1 | |
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2 | subroutine SISVAT_GSn |
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3 | |
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4 | C +------------------------------------------------------------------------+ |
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5 | C | MAR SISVAT_GSn 20-09-2003 MAR | |
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6 | C | SubRoutine SISVAT_GSn simulates SNOW Metamorphism | |
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7 | C +------------------------------------------------------------------------+ |
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8 | C | | |
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9 | C | PARAMETERS: knonv: Total Number of columns = | |
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10 | C | ^^^^^^^^^^ = Total Number of continental grid boxes | |
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11 | C | X Number of Mosaic Cell per grid box | |
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12 | C | | |
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13 | C | INPUT / isnoSV = total Nb of Ice/Snow Layers | |
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14 | C | OUTPUT: iiceSV = total Nb of Ice Layers | |
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15 | C | ^^^^^^ istoSV = 0,...,5 : Snow History (see istdSV data) | |
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16 | C | | |
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17 | C | INPUT: TsisSV : Soil/Ice Temperatures (layers -nsol,-nsol+1,..,0)| |
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18 | C | ^^^^^ & Snow Temperatures (layers 1,2,...,nsno) [K] | |
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19 | C | ro__SV : Soil/Snow Volumic Mass [kg/m3] | |
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20 | C | eta_SV : Soil/Snow Water Content [m3/m3] | |
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21 | C | slopSV : Surface Slope [-] | |
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22 | C | dzsnSV : Snow Layer Thickness [m] | |
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23 | C | dt__SV2 : Time Step [s] | |
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24 | C | | |
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25 | C | INPUT / G1snSV : Dendricity (<0) or Sphericity (>0) of Snow Layer | |
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26 | C | OUTPUT: G2snSV : Sphericity (>0) or Size of Snow Layer | |
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27 | C | ^^^^^^ | |
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28 | C | | |
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29 | C | Formalisme adopte pour la Representation des Grains: | |
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30 | C | Formalism for the Representation of Grains: | |
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31 | C | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ | |
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32 | C | | |
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33 | C | 1 - -1 Neige Fraiche | |
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34 | C | / \ | ------------- | |
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35 | C | / \ | Dendricite decrite par Dendricite | |
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36 | C | / \ | Dendricity et Sphericite | |
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37 | C | / \ | | |
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38 | C | 2---------3 - 0 described by Dendricity | |
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39 | C | and Sphericity | |
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40 | C | |---------| | |
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41 | C | 0 1 | |
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42 | C | Sphericite | |
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43 | C | Sphericity | |
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44 | C | | |
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45 | C | 4---------5 - | |
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46 | C | | | | | |
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47 | C | | | | Diametre (1/10eme de mm) (ou Taille) | |
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48 | C | | | | Diameter (1/10th of mm) (or Size ) | |
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49 | C | | | | | |
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50 | C | | | | Neige non dendritique | |
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51 | C | 6---------7 - --------------------- | |
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52 | C | decrite par Sphericite | |
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53 | C | et Taille | |
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54 | C | described by Sphericity | |
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55 | C | and Size | |
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56 | C | | |
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57 | C | Les Variables du Modele: | |
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58 | C | Model Variables: | |
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59 | C | ^^^^^^^^^^^^^^^^^^^^^^^^ | |
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60 | C | Cas Dendritique Cas non Dendritique | |
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61 | C | | |
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62 | C | G1snSV : Dendricite G1snSV : Sphericite | |
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63 | C | G2snSV : Sphericite G2snSV : Taille (1/10e mm) | |
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64 | C | Size | |
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65 | C | | |
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66 | C | Cas Dendritique/ Dendritic Case | |
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67 | C | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ | |
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68 | C | Dendricite(Dendricity) G1snSV | |
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69 | C | varie de -G1_dSV (-99 par defaut / etoile) a 0 | |
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70 | C | division par -G1_dSV pour obtenir des valeurs entre 1 et 0 | |
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71 | C | varies from -G1_dSV (default -99 / fresh snow) to 0 | |
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72 | C | division by -G1_dSV to obtain values between 1 and 0 | |
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73 | C | | |
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74 | C | Sphericite(Sphericity) G2snSV | |
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75 | C | varie de 0 (cas completement anguleux) | |
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76 | C | a G1_dSV (99 par defaut, cas spherique) | |
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77 | C | division par G1_dSV pour obtenir des valeurs entre 0 et 1 | |
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78 | C | varies from 0 (full faceted) to G1_dSV | |
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79 | C | | |
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80 | C | Cas non Dendritique / non Dendritic Case | |
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81 | C | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ | |
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82 | C | Sphericite(Sphericity) G1snSV | |
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83 | C | varie de 0 (cas completement anguleux) | |
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84 | C | a G1_dSV (99 par defaut, cas spherique) | |
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85 | C | division par G1_dSV pour obtenir des valeurs entre 0 et 1 | |
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86 | C | varies from 0 (full faceted) to G1_dSV | |
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87 | C | | |
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88 | C | Taille (Size) G2snSV | |
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89 | C | superieure a ADSdSV (.4 mm) et ne fait que croitre | |
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90 | C | greater than ADSdSV (.4 mm) always increases | |
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91 | C | | |
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92 | C | Exemples: Points caracteristiques des Figures ci-dessus | |
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93 | C | ^^^^^^^^^ | |
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94 | C | | |
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95 | C | G1snSV G2snSV dendricite sphericite taille | |
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96 | C | dendricity sphericity size | |
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97 | C | ------------------------------------------------------------------ | |
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98 | C | [1/10 mm] | |
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99 | C | 1 -G1_dSV sph3SN 1 0.5 | |
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100 | C | 2 0 0 0 0 | |
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101 | C | 3 0 G1_dSV 0 1 | |
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102 | C | 4 0 ADSdSV 0 4. | |
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103 | C | 5 G1_dSV ADSdSV-vsphe1 1 3. | |
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104 | C | 6 0 -- 0 -- | |
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105 | C | 7 G1_dSV -- 1 -- | |
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106 | C | | |
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107 | C | par defaut: G1_dSV=99. | |
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108 | C | sph3SN=50. | |
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109 | C | ADSdSV= 4. | |
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110 | C | vsphe1=1. | |
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111 | C | | |
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112 | C | Methode: | |
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113 | C | ^^^^^^^^ | |
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114 | C | 1. Evolution Types de Grains selon Lois de Brun et al. (1992): | |
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115 | C | Grain metamorphism according to Brun et al. (1992): | |
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116 | C | Plusieurs Cas sont a distiguer / the different Cases are: | |
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117 | C | 1.1 Metamorphose Neige humide / wet Snow | |
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118 | C | 1.2 Metamorphose Neige seche / dry Snow | |
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119 | C | 1.2.1 Gradient faible / low Temperature Gradient | |
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120 | C | 1.2.2 Gradient moyen / moderate Temperature Gradient | |
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121 | C | 1.2.3 Gradient fort / high Temperature Gradient | |
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122 | C | Dans chaque Cas on separe Neige Dendritique et non Dendritique | |
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123 | C | le Passage Dendritique -> non Dendritique | |
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124 | C | se fait lorsque G1snSV devient > 0 | |
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125 | C | the Case of Dentritic or non Dendritic Snow is treated separately | |
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126 | C | the Limit Dentritic -> non Dendritic is reached when G1snSV > 0 | |
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127 | C | | |
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128 | C | 2. Tassement: Loi de Viscosite adaptee selon le Type de Grains | |
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129 | C | Snow Settling: Viscosity depends on the Grain Type | |
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130 | C | | |
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131 | C | 3. Update Variables historiques (cas non dendritique seulement) | |
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132 | C | nhSNow defaut | |
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133 | C | 0 Cas normal | |
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134 | C | istdSV(1) 1 Grains anguleux / faceted cristal | |
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135 | C | istdSV(2) 2 Grains ayant ete en presence d eau liquide | |
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136 | C | mais n'ayant pas eu de caractere anguleux / | |
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137 | C | liquid water and no faceted cristals before | |
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138 | C | istdSV(3) 3 Grains ayant ete en presence d eau liquide | |
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139 | C | ayant eu auparavant un caractere anguleux / | |
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140 | C | liquid water and faceted cristals before | |
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141 | C | | |
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142 | C | REFER. : Brun et al. 1989, J. Glaciol 35 pp. 333--342 | |
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143 | C | ^^^^^^^^ Brun et al. 1992, J. Glaciol 38 pp. 13-- 22 | |
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144 | C | (CROCUS Model, adapted to MAR at CEN by H.Gallee) | |
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145 | C | | |
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146 | C | REFER. : Marbouty, D. 1980, J. Glaciol 26 pp. xxx--xxx | |
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147 | C | ^^^^^^^^ (CROCUS Model, adapted to MAR at CEN by H.Gallee) | |
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148 | C | (for angular shapes) | |
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149 | C | | |
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150 | C | Preprocessing Option: SISVAT IO (not always a standard preprocess.) | |
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151 | C | ^^^^^^^^^^^^^^^^^^^^^ ^^^^^^^^^ | |
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152 | C | FILE | CONTENT | |
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153 | C | ~~~~~~~~~~~~~~~~~~~~~+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ | |
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154 | C | # SISVAT_GSn.vp | #vp: OUTPUT/Verification: Snow Properties | |
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155 | C | | unit 47, SubRoutines SISVAT_zSn, _GSn | |
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156 | C | # stdout | #wp: OUTPUT/Verification: Snow Properties | |
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157 | C | | unit 6, SubRoutine SISVAT_GSn | |
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158 | C | | |
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159 | C +------------------------------------------------------------------------+ |
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160 | |
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161 | |
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162 | |
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163 | |
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164 | C +--Global Variables |
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165 | C + ================ |
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166 | |
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167 | use VARphy |
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168 | use VAR_SV |
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169 | use VARdSV |
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170 | use VAR0SV |
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171 | use VARxSV |
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172 | use VARtSV |
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173 | |
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174 | |
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175 | IMPLICIT NONE |
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176 | |
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177 | |
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178 | |
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179 | C +--INPUT/OUTPUT |
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180 | C + ------------ |
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181 | |
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182 | |
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183 | C +--OUTPUT |
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184 | C + ------ |
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185 | |
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186 | integer dt__SV2 |
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187 | |
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188 | |
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189 | C +--Local Variables |
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190 | C + ================ |
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191 | |
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192 | logical vector ! |
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193 | integer ikl ! |
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194 | integer isn ,isnp ! |
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195 | integer istoOK ! |
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196 | real G1_bak,G2_bak ! Old Values of G1, G2 |
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197 | real ro_dry(knonv, nsno) ! Dry Density [g/cm3] |
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198 | real etaSno(knonv, nsno) ! Liquid Water Content [g/cm2] |
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199 | real SnMass(knonv) ! Snow Mass [kg/m2] |
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200 | real dTsndz ! Temperature Gradient |
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201 | real sWater ! Water Content [%] |
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202 | real exp1Wa ! |
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203 | real dDENDR ! Dendricity Increment |
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204 | real DENDRn ! Normalized Dendricity |
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205 | real SPHERn ! Normalized Sphericity |
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206 | real Wet_OK ! Wet Metamorphism Switch |
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207 | real OK__DE ! |
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208 | real OK__wd ! New G*, from wet Dendritic |
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209 | real G1__wd ! New G1, from wet Dendritic |
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210 | real G2__wd ! New G2, from wet Dendritic |
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211 | real OKlowT ! |
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212 | real facVap ! |
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213 | real OK_ldd ! |
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214 | real G1_ldd ! |
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215 | real G2_ldd ! |
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216 | real DiamGx ! |
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217 | real DiamOK ! |
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218 | real No_Big ! |
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219 | real dSPHER ! |
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220 | real SPHER0 ! |
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221 | real SPHbig ! |
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222 | real G1_lds ! |
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223 | real OK_mdT ! |
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224 | real OKmidT ! |
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225 | real OKhigT ! |
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226 | real OK_mdd ! |
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227 | real G1_mdd ! |
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228 | real G2_mdd ! |
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229 | real G1_mds ! |
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230 | real OK_hdd ! |
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231 | real G1_hdd ! |
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232 | real G2_hdd ! |
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233 | real OK_hds ! |
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234 | real G1_hds ! |
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235 | real T1__OK,T2__OK ! |
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236 | real T3_xOK,T3__OK,T3_nOK ! |
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237 | real ro1_OK,ro2_OK ! |
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238 | real dT1_OK,dT2_OK,dT3xOK,dT3_OK ! |
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239 | real dT4xOK,dT4_OK,dT4nOK,AngSno ! |
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240 | real G2_hds,SphrOK,HISupd ! |
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241 | real H1a_OK,H1b_OK,H1__OK ! |
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242 | real H23aOK,H23bOK,H23_OK ! |
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243 | real H2__OK,H3__OK ! |
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244 | real H45_OK,H4__OK,H5__OK ! |
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245 | real ViscSn,OK_Liq,OK_Ang,OKxLiq ! |
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246 | real dSnMas,dzsnew,rosnew,rosmax,smb_old,smb_new |
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247 | real zn_old,zn_new |
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248 | |
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249 | real epsi5 ! Alpha ev67 single precision |
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250 | real vdiam1 ! Small Grains Min.Diam.[.0001m] |
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251 | real vdiam2 ! Spher.Variat.Max Diam. [mm] |
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252 | real vdiam3 ! Min.Diam.|Limit Spher. [mm] |
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253 | real vdiam4 ! Min.Diam.|Viscosity Change |
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254 | real vsphe1 ! Max Sphericity |
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255 | real vsphe2 ! Low T Metamorphism Coeff. |
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256 | real vsphe3 ! Max.Sphericity (history=1) |
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257 | real vsphe4 ! Min.Sphericity=>history=1 |
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258 | real vtang1,vtang2,vtang3,vtang4 ! Temperature Contribution |
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259 | real vtang5,vtang6,vtang7,vtang8 ! |
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260 | real vtang9,vtanga,vtangb,vtangc ! |
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261 | real vrang1,vrang2 ! Density Contribution |
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262 | real vgang1,vgang2,vgang3,vgang4 ! Grad(T) Contribution |
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263 | real vgang5,vgang6,vgang7,vgang8 ! |
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264 | real vgang9,vganga,vgangb,vgangc ! |
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265 | real vgran6 ! Max.Sphericity for Settling |
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266 | real vtelv1 ! Threshold | history = 2, 3 |
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267 | real vvap1 ! Vapor Pressure Coefficient |
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268 | real vvap2 ! Vapor Pressure Exponent |
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269 | real vgrat1 ! Boundary weak/mid grad(T) |
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270 | real vgrat2 ! Boundary mid/strong grad(T) |
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271 | real vfi ! PHI, strong grad(T) |
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272 | real vvisc1,vvisc2,vvisc3,vvisc4 ! Viscosity Coefficients |
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273 | real vvisc5,vvisc6,vvisc7 ! id., wet Snow |
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274 | real rovisc ! Wet Snow Density Influence |
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275 | real vdz3 ! Maximum Layer Densification |
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276 | real OK__ws ! New G2 |
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277 | real G1__ws ! New G1, from wet Spheric |
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278 | real G2__ws ! New G2, from wet Spheric |
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279 | real husi_0,husi_1,husi_2,husi_3 ! Constants for New G2 |
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280 | real vtail1,vtail2 ! Constants for New G2 |
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281 | real frac_j ! Time Step [Day] |
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282 | |
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283 | real vdent1 ! Wet Snow Metamorphism |
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284 | integer nvdent1 ! (Coefficients for |
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285 | integer nvdent2 ! Dendricity) |
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286 | |
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287 | C +--Snow Properties: IO |
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288 | C + ~~~~~~~~~~~~~~~~~~~ |
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289 | ! #vp real G_curr(18),Gcases(18) |
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290 | ! #vp common /GSnLOC/ Gcases |
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291 | ! #wp real D__MAX |
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292 | ! #wp common /GSnMAX/ D__MAX |
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293 | |
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294 | |
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295 | C +--DATA |
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296 | C + ==== |
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297 | |
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298 | data vector/.true./ ! Vectorization Switch |
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299 | data vdent1/ 0.5e8/ ! Wet Snow Metamorphism |
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300 | cXF tuned for Greenland (2.e8=old value) |
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301 | data nvdent1/ 3 / ! (Coefficients for |
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302 | data nvdent2/16 / ! Dendricity) |
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303 | |
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304 | data husi_0 /20. / ! 10 * 2 |
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305 | data husi_1 / 0.23873 / ! (3/4) /pi |
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306 | data husi_2 / 4.18880 / ! (4/3) *pi |
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307 | data husi_3 / 0.33333 / ! 1/3 |
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308 | data vtail1 / 1.28e-08/ ! Wet Metamorphism |
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309 | data vtail2 / 4.22e-10/ ! (NON Dendritic / Spheric) |
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310 | |
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311 | data epsi5 / 1.0e-5 / ! |
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312 | |
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313 | data vdiam1 / 4.0 / ! Small Grains Min.Diameter |
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314 | |
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315 | data vdiam2 / 0.5 / ! Spher.Variat.Max Diam.[mm] |
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316 | data vdiam3 / 3.0 / ! Min.Diam.|Limit Spher.[mm] |
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317 | data vdiam4 / 2.0 / ! Min.Diam.|Viscosity Change |
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318 | |
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319 | data vsphe1 / 1.0 / ! Max Sphericity |
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320 | data vsphe2 / 1.0e9 / ! Low T Metamorphism Coeff. |
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321 | data vsphe3 / 0.5 / ! Max.Sphericity (history=1) |
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322 | data vsphe4 / 0.1 / ! Min.Sphericity=>history=1 |
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323 | |
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324 | data vgran6 / 51. / ! Max.Sphericity for Settling |
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325 | data vtelv1 / 5.e-1 / ! Threshold | history = 2, 3 |
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326 | |
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327 | data vvap1 /-6.e3 / ! Vapor Pressure Coefficient |
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328 | data vvap2 / 0.4 / ! Vapor Pressure Exponent |
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329 | |
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330 | data vgrat1 /0.05 / ! Boundary weak/mid grad(T) |
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331 | data vgrat2 /0.15 / ! Boundary mid/strong grad(T) |
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332 | data vfi /0.09 / ! PHI, strong grad(T) |
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333 | |
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334 | data vvisc1 / 0.70 / ! Viscosity Coefficients |
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335 | data vvisc2 / 1.11e5 / ! |
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336 | data vvisc3 /23.00 / ! |
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337 | data vvisc4 / 0.10 / ! |
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338 | data vvisc5 / 1.00 / ! id., wet Snow |
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339 | data vvisc6 / 2.00 / ! |
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340 | data vvisc7 /10.00 / ! |
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341 | data rovisc / 0.25 / ! Wet Snow Density Influence |
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342 | data vdz3 / 0.30 / ! Maximum Layer Densification |
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343 | |
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344 | |
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345 | C +--DATA (Coefficient Fonction fort Gradient Marbouty) |
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346 | C + -------------------------------------------------- |
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347 | |
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348 | data vtang1 /40.0/ ! Temperature Contribution |
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349 | data vtang2 / 6.0/ ! |
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350 | data vtang3 /22.0/ ! |
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351 | data vtang4 / 0.7/ ! |
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352 | data vtang5 / 0.3/ ! |
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353 | data vtang6 / 6.0/ ! |
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354 | data vtang7 / 1.0/ ! |
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355 | data vtang8 / 0.8/ ! |
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356 | data vtang9 /16.0/ ! |
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357 | data vtanga / 0.2/ ! |
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358 | data vtangb / 0.2/ ! |
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359 | data vtangc /18.0/ ! |
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360 | |
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361 | data vrang1 / 0.40/ ! Density Contribution |
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362 | data vrang2 / 0.15/ ! |
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363 | |
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364 | data vgang1 / 0.70/ ! Grad(T) Contribution |
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365 | data vgang2 / 0.25/ ! |
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366 | data vgang3 / 0.40/ ! |
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367 | data vgang4 / 0.50/ ! |
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368 | data vgang5 / 0.10/ ! |
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369 | data vgang6 / 0.15/ ! |
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370 | data vgang7 / 0.10/ ! |
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371 | data vgang8 / 0.55/ ! |
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372 | data vgang9 / 0.65/ ! |
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373 | data vganga / 0.20/ ! |
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374 | data vgangb / 0.85/ ! |
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375 | data vgangc / 0.15/ ! |
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376 | |
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377 | ! #wp data D__MAX / 4.00/ ! |
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378 | |
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379 | |
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380 | C +-- 1. Metamorphoses dans les Strates |
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381 | C + Metamorphism |
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382 | C + ============================== |
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383 | |
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384 | dt__SV2= dt__SV |
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385 | frac_j = dt__SV2 / 86400. ! Time Step [Day] |
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386 | |
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387 | zn4_SV = 0 |
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388 | |
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389 | |
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390 | C +-- 1.1 Initialisation: teneur en eau liquide et gradient de temperature |
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391 | C + ------------------ liquid water content and temperature gradient |
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392 | |
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393 | DO ikl=1,knonv |
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394 | DO isn=1,isnoSV(ikl) |
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395 | |
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396 | ro_dry(ikl,isn) = 1.e-3 *ro__SV(ikl,isn) ! Dry Density |
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397 | . *(1. -eta_SV(ikl,isn)) ! [g/cm3] |
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398 | etaSno(ikl,isn) = 1.e-1 *dzsnSV(ikl,isn) ! Liquid Water |
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399 | . * ro__SV(ikl,isn) ! Content [g/cm2] |
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400 | . * eta_SV(ikl,isn) ! |
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401 | END DO |
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402 | END DO |
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403 | |
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404 | c!$OMP PARALLEL DO default(firstprivate) |
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405 | c!$OMP.shared (/xSISVAT_I/,/xSISVAT_R/,/SoR0SV/,/SoI0SV/,/Sn_dSV/) |
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406 | DO ikl=1,knonv |
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407 | DO isn=1,isnoSV(ikl) |
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408 | isnp = min(isn+1,isnoSV(ikl)) |
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409 | |
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410 | dTsndz = abs( (TsisSV(ikl,isnp)-TsisSV(ikl,isn-1)) *2.e-2 |
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411 | . /max(((dzsnSV(ikl,isnp)+dzsnSV(ikl,isn) ) |
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412 | . *( isnp - isn) |
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413 | . +(dzsnSV(ikl,isn )+dzsnSV(ikl,isn-1))),epsi)) |
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414 | C +... Factor 1.d-2 for Conversion K/m --> K/cm |
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415 | |
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416 | |
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417 | C +-- 1.2 Metamorphose humide |
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418 | C + Wet Snow Metamorphism |
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419 | C + --------------------- |
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420 | |
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421 | Wet_OK = max(zero,sign(unun,eta_SV(ikl,isn)-epsi)) |
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422 | |
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423 | |
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424 | C +-- Vitesse de diminution de la dendricite |
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425 | C + Rate of the dendricity decrease |
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426 | C + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
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427 | sWater=1.d-1*ro__SV(ikl,isn)*eta_SV(ikl,isn) |
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428 | . /max(epsi,ro_dry(ikl,isn)) |
---|
429 | C +... sWater:Water Content [%] |
---|
430 | C + 1.d-1= 1.d2(1->%) * 1.d-3(ro__SV*eta_SV:kg/m3->g/cm3) |
---|
431 | |
---|
432 | exp1Wa= sWater**nvdent1 |
---|
433 | dDENDR=max(exp1Wa/nvdent2,vdent1*exp(vvap1/TfSnow)) |
---|
434 | |
---|
435 | C +-- 1.2.1 Cas dendritique/dendritic Case |
---|
436 | C + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
---|
437 | OK__wd=max(zero, ! |
---|
438 | . sign(unun,-G1snSV(ikl,isn) ! |
---|
439 | . -epsi )) ! |
---|
440 | |
---|
441 | DENDRn=-G1snSV(ikl,isn)/G1_dSV ! Normalized Dendricity (+) |
---|
442 | SPHERn= G2snSV(ikl,isn)/G1_dSV ! Normalized Sphericity |
---|
443 | DENDRn= DENDRn -dDENDR *frac_j ! New Dendricity (+) |
---|
444 | SPHERn= SPHERn +dDENDR *frac_j ! New Sphericity |
---|
445 | |
---|
446 | OK__DE=max(zero, ! IF 1., |
---|
447 | . sign(unun, DENDRn ! NO change |
---|
448 | . -epsi )) ! Dendr. -> Spheric |
---|
449 | |
---|
450 | G1__wd=OK__DE * ( -DENDRn*G1_dSV) ! Dendritic |
---|
451 | . +(1.-OK__DE)* min(G1_dSV,SPHERn*G1_dSV) ! Dendr. -> Spheric |
---|
452 | G2__wd=OK__DE * min(G1_dSV,SPHERn*G1_dSV) ! Spheric |
---|
453 | . +(1.-OK__DE)*(ADSdSV-min(SPHERn,vsphe1)) ! Spher. -> Size |
---|
454 | |
---|
455 | C +-- 1.2.2 Cas non dendritique non completement spherique |
---|
456 | C + Evolution de la Sphericite seulement. |
---|
457 | C + Non dendritic and not completely spheric Case |
---|
458 | C + Evolution of Sphericity only (not size) |
---|
459 | C + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
---|
460 | OK__ws=max(zero, ! |
---|
461 | . sign(unun, G1_dSV ! |
---|
462 | . -epsi5 ! |
---|
463 | . -G1snSV(ikl,isn))) ! |
---|
464 | |
---|
465 | SPHERn= G1snSV(ikl,isn)/G1_dSV |
---|
466 | SPHERn= SPHERn +dDENDR *frac_j |
---|
467 | G1__ws= min(G1_dSV,SPHERn*G1_dSV) |
---|
468 | |
---|
469 | C +-- 1.2.3 Cas non dendritique et spherique / non dendritic and spheric |
---|
470 | C + Evolution de la Taille seulement / Evolution of Size only |
---|
471 | C + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
---|
472 | G2__ws = husi_0 |
---|
473 | . *( husi_1 |
---|
474 | . *(husi_2 *( G2snSV(ikl,isn)/husi_0)**3 |
---|
475 | . +(vtail1 +vtail2 *exp1Wa )*dt__SV2)) |
---|
476 | . ** husi_3 |
---|
477 | |
---|
478 | |
---|
479 | C +-- 1.3 Metamorposes seches / Dry Metamorphism |
---|
480 | C + -------------------------------------- |
---|
481 | |
---|
482 | |
---|
483 | C +-- 1.3.1 Calcul Metamorphose faible/low Gradient (0.00-0.05 deg/cm) |
---|
484 | C + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
---|
485 | OKlowT=max(zero, ! |
---|
486 | . sign(unun, vgrat1 ! |
---|
487 | . -dTsndz )) ! |
---|
488 | |
---|
489 | facVap=exp(vvap1/TsisSV(ikl,isn)) |
---|
490 | |
---|
491 | C +-- 1.3.1.1 Cas dendritique / dendritic Case |
---|
492 | |
---|
493 | OK_ldd=max(zero, ! |
---|
494 | . sign(unun,-G1snSV(ikl,isn) ! |
---|
495 | . -epsi )) ! |
---|
496 | |
---|
497 | DENDRn=-G1snSV(ikl,isn) /G1_dSV |
---|
498 | SPHERn= G2snSV(ikl,isn) /G1_dSV |
---|
499 | DENDRn= DENDRn-vdent1*facVap*frac_j |
---|
500 | SPHERn= SPHERn+vsphe2*facVap*frac_j |
---|
501 | |
---|
502 | OK__DE=max(zero, ! IF 1., |
---|
503 | . sign(unun, DENDRn ! NO change |
---|
504 | . -epsi )) ! Dendr. -> Spheric |
---|
505 | |
---|
506 | G1_ldd= OK__DE * ( -DENDRn*G1_dSV) ! Dendritic |
---|
507 | . +(1.-OK__DE)* min(G1_dSV,SPHERn*G1_dSV) ! Dendr. -> Spheric |
---|
508 | G2_ldd= OK__DE * min(G1_dSV,SPHERn*G1_dSV) ! Spheric |
---|
509 | . +(1.-OK__DE)*(ADSdSV-min(SPHERn,vsphe1)) ! Spher. -> Size |
---|
510 | |
---|
511 | C +-- 1.3.1.2 Cas non dendritique / non dendritic Case |
---|
512 | |
---|
513 | SPHERn=G1snSV(ikl,isn)/G1_dSV |
---|
514 | DiamGx=G2snSV(ikl,isn)*0.1 |
---|
515 | |
---|
516 | istoOK=min( abs(istoSV(ikl,isn)- |
---|
517 | . istdSV(1) ),1) ! zero if istoSV = 1 |
---|
518 | DiamOK=max(zero, sign(unun,vdiam2-DiamGx)) |
---|
519 | No_Big= istoOK+DiamOK |
---|
520 | No_Big=min(No_Big,unun) |
---|
521 | |
---|
522 | dSPHER= vsphe2*facVap*frac_j ! |
---|
523 | SPHER0= SPHERn+dSPHER ! small grains |
---|
524 | SPHbig= SPHERn+dSPHER ! big grains |
---|
525 | . *exp(min(zero,vdiam3-G2snSV(ikl,isn))) ! (history = 2 or 3) |
---|
526 | SPHbig= min(vsphe3,SPHbig) ! limited sphericity |
---|
527 | SPHERn= No_Big * SPHER0 |
---|
528 | . + (1.-No_Big)* SPHbig |
---|
529 | |
---|
530 | G1_lds= min(G1_dSV,SPHERn*G1_dSV) |
---|
531 | |
---|
532 | C +-- 1.3.2 Calcul Metamorphose Gradient Moyen/Moderate (0.05-0.15) |
---|
533 | C + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
---|
534 | OK_mdT=max(zero, ! |
---|
535 | . sign(unun, vgrat2 ! |
---|
536 | . -dTsndz)) ! |
---|
537 | OKmidT= OK_mdT *(1.-OKlowT) ! |
---|
538 | OKhigT= (1. -OK_mdT) *(1.-OKlowT) ! |
---|
539 | |
---|
540 | facVap=vdent1*exp(vvap1/TsisSV(ikl,isn)) |
---|
541 | . * (1.e2 *dTsndz)**vvap2 |
---|
542 | |
---|
543 | C +-- 1.3.2.1 cas dendritique / dendritic case. |
---|
544 | |
---|
545 | OK_mdd=max(zero, ! |
---|
546 | . sign(unun,-G1snSV(ikl,isn) ! |
---|
547 | . -epsi )) ! |
---|
548 | |
---|
549 | DENDRn=-G1snSV(ikl,isn)/G1_dSV |
---|
550 | SPHERn= G2snSV(ikl,isn)/G1_dSV |
---|
551 | DENDRn= DENDRn - facVap*frac_j |
---|
552 | SPHERn= SPHERn - facVap*frac_j |
---|
553 | |
---|
554 | OK__DE=max(zero, ! IF 1., |
---|
555 | . sign(unun, DENDRn ! NO change |
---|
556 | . -epsi )) ! Dendr. -> Spheric |
---|
557 | |
---|
558 | G1_mdd= OK__DE * ( -DENDRn*G1_dSV) ! Dendritic |
---|
559 | . +(1.-OK__DE)* max(zero ,SPHERn*G1_dSV) ! Dendr. -> Spheric |
---|
560 | G2_mdd= OK__DE * max(zero ,SPHERn*G1_dSV) ! Spheric |
---|
561 | . +(1.-OK__DE)*(ADSdSV-max(SPHERn,zero )) ! Spher. -> Size |
---|
562 | |
---|
563 | C +-- 1.3.2.2 Cas non dendritique / non dendritic Case |
---|
564 | |
---|
565 | SPHERn=G1snSV(ikl,isn)/G1_dSV |
---|
566 | SPHERn= SPHERn-facVap*frac_j |
---|
567 | G1_mds=max(zero,SPHERn*G1_dSV) |
---|
568 | |
---|
569 | C +-- 1.3.3 Calcul Metamorphose fort / high Gradient |
---|
570 | C + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
---|
571 | facVap=vdent1*exp(vvap1/TsisSV(ikl,isn)) |
---|
572 | . * (1.e2 *dTsndz)**vvap2 |
---|
573 | |
---|
574 | C +-- 1.3.3.1 Cas dendritique / dendritic Case |
---|
575 | |
---|
576 | OK_hdd=max(zero, ! |
---|
577 | . sign(unun,-G1snSV(ikl,isn) ! |
---|
578 | . -epsi )) ! |
---|
579 | |
---|
580 | DENDRn=-G1snSV(ikl,isn)/G1_dSV ! |
---|
581 | SPHERn= G2snSV(ikl,isn)/G1_dSV ! |
---|
582 | DENDRn= DENDRn - facVap*frac_j ! |
---|
583 | SPHERn= SPHERn - facVap*frac_j ! Non dendritic |
---|
584 | C + ! and angular |
---|
585 | OK__DE=max(zero, ! IF 1., |
---|
586 | . sign(unun, DENDRn ! NO change |
---|
587 | . -epsi )) ! Dendr. -> Spheric |
---|
588 | |
---|
589 | G1_hdd= OK__DE * ( -DENDRn*G1_dSV) ! Dendritic |
---|
590 | . +(1.-OK__DE)* max(zero ,SPHERn*G1_dSV) ! Dendr. -> Spheric |
---|
591 | G2_hdd= OK__DE * max(zero ,SPHERn*G1_dSV) ! Spheric |
---|
592 | . +(1.-OK__DE)*(ADSdSV-max(SPHERn,zero )) ! Spher. -> Size |
---|
593 | |
---|
594 | C +-- 1.3.3.2 Cas non dendritique non completement anguleux. |
---|
595 | C + non dendritic and spericity gt. 0 |
---|
596 | |
---|
597 | OK_hds=max(zero, ! |
---|
598 | . sign(unun, G1snSV(ikl,isn) ! |
---|
599 | . -epsi )) ! |
---|
600 | |
---|
601 | SPHERn= G1snSV(ikl,isn)/G1_dSV |
---|
602 | SPHERn= SPHERn - facVap*frac_j |
---|
603 | G1_hds= max(zero,SPHERn*G1_dSV) |
---|
604 | |
---|
605 | C +-- 1.3.3.3 Cas non dendritique et anguleux |
---|
606 | C + dendritic and spericity = 0. |
---|
607 | |
---|
608 | T1__OK = max(zero,sign(unun,TsisSV(ikl,isn)-TfSnow+vtang1)) |
---|
609 | T2__OK = max(zero,sign(unun,TsisSV(ikl,isn)-TfSnow+vtang2)) |
---|
610 | T3_xOK = max(zero,sign(unun,TsisSV(ikl,isn)-TfSnow+vtang3)) |
---|
611 | T3__OK = T3_xOK * (1. - T2__OK) |
---|
612 | T3_nOK = (1. - T3_xOK) * (1. - T2__OK) |
---|
613 | ro1_OK = max(zero,sign(unun,vrang1-ro_dry(ikl,isn))) |
---|
614 | ro2_OK = max(zero,sign(unun,ro_dry(ikl,isn)-vrang2)) |
---|
615 | dT1_OK = max(zero,sign(unun,vgang1-dTsndz )) |
---|
616 | dT2_OK = max(zero,sign(unun,vgang2-dTsndz )) |
---|
617 | dT3xOK = max(zero,sign(unun,vgang3-dTsndz )) |
---|
618 | dT3_OK = dT3xOK * (1. - dT2_OK) |
---|
619 | dT4xOK = max(zero,sign(unun,vgang4-dTsndz )) |
---|
620 | dT4_OK = dT4xOK * (1. - dT3_OK) |
---|
621 | . * (1. - dT2_OK) |
---|
622 | dT4nOK = (1. - dT4xOK) * (1. - dT3_OK) |
---|
623 | . * (1. - dT2_OK) |
---|
624 | |
---|
625 | C +-- Influence de la Temperature /Temperature Influence |
---|
626 | C + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
---|
627 | AngSno = |
---|
628 | . T1__OK ! 11 |
---|
629 | . *(T2__OK*(vtang4+vtang5*(TfSnow -TsisSV(ikl,isn)) ! 12 |
---|
630 | . /vtang6) ! |
---|
631 | . +T3__OK*(vtang7-vtang8*(TfSnow-vtang2-TsisSV(ikl,isn)) ! 13 |
---|
632 | . /vtang9) ! |
---|
633 | . +T3_nOK*(vtanga-vtangb*(TfSnow-vtang3-TsisSV(ikl,isn)) ! 14 |
---|
634 | . /vtangc)) ! |
---|
635 | |
---|
636 | C +-- Influence de la Masse Volumique /Density Influence |
---|
637 | C + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
---|
638 | . * ro1_OK |
---|
639 | . *( ro2_OK*(1. - (ro_dry(ikl,isn)-vrang2) ! |
---|
640 | . /(vrang1-vrang2)) ! |
---|
641 | . +1.-ro2_OK ) ! |
---|
642 | |
---|
643 | C +-- Influence du Gradient de Temperature /Temperature Gradient Influence |
---|
644 | C + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
---|
645 | . *( dT1_OK*(dT2_OK*vgang5*(dTsndz-vgang6) ! 15 |
---|
646 | . /(vgang2-vgang6) ! |
---|
647 | . +dT3_OK*vgang7 ! 16 |
---|
648 | . +dT4_OK*vgang9 ! 17 |
---|
649 | . +dT4nOK*vgangb ) ! 18 |
---|
650 | . +1.-dT1_OK ) ! |
---|
651 | . + ro1_OK |
---|
652 | . * dT1_OK*(dT3_OK*vgang8*(dTsndz-vgang2) |
---|
653 | . /(vgang3-vgang2) |
---|
654 | . +dT4_OK*vganga*(dTsndz-vgang3) |
---|
655 | . /(vgang4-vgang3) |
---|
656 | . +dT4nOK*vgangc*(dTsndz-vgang4) |
---|
657 | . /(vgang1-vgang4)) |
---|
658 | |
---|
659 | G2_hds = G2snSV(ikl,isn) + 1.d2 *AngSno*vfi *frac_j |
---|
660 | |
---|
661 | |
---|
662 | C +--New Properties |
---|
663 | C + -------------- |
---|
664 | |
---|
665 | G1_bak = G1snSV(ikl,isn) |
---|
666 | G2_bak = G2snSV(ikl,isn) |
---|
667 | |
---|
668 | G1snSV(ikl,isn) = Wet_OK * ( OK__wd *G1__wd ! 1 |
---|
669 | . +(1.-OK__wd)* OK__ws *G1__ws ! 2 |
---|
670 | . +(1.-OK__wd)*(1.-OK__ws)*G1_bak) ! 3 |
---|
671 | . +(1. - Wet_OK) ! |
---|
672 | . *( OKlowT *( OK_ldd *G1_ldd ! 4 |
---|
673 | . +(1.-OK_ldd) *G1_lds) ! 5 |
---|
674 | . + OKmidT *( OK_mdd *G1_mdd ! 6 |
---|
675 | . +(1.-OK_mdd) *G1_mds) ! 7 |
---|
676 | . + OKhigT *( OK_hdd *G1_hdd ! 8 |
---|
677 | . +(1.-OK_hdd)* OK_hds *G1_hds ! 9 |
---|
678 | . +(1.-OK_hdd)*(1.-OK_hds)*G1_bak)) ! 10 |
---|
679 | |
---|
680 | cXF |
---|
681 | if(G1snSV(ikl,isn)<0.1) |
---|
682 | . G2_hds = G2snSV(ikl,isn) + 1.d1 *AngSno*vfi *frac_j |
---|
683 | cXF |
---|
684 | |
---|
685 | |
---|
686 | G2snSV(ikl,isn) = Wet_OK * ( OK__wd *G2__wd ! 1 |
---|
687 | . +(1.-OK__wd)* OK__ws *G2_bak ! 2 |
---|
688 | . +(1.-OK__wd)*(1.-OK__ws)*G2__ws) ! 3 |
---|
689 | . +(1. - Wet_OK) ! |
---|
690 | . *( OKlowT *( OK_ldd *G2_ldd ! 4 |
---|
691 | . +(1.-OK_ldd) *G2_bak) ! 5 |
---|
692 | . + OKmidT *( OK_mdd *G2_mdd ! 6 |
---|
693 | . +(1.-OK_mdd) *G2_bak) ! 7 |
---|
694 | . + OKhigT *( OK_hdd *G2_hdd ! 8 |
---|
695 | . +(1.-OK_hdd)* OK_hds *G2_bak ! 9 |
---|
696 | . +(1.-OK_hdd)*(1.-OK_hds)*G2_hds)) ! 10 |
---|
697 | |
---|
698 | C +--Snow Properties: IO Set Up |
---|
699 | C + ~~~~~~~~~~~~~~~~~~~~~~~~~~ |
---|
700 | ! #vp G_curr( 1) = Wet_OK * OK__wd |
---|
701 | ! #vp G_curr( 2) = Wet_OK *(1.-OK__wd)* OK__ws |
---|
702 | ! #vp G_curr( 3) = Wet_OK *(1.-OK__wd)*(1.-OK__ws) |
---|
703 | ! #vp G_curr( 4) = (1.-Wet_OK)* OKlowT * OK_ldd |
---|
704 | ! #vp G_curr( 5) = (1.-Wet_OK)* OKlowT *(1.-OK_ldd) |
---|
705 | ! #vp G_curr( 6) = (1.-Wet_OK)* OKmidT * OK_mdd |
---|
706 | ! #vp G_curr( 7) = (1.-Wet_OK)* OKmidT *(1.-OK_mdd) |
---|
707 | ! #vp G_curr( 8) = (1.-Wet_OK)* OKhigT * OK_hdd |
---|
708 | ! #vp G_curr( 9) = (1.-Wet_OK)* OKhigT *(1.-OK_hdd)* OK_hds |
---|
709 | ! #vp G_curr(10) = (1.-Wet_OK)* OKhigT *(1.-OK_hdd)*(1.-OK_hds) |
---|
710 | ! #vp G_curr(11) = T1__OK * G_curr(10) |
---|
711 | ! #vp G_curr(12) = T2__OK * G_curr(10) |
---|
712 | ! #vp G_curr(13) = T3__OK * G_curr(10) |
---|
713 | ! #vp G_curr(14) = T3_nOK * G_curr(10) |
---|
714 | ! #vp G_curr(15) = ro1_OK* dT1_OK * dT2_OK * G_curr(10) |
---|
715 | ! #vp G_curr(16) = ro1_OK* dT1_OK * dT3_OK * G_curr(10) |
---|
716 | ! #vp G_curr(17) = ro1_OK* dT1_OK * dT4_OK * G_curr(10) |
---|
717 | ! #vp G_curr(18) = ro1_OK* dT1_OK * dT4nOK * G_curr(10) |
---|
718 | |
---|
719 | ! #vp Gcases( 1) = max(Gcases( 1),G_curr( 1)) |
---|
720 | ! #vp Gcases( 2) = max(Gcases( 2),G_curr( 2)) |
---|
721 | ! #vp Gcases( 3) = max(Gcases( 3),G_curr( 3)) |
---|
722 | ! #vp Gcases( 4) = max(Gcases( 4),G_curr( 4)) |
---|
723 | ! #vp Gcases( 5) = max(Gcases( 5),G_curr( 5)) |
---|
724 | ! #vp Gcases( 6) = max(Gcases( 6),G_curr( 6)) |
---|
725 | ! #vp Gcases( 7) = max(Gcases( 7),G_curr( 7)) |
---|
726 | ! #vp Gcases( 8) = max(Gcases( 8),G_curr( 8)) |
---|
727 | ! #vp Gcases( 9) = max(Gcases( 9),G_curr( 9)) |
---|
728 | ! #vp Gcases(10) = max(Gcases(10),G_curr(10)) |
---|
729 | ! #vp Gcases(11) = max(Gcases(11),G_curr(11)) |
---|
730 | ! #vp Gcases(12) = max(Gcases(12),G_curr(12)) |
---|
731 | ! #vp Gcases(13) = max(Gcases(13),G_curr(13)) |
---|
732 | ! #vp Gcases(14) = max(Gcases(14),G_curr(14)) |
---|
733 | ! #vp Gcases(15) = max(Gcases(15),G_curr(15)) |
---|
734 | ! #vp Gcases(16) = max(Gcases(16),G_curr(16)) |
---|
735 | ! #vp Gcases(17) = max(Gcases(17),G_curr(17)) |
---|
736 | ! #vp Gcases(18) = max(Gcases(18),G_curr(18)) |
---|
737 | |
---|
738 | C +--Snow Properties: IO |
---|
739 | C + ~~~~~~~~~~~~~~~~~~~ |
---|
740 | ! #vp IF (isn .le. isnoSV(ikl)) |
---|
741 | ! #vp. write(47,471)isn ,isnoSV(ikl) , |
---|
742 | ! #vp. TsisSV(ikl,isn),ro__SV(ikl,isn),eta_SV(ikl,isn), |
---|
743 | ! #vp. G1_bak ,G2_bak ,istoSV(ikl,isn), |
---|
744 | ! #vp. dTsndz, |
---|
745 | ! #vp. ( k ,k=1,18), |
---|
746 | ! #vp. (G_curr(k),k=1,18), |
---|
747 | ! #vp. (Gcases(k),k=1,18), |
---|
748 | ! #vp. Wet_OK,OK__wd,G1__wd,G2__wd, |
---|
749 | ! #vp. 1.-OK__wd,OK__ws,G1__ws,1.-OK__ws,G2__ws, |
---|
750 | ! #vp. 1.-Wet_OK,OKlowT,OK_ldd,G1_ldd, G2_ldd, |
---|
751 | ! #vp. 1.-OK_ldd,G1_lds, |
---|
752 | ! #vp. OKmidT,OK_mdd,G1_mdd, G1_mdd, |
---|
753 | ! #vp. 1.-OK_mdd,G1_mds, |
---|
754 | ! #vp. OKhigT,OK_hdd,G1_hdd, G2_hdd, |
---|
755 | ! #vp. 1.-OK_hdd,OK_hds, G1_hds, |
---|
756 | ! #vp. 1.-OK_hds,G2_hds, |
---|
757 | ! #vp. G1snSV(ikl,isn), |
---|
758 | ! #vp. G2snSV(ikl,isn) |
---|
759 | |
---|
760 | END DO |
---|
761 | END DO |
---|
762 | c!$OMP END PARALLEL DO |
---|
763 | |
---|
764 | C +-- 2. Mise a Jour Variables Historiques (Cas non dendritique) |
---|
765 | C + Update of the historical Variables |
---|
766 | C + ======================================================= |
---|
767 | |
---|
768 | IF (vector) THEN |
---|
769 | cXF |
---|
770 | DO ikl=1,knonv |
---|
771 | DO isn=1,isnoSV(ikl) |
---|
772 | SphrOK = max(zero,sign(unun, G1snSV(ikl,isn))) |
---|
773 | H1a_OK = max(zero,sign(unun,vsphe4-G1snSV(ikl,isn))) |
---|
774 | H1b_OK = 1 - min(1 , istoSV(ikl,isn)) |
---|
775 | H1__OK = H1a_OK*H1b_OK |
---|
776 | H23aOK = max(zero,sign(unun,vsphe4-G1_dSV |
---|
777 | . +G1snSV(ikl,isn))) |
---|
778 | H23bOK = max(zero,sign(unun,etaSno(ikl,isn) |
---|
779 | . /max(epsi,dzsnSV(ikl,isn)) |
---|
780 | . -vtelv1 )) |
---|
781 | H23_OK = H23aOK*H23bOK |
---|
782 | H2__OK = 1 - min(1 , istoSV(ikl,isn)) |
---|
783 | H3__OK = 1 - min(1 , abs(istoSV(ikl,isn)-istdSV(1))) |
---|
784 | H45_OK = max(zero,sign(unun,TfSnow-TsisSV(ikl,isn)+epsi)) |
---|
785 | H4__OK = 1 - min(1 , abs(istoSV(ikl,isn)-istdSV(2))) |
---|
786 | H5__OK = 1 - min(1 , abs(istoSV(ikl,isn)-istdSV(3))) |
---|
787 | |
---|
788 | HISupd = |
---|
789 | . SphrOK*(H1__OK *istdSV(1) |
---|
790 | . +(1.-H1__OK)* H23_OK *(H2__OK*istdSV(2) |
---|
791 | . +H3__OK*istdSV(3)) |
---|
792 | . +(1.-H1__OK)*(1.-H23_OK) *H45_OK*(H4__OK*istdSV(4) |
---|
793 | . +H5__OK*istdSV(5))) |
---|
794 | istoSV(ikl,isn) = HISupd + |
---|
795 | . (1.-min(unun,HISupd)) *istoSV(ikl,isn) |
---|
796 | END DO |
---|
797 | END DO |
---|
798 | ELSE |
---|
799 | |
---|
800 | |
---|
801 | C +-- 2. Mise a Jour Variables Historiques (Cas non dendritique) |
---|
802 | C + Update of the historical Variables |
---|
803 | C + ======================================================= |
---|
804 | |
---|
805 | DO ikl=1,knonv |
---|
806 | DO isn=iiceSV(ikl),isnoSV(ikl) |
---|
807 | IF (G1snSV(ikl,isn)>=0.) THEN |
---|
808 | IF(G1snSV(ikl,isn)<vsphe4.and.istoSV(ikl,isn)==0) THEN |
---|
809 | istoSV(ikl,isn)=istdSV(1) |
---|
810 | ELSEIF(G1_dSV-G1snSV(ikl,isn) <vsphe4.and. |
---|
811 | . etaSno(ikl,isn)/dzsnSV(ikl,isn)>vtelv1) THEN |
---|
812 | IF (istoSV(ikl,isn)==0) |
---|
813 | . istoSV(ikl,isn)= istdSV(2) |
---|
814 | IF (istoSV(ikl,isn)==istdSV(1)) |
---|
815 | . istoSV(ikl,isn)= istdSV(3) |
---|
816 | ELSEIF(TsisSV(ikl,isn)<TfSnow) THEN |
---|
817 | IF (istoSV(ikl,isn)==istdSV(2)) |
---|
818 | . istoSV(ikl,isn)= istdSV(4) |
---|
819 | IF (istoSV(ikl,isn)==istdSV(3)) |
---|
820 | . istoSV(ikl,isn)= istdSV(5) |
---|
821 | END IF |
---|
822 | END IF |
---|
823 | END DO |
---|
824 | END DO |
---|
825 | END IF |
---|
826 | |
---|
827 | |
---|
828 | C +-- 3. Tassement mecanique /mechanical Settlement |
---|
829 | C + ========================================== |
---|
830 | |
---|
831 | DO ikl=1,knonv |
---|
832 | SnMass(ikl) = 0. |
---|
833 | END DO |
---|
834 | cXF |
---|
835 | DO ikl=1,knonv |
---|
836 | |
---|
837 | smb_old = 0. |
---|
838 | zn_old = 0 |
---|
839 | DO isn = 1, isnoSV(ikl) |
---|
840 | smb_old = smb_old + dzsnSV(ikl,isn) *ro__SV(ikl,isn) |
---|
841 | zn_old = zn_old + dzsnSV(ikl,isn) |
---|
842 | ENDDO |
---|
843 | |
---|
844 | DO isn=isnoSV(ikl),1,-1 |
---|
845 | dSnMas = 100.*dzsnSV(ikl,isn)*ro_dry(ikl,isn) |
---|
846 | SnMass(ikl)= SnMass(ikl)+0.5*dSnMas |
---|
847 | ViscSn = vvisc1 *vvisc2 |
---|
848 | . *exp(vvisc3 *ro_dry(ikl,isn) |
---|
849 | . +vvisc4*abs(TfSnow-TsisSV(ikl,isn))) |
---|
850 | . *ro_dry(ikl,isn)/rovisc |
---|
851 | |
---|
852 | C +-- Changement de Viscosite si Teneur en Eau liquide |
---|
853 | C + Change of the Viscosity if liquid Water Content |
---|
854 | C + ------------------------------------------------ |
---|
855 | |
---|
856 | OK_Liq = max(zero,sign(unun,etaSno(ikl,isn)-epsi)) |
---|
857 | OK_Ang = max(zero,sign(unun,vgran6-G1snSV(ikl,isn))) |
---|
858 | . *(1-min(1 , abs(istoSV(ikl,isn)-istdSV(1)))) |
---|
859 | ! #wp IF (G1snSV(ikl,isn).gt.0..AND.G1snSV(ikl,isn).lt.vsphe4 |
---|
860 | ! #wp. .AND.istoSV(ikl,isn).eq. 0) |
---|
861 | ! #wp. THEN |
---|
862 | ! #wp write(6,*) ikl,isn,' G1,G2,hist,OK_Ang ', |
---|
863 | ! #wp. G1snSV(ikl,isn), G2snSV(ikl,isn),istoSV(ikl,isn),OK_Ang |
---|
864 | ! #wp stop "Grains anguleux mal d?finis" |
---|
865 | ! #wp END IF |
---|
866 | OKxLiq = max(zero,sign(unun,vtelv1-etaSno(ikl,isn) |
---|
867 | . /max(epsi,dzsnSV(ikl,isn)))) |
---|
868 | . * max(0 ,sign(1 ,istoSV(ikl,isn) |
---|
869 | . -istdSV(1) )) |
---|
870 | ViscSn = |
---|
871 | . ViscSn*( OK_Liq/(vvisc5+vvisc6*etaSno(ikl,isn) |
---|
872 | . /max(epsi,dzsnSV(ikl,isn))) |
---|
873 | . +(1.-OK_Liq) ) |
---|
874 | . *( OK_Ang*exp(min(ADSdSV,G2snSV(ikl,isn)-vdiam4)) |
---|
875 | . +(1.-OK_Ang) ) |
---|
876 | . *( OKxLiq* vvisc7 |
---|
877 | . +(1.-OKxLiq) ) |
---|
878 | |
---|
879 | |
---|
880 | C +-- Calcul nouvelle Epaisseur / new Thickness |
---|
881 | C + ----------------------------------------- |
---|
882 | |
---|
883 | dzsnew = |
---|
884 | . dzsnSV(ikl,isn) |
---|
885 | . *max(vdz3, |
---|
886 | . (unun-dt__SV2*max(SnMass(ikl)*cos(slopSV(ikl)),unun) |
---|
887 | . /max(ViscSn ,epsi))) |
---|
888 | rosnew = ro__SV(ikl,isn) *dzsnSV(ikl,isn) |
---|
889 | . /max(1e-10,dzsnew) |
---|
890 | rosmax = 1. /( (1. -eta_SV(ikl,isn)) /ro_Ice |
---|
891 | . + eta_SV(ikl,isn) /ro_Wat) |
---|
892 | rosnew = min(rosnew ,rosmax) |
---|
893 | dzsnew = dzsnSV(ikl,isn) *ro__SV(ikl,isn) |
---|
894 | . /max(1e-10,rosnew) |
---|
895 | ro__SV(ikl,isn)= rosnew |
---|
896 | dzsnSV(ikl,isn)= dzsnew |
---|
897 | ro_dry(ikl,isn)= ro__SV(ikl,isn)*(1.-eta_SV(ikl,isn))*1.e-3 |
---|
898 | C +... ro_dry: Dry Density (g/cm3) |
---|
899 | C + |
---|
900 | SnMass(ikl) = SnMass(ikl)+dSnMas*0.5 |
---|
901 | END DO |
---|
902 | |
---|
903 | smb_new = 0. |
---|
904 | DO isn = 1, isnoSV(ikl) |
---|
905 | smb_new = smb_new + dzsnSV(ikl,isn) *ro__SV(ikl,isn) |
---|
906 | ENDDO |
---|
907 | |
---|
908 | isn=1 |
---|
909 | if (dzsnSV(ikl,isn)>0.and.ro__SV(ikl,isn)>0) then |
---|
910 | dzsnSV(ikl,isn) = dzsnSV(ikl,isn) +0.9999*(smb_old-smb_new) |
---|
911 | . / ro__SV(ikl,isn) |
---|
912 | endif |
---|
913 | |
---|
914 | zn_new = 0 |
---|
915 | DO isn = 1, isnoSV(ikl) |
---|
916 | zn_new = zn_new + dzsnSV(ikl,isn) |
---|
917 | ENDDO |
---|
918 | zn4_SV(ikl) = zn4_SV(ikl) + (zn_new - zn_old) |
---|
919 | |
---|
920 | END DO |
---|
921 | |
---|
922 | |
---|
923 | |
---|
924 | return |
---|
925 | end |
---|