
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397 | c --------------------------- |
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398 | |
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399 | DO iq=1,nqmx |
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400 | DO ilayer=1,nlayer |
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401 | q(ilayer,iq) = 0. |
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402 | ENDDO |
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403 | ENDDO |
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404 | |
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405 | DO iq=1,nqmx |
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406 | qsurf(iq) = 0. |
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407 | ENDDO |
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408 | |
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409 | c Initialisation speciales "physiq" |
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410 | c --------------------------------- |
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411 | c la surface de chaque maille est inutile en 1D ---> |
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412 | area(1)=1.E+0 |
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413 | aire(1)=area(1) !JL+EM to have access to the area in the diagfi.nc files. area in comgeomfi.h and aire in comgeom.h |
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414 | |
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415 | c le geopotentiel au sol est inutile en 1D car tout est controle |
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416 | c par la pression de surface ---> |
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417 | phisfi(1)=0.E+0 |
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418 | |
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419 | c "inifis" reproduit un certain nombre d'initialisations deja faites |
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420 | c + lecture des clefs de callphys.def |
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421 | c + calcul de la frequence d'appel au rayonnement |
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422 | c + calcul des sinus et cosinus des longitude latitude |
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423 | |
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424 | !Mars possible issue with dtphys in input and include!!! |
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425 | CALL inifis(1,llm,day0,daysec,dtphys, |
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426 | . lati,long,area,rad,g,r,cpp) |
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427 | c Initialisation pour prendre en compte les vents en 1-D |
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428 | c ------------------------------------------------------ |
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429 | ptif=2.E+0*omeg*sinlat(1) |
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430 | |
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431 | |
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432 | c vent geostrophique |
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433 | gru=10. ! default value for gru |
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434 | PRINT *,'zonal eastward component of the geostrophic wind (m/s) ?' |
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435 | call getin("u",gru) |
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436 | write(*,*) " u = ",gru |
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437 | grv=0. !default value for grv |
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438 | PRINT *,'meridional northward component of the geostrophic', |
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439 | &' wind (m/s) ?' |
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440 | call getin("v",grv) |
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441 | write(*,*) " v = ",grv |
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442 | |
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443 | c Initialisation des vents au premier pas de temps |
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444 | DO ilayer=1,nlayer |
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445 | u(ilayer)=gru |
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446 | v(ilayer)=grv |
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447 | ENDDO |
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448 | |
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449 | c energie cinetique turbulente |
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450 | DO ilevel=1,nlevel |
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451 | q2(ilevel)=0.E+0 |
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452 | ENDDO |
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453 | |
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454 | c emissivity / surface co2 ice ( + h2o ice??) |
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455 | c ------------------------------------------- |
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456 | emis=emissiv ! default value for emissivity |
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457 | PRINT *,'Emissivity of bare ground ?' |
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458 | call getin("emis",emis) |
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459 | write(*,*) " emis = ",emis |
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460 | emissiv=emis ! we do this so that condense_co2 sets things to the right |
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461 | ! value if there is no snow |
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462 | |
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463 | if(i_co2_ice.gt.0)then |
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464 | qsurf(i_co2_ice)=0 ! default value for co2ice |
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465 | print*,'Initial CO2 ice on the surface (kg.m-2)' |
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466 | call getin("co2ice",qsurf(i_co2_ice)) |
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467 | write(*,*) " co2ice = ",qsurf(i_co2_ice) |
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468 | IF (qsurf(i_co2_ice).ge.1.E+0) THEN |
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469 | ! if we have some CO2 ice on the surface, change emissivity |
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470 | if (lati(1).ge.0) then ! northern hemisphere |
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471 | emis=emisice(1) |
---|
472 | else ! southern hemisphere |
---|
473 | emis=emisice(2) |
---|
474 | endif |
---|
475 | ENDIF |
---|
476 | endif |
---|
477 | |
---|
478 | c calcul des pressions et altitudes en utilisant les niveaux sigma |
---|
479 | c ---------------------------------------------------------------- |
---|
480 | |
---|
481 | c Vertical Coordinates |
---|
482 | c """""""""""""""""""" |
---|
483 | hybrid=.true. |
---|
484 | PRINT *,'Hybrid coordinates ?' |
---|
485 | call getin("hybrid",hybrid) |
---|
486 | write(*,*) " hybrid = ", hybrid |
---|
487 | |
---|
488 | |
---|
489 | autozlevs=.false. |
---|
490 | PRINT *,'Auto-discretise vertical levels ?' |
---|
491 | call getin("autozlevs",autozlevs) |
---|
492 | write(*,*) " autozlevs = ", autozlevs |
---|
493 | |
---|
494 | pceil=100.0 ! Pascals |
---|
495 | PRINT *,'Ceiling pressure (Pa) ?' |
---|
496 | call getin("pceil",pceil) |
---|
497 | write(*,*) " pceil = ", pceil |
---|
498 | |
---|
499 | ! Test of incompatibility: |
---|
500 | ! if autozlevs used, cannot have hybrid too |
---|
501 | |
---|
502 | if (autozlevs.and.hybrid) then |
---|
503 | print*,'Cannot use autozlevs and hybrid together!' |
---|
504 | call abort |
---|
505 | endif |
---|
506 | |
---|
507 | if(autozlevs)then |
---|
508 | |
---|
509 | open(91,file="z2sig.def",form='formatted') |
---|
510 | read(91,*) Hscale |
---|
511 | DO ilayer=1,nlayer-2 |
---|
512 | read(91,*) Hmax |
---|
513 | enddo |
---|
514 | close(91) |
---|
515 | |
---|
516 | |
---|
517 | print*,'Hmax = ',Hmax,' km' |
---|
518 | print*,'Auto-shifting Hscale to:' |
---|
519 | ! Hscale = Hmax / log(psurf/100.0) |
---|
520 | Hscale = Hmax / log(psurf/pceil) |
---|
521 | print*,'Hscale = ',Hscale,' km' |
---|
522 | |
---|
523 | ! none of this matters if we dont care about zlay |
---|
524 | |
---|
525 | endif |
---|
526 | |
---|
527 | call disvert |
---|
528 | |
---|
529 | if(.not.autozlevs)then |
---|
530 | ! we want only the scale height from z2sig, in order to compute zlay |
---|
531 | open(91,file="z2sig.def",form='formatted') |
---|
532 | read(91,*) Hscale |
---|
533 | close(91) |
---|
534 | endif |
---|
535 | |
---|
536 | ! if(autozlevs)then |
---|
537 | ! open(94,file="Hscale.temp",form='formatted') |
---|
538 | ! read(94,*) Hscale |
---|
539 | ! close(94) |
---|
540 | ! endif |
---|
541 | |
---|
542 | DO ilevel=1,nlevel |
---|
543 | plev(ilevel)=ap(ilevel)+psurf*bp(ilevel) |
---|
544 | ENDDO |
---|
545 | |
---|
546 | DO ilayer=1,nlayer |
---|
547 | play(ilayer)=aps(ilayer)+psurf*bps(ilayer) |
---|
548 | ENDDO |
---|
549 | |
---|
550 | |
---|
551 | |
---|
552 | DO ilayer=1,nlayer |
---|
553 | ! zlay(ilayer)=-300.E+0 *r*log(play(ilayer)/plev(1)) |
---|
554 | ! & /g |
---|
555 | zlay(ilayer)=-1000.0*Hscale*log(play(ilayer)/plev(1)) |
---|
556 | ENDDO |
---|
557 | |
---|
558 | ! endif |
---|
559 | |
---|
560 | c profil de temperature au premier appel |
---|
561 | c -------------------------------------- |
---|
562 | pks=psurf**rcp |
---|
563 | |
---|
564 | c altitude en km dans profile: on divise zlay par 1000 |
---|
565 | tmp1(0)=0.E+0 |
---|
566 | DO ilayer=1,nlayer |
---|
567 | tmp1(ilayer)=zlay(ilayer)/1000.E+0 |
---|
568 | ENDDO |
---|
569 | call profile(nlayer+1,tmp1,tmp2) |
---|
570 | |
---|
571 | tsurf=tmp2(0) |
---|
572 | DO ilayer=1,nlayer |
---|
573 | temp(ilayer)=tmp2(ilayer) |
---|
574 | ENDDO |
---|
575 | |
---|
576 | |
---|
577 | |
---|
578 | ! Initialize soil properties and temperature |
---|
579 | ! ------------------------------------------ |
---|
580 | volcapa=1.e6 ! volumetric heat capacity |
---|
581 | DO isoil=1,nsoil |
---|
582 | inertiedat(1,isoil)=inertiedat(1,1) ! soil thermal inertia |
---|
583 | tsoil(isoil)=tsurf ! soil temperature |
---|
584 | ENDDO |
---|
585 | |
---|
586 | ! Initialize depths |
---|
587 | ! ----------------- |
---|
588 | do isoil=0,nsoil-1 |
---|
589 | mlayer(isoil)=2.e-4*(2.**(isoil-0.5)) ! mid-layer depth |
---|
590 | enddo |
---|
591 | do isoil=1,nsoil |
---|
592 | layer(isoil)=2.e-4*(2.**(isoil-1)) ! layer depth |
---|
593 | enddo |
---|
594 | |
---|
595 | |
---|
596 | c Ecriture de "startfi" |
---|
597 | c -------------------- |
---|
598 | c (Ce fichier sera aussitot relu au premier |
---|
599 | c appel de "physiq", mais il est necessaire pour passer |
---|
600 | c les variables purement physiques a "physiq"... |
---|
601 | |
---|
602 | call physdem1("startfi.nc",long,lati,nsoilmx,nqmx, |
---|
603 | & dtphys,float(day0), |
---|
604 | & time,tsurf,tsoil,emis,q2,qsurf, |
---|
605 | & area,albedodat,inertiedat,zmea,zstd,zsig,zgam,zthe, |
---|
606 | & cloudfrac,totcloudfrac,hice) |
---|
607 | |
---|
608 | c======================================================================= |
---|
609 | c BOUCLE TEMPORELLE DU MODELE 1D |
---|
610 | c======================================================================= |
---|
611 | |
---|
612 | firstcall=.true. |
---|
613 | lastcall=.false. |
---|
614 | |
---|
615 | DO idt=1,ndt |
---|
616 | IF (idt.eq.ndt) then !test |
---|
617 | lastcall=.true. |
---|
618 | call stellarlong(day*1.0,zls) |
---|
619 | ! write(103,*) 'Ls=',zls*180./pi |
---|
620 | ! write(103,*) 'Lat=', lati(1)*180./pi |
---|
621 | ! write(103,*) 'Tau=', tauvis/700*psurf |
---|
622 | ! write(103,*) 'RunEnd - Atmos. Temp. File' |
---|
623 | ! write(103,*) 'RunEnd - Atmos. Temp. File' |
---|
624 | ! write(104,*) 'Ls=',zls*180./pi |
---|
625 | ! write(104,*) 'Lat=', lati(1) |
---|
626 | ! write(104,*) 'Tau=', tauvis/700*psurf |
---|
627 | ! write(104,*) 'RunEnd - Atmos. Temp. File' |
---|
628 | ENDIF |
---|
629 | |
---|
630 | c calcul du geopotentiel |
---|
631 | c ~~~~~~~~~~~~~~~~~~~~~ |
---|
632 | |
---|
633 | if(nonideal)then |
---|
634 | |
---|
635 | DO ilayer=1,nlayer |
---|
636 | call calc_cpp3d(cpp3D(1,ilayer), |
---|
637 | $ rcp3D(1,ilayer),temp(ilayer),play(ilayer)) |
---|
638 | ENDDO |
---|
639 | |
---|
640 | DO ilayer=1,nlayer |
---|
641 | |
---|
642 | ! if(autozlevs)then |
---|
643 | ! s(ilayer)=(play(ilayer)/psurf)**rcp3D(1,ilayer) |
---|
644 | ! else |
---|
645 | s(ilayer)= |
---|
646 | & (aps(ilayer)/psurf+bps(ilayer))**rcp3D(1,ilayer) |
---|
647 | ! endif |
---|
648 | |
---|
649 | h(ilayer)=cpp3D(1,ilayer)*temp(ilayer)/(pks*s(ilayer)) |
---|
650 | ENDDO |
---|
651 | |
---|
652 | else |
---|
653 | DO ilayer=1,nlayer |
---|
654 | |
---|
655 | ! if(autozlevs)then |
---|
656 | ! s(ilayer)=(play(ilayer)/psurf)**rcp |
---|
657 | ! else |
---|
658 | s(ilayer)=(aps(ilayer)/psurf+bps(ilayer))**rcp |
---|
659 | ! endif |
---|
660 | !s(ilayer)=(aps(ilayer)/psurf+bps(ilayer))**rcp |
---|
661 | h(ilayer)=cpp*temp(ilayer)/(pks*s(ilayer)) |
---|
662 | ENDDO |
---|
663 | endif |
---|
664 | ! DO ilayer=1,nlayer |
---|
665 | ! s(ilayer)=(aps(ilayer)/psurf+bps(ilayer))**rcp |
---|
666 | ! h(ilayer)=cpp*temp(ilayer)/(pks*s(ilayer)) |
---|
667 | ! ENDDO |
---|
668 | phi(1)=pks*h(1)*(1.E+0-s(1)) |
---|
669 | DO ilayer=2,nlayer |
---|
670 | phi(ilayer)=phi(ilayer-1)+ |
---|
671 | & pks*(h(ilayer-1)+h(ilayer))*.5E+0 |
---|
672 | & *(s(ilayer-1)-s(ilayer)) |
---|
673 | |
---|
674 | ENDDO |
---|
675 | |
---|
676 | c appel de la physique |
---|
677 | c -------------------- |
---|
678 | |
---|
679 | |
---|
680 | CALL physiq (1,llm,nqmx, |
---|
681 | , firstcall,lastcall, |
---|
682 | , day,time,dtphys, |
---|
683 | , plev,play,phi, |
---|
684 | , u, v,temp, q, |
---|
685 | , w, |
---|
686 | C - sorties |
---|
687 | s du, dv, dtemp, dq,dpsurf,tracerdyn) |
---|
688 | |
---|
689 | |
---|
690 | c evolution du vent : modele 1D |
---|
691 | c ----------------------------- |
---|
692 | |
---|
693 | c la physique calcule les derivees temporelles de u et v. |
---|
694 | c on y rajoute betement un effet Coriolis. |
---|
695 | c |
---|
696 | c DO ilayer=1,nlayer |
---|
697 | c du(ilayer)=du(ilayer)+ptif*(v(ilayer)-grv) |
---|
698 | c dv(ilayer)=dv(ilayer)+ptif*(-u(ilayer)+gru) |
---|
699 | c ENDDO |
---|
700 | |
---|
701 | c Pour certain test : pas de coriolis a l'equateur |
---|
702 | c if(lati(1).eq.0.) then |
---|
703 | DO ilayer=1,nlayer |
---|
704 | du(ilayer)=du(ilayer)+ (gru-u(ilayer))/1.e4 |
---|
705 | dv(ilayer)=dv(ilayer)+ (grv-v(ilayer))/1.e4 |
---|
706 | ENDDO |
---|
707 | c end if |
---|
708 | c |
---|
709 | c |
---|
710 | c Calcul du temps au pas de temps suivant |
---|
711 | c --------------------------------------- |
---|
712 | firstcall=.false. |
---|
713 | time=time+dtphys/daysec |
---|
714 | IF (time.gt.1.E+0) then |
---|
715 | time=time-1.E+0 |
---|
716 | day=day+1 |
---|
717 | ENDIF |
---|
718 | |
---|
719 | c calcul des vitesses et temperature au pas de temps suivant |
---|
720 | c ---------------------------------------------------------- |
---|
721 | |
---|
722 | DO ilayer=1,nlayer |
---|
723 | u(ilayer)=u(ilayer)+dtphys*du(ilayer) |
---|
724 | v(ilayer)=v(ilayer)+dtphys*dv(ilayer) |
---|
725 | temp(ilayer)=temp(ilayer)+dtphys*dtemp(ilayer) |
---|
726 | ENDDO |
---|
727 | |
---|
728 | c calcul des pressions au pas de temps suivant |
---|
729 | c ---------------------------------------------------------- |
---|
730 | |
---|
731 | psurf=psurf+dtphys*dpsurf ! evolution de la pression de surface |
---|
732 | DO ilevel=1,nlevel |
---|
733 | plev(ilevel)=ap(ilevel)+psurf*bp(ilevel) |
---|
734 | ENDDO |
---|
735 | DO ilayer=1,nlayer |
---|
736 | play(ilayer)=aps(ilayer)+psurf*bps(ilayer) |
---|
737 | ENDDO |
---|
738 | |
---|
739 | c calcul traceur au pas de temps suivant |
---|
740 | c -------------------------------------- |
---|
741 | |
---|
742 | DO iq = 1, nqmx |
---|
743 | DO ilayer=1,nlayer |
---|
744 | q(ilayer,iq)=q(ilayer,iq)+dtphys*dq(ilayer,iq) |
---|
745 | ENDDO |
---|
746 | END DO |
---|
747 | |
---|
748 | ENDDO ! fin de la boucle temporelle |
---|
749 | |
---|
750 | c ======================================================== |
---|
751 | c GESTION DES SORTIE |
---|
752 | c ======================================================== |
---|
753 | |
---|
754 | ! save temperature profile |
---|
755 | if(saveprofile)then |
---|
756 | OPEN(12,file='profile.out',form='formatted') |
---|
757 | DO ilayer=1,nlayermx |
---|
758 | write(12,*) temp(ilayer), play(ilayer) |
---|
759 | ENDDO |
---|
760 | CLOSE(12) |
---|
761 | endif |
---|
762 | |
---|
763 | |
---|
764 | c ======================================================== |
---|
765 | end !rcm1d |
---|
766 | |
---|
767 | c*********************************************************************** |
---|
768 | c*********************************************************************** |
---|
769 | c Subroutines Bidons utilise seulement en 3D, mais |
---|
770 | c necessaire a la compilation de rcm1d en 1D |
---|
771 | |
---|
772 | subroutine gr_fi_dyn |
---|
773 | RETURN |
---|
774 | END |
---|
775 | |
---|
776 | c*********************************************************************** |
---|
777 | c*********************************************************************** |
---|
778 | |
---|
779 | #include "../dyn3d/disvert.F" |
---|