1 | module deposition_mod |
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2 | |
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3 | implicit none |
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4 | |
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5 | contains |
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6 | |
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7 | subroutine deposition(ngrid, nlayer, nq, |
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8 | & ig, ig_vl1, pplay, pplev, zzlay, zzlev, |
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9 | $ zu, zv, zt, zycol, ptimestep, co2ice) |
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10 | cccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc |
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11 | c |
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12 | c dry deposition of chemical species |
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13 | c |
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14 | cccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc |
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15 | c |
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16 | use surfdat_h, only: z0 ! surface roughness |
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17 | use conc_mod, only: rnew ! specific gas constant |
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18 | implicit none |
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19 | c |
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20 | c |
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21 | c input |
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22 | c |
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23 | integer,intent(in) :: ngrid ! number of atmospheric columns |
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24 | integer,intent(in) :: nlayer ! number of atmospheric layers |
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25 | integer,intent(in) :: nq ! number of tracers |
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26 | integer ig ! grid point index |
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27 | integer ig_vl1 ! viking 1 grid point |
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28 | real pplay(ngrid,nlayer) ! pressure at the middle of the layers (pa) |
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29 | real pplev(ngrid,nlayer+1) ! pressure at layer boundaries (pa) |
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30 | real zzlay(ngrid,nlayer) ! altitude at the middle of the layers (m) |
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31 | real zzlev(ngrid,nlayer+1) ! altitude at layer boundaries (m) |
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32 | real zu(ngrid,nlayer) ! u component of the wind (m.s-1) |
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33 | real zv(ngrid,nlayer) ! v component of the wind (m.s-1) |
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34 | real zt(ngrid,nlayer) ! temperature (k) |
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35 | real zycol(nlayer,nq) ! composition (volume mixing ratio) |
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36 | real ptimestep ! physical timestep (s) |
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37 | real co2ice(ngrid) ! co2 ice surface layer (kg.m-2) |
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38 | c |
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39 | c local |
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40 | c |
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41 | real ubar ! wind module (m.s-1) |
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42 | real ustar ! friction velocity (m.s-1) |
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43 | real karman ! von karman constant |
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44 | real ra ! aerodynamic resistance (s.m-1) |
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45 | real rb ! quasi-laminar layer resistance (s.m-1) |
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46 | real vd ! dry deposition velocity (cm.s-1) |
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47 | real deltaz ! thickness of first layer (m) |
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48 | real mu0 ! dynamic viscosity of co2 at 293.15 k (pa.s) |
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49 | real mu ! dynamic viscosity of co2 (pa.s) |
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50 | real nu ! kinematic viscosity of co2 (cm2.s-1) |
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51 | real rho ! density |
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52 | real d ! molecular diffusivity of methane (cm2.s-1) |
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53 | real schmidt ! schmidt number |
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54 | real prandtl ! prandtl number |
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55 | real p0 ! reference pressure (pa) |
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56 | real loss ! loss rate (s-1) |
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57 | integer iq |
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58 | c |
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59 | real nuch4 |
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60 | real tau |
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61 | real gravity |
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62 | real gam |
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63 | real dp |
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64 | real cd |
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65 | c |
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66 | data karman / 0.4 / |
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67 | data prandtl / 0.72 / |
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68 | data mu0 / 14.8e-6 / |
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69 | data p0 /1.e5/ |
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70 | c |
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71 | c deposition is only active on surface uncovered by ice |
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72 | c |
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73 | c if ((.not. watercaptag(ig)) .and. (co2ice(ig) .eq. 0.)) then |
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74 | c |
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75 | c wind module (m.s-1) |
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76 | c |
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77 | ubar = (zu(ig,1)**2. + zv(ig,1)**2.)**0.5 |
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78 | c |
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79 | c friction velocity (m.s-1) |
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80 | c |
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81 | ustar = ubar*karman/log(zzlay(ig,1)/z0(ig)) |
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82 | c |
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83 | c aerodynamic resistance (s.m-1) |
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84 | c |
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85 | ra = 1./(karman*ustar)*log(zzlay(ig,1)/z0(ig)) |
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86 | c |
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87 | c molecular diffusivity of methane in *air* (cm2.s-1) |
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88 | c massman, atmospheric environment, 32, 1111-1127, 1998 |
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89 | c |
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90 | d = 0.1952*(p0/pplay(ig,1))*(zt(ig,1)/273.15)**1.81 |
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91 | c |
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92 | c dynamic viscosity: temperature dependance (pa.s) |
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93 | c sutherland's formula |
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94 | c |
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95 | mu = mu0*(293.15 + 240.)/(zt(ig,1) + 240.) |
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96 | $ *(zt(ig,1)/293.15)**(3./2.) |
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97 | c |
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98 | c density (kg.m-3) |
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99 | c |
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100 | rho = pplay(ig,1)/(rnew(ig,1)*zt(ig,1)) |
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101 | c |
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102 | c kinematic viscosity (cm2.s-1) |
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103 | c |
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104 | nu = mu/rho*1.e4 |
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105 | c |
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106 | c schmidt number |
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107 | c |
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108 | schmidt = nu/d |
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109 | c |
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110 | c quasi-laminar layer resistance (s.m-1) |
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111 | c |
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112 | rb = (2./(karman*ustar))*(schmidt/prandtl)**2./3. |
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113 | c |
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114 | c dry deposition velocity (m.s-1) |
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115 | c |
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116 | vd = 1./(ra + rb) |
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117 | c |
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118 | c thickness of first layer (m) |
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119 | c |
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120 | deltaz = zzlev(ig,2) - zzlev(ig,1) |
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121 | c |
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122 | c loss rate (s-1) |
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123 | c |
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124 | loss = vd/deltaz |
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125 | c |
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126 | c test |
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127 | c |
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128 | c loss = 1./(3600.*6.) |
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129 | c vd = loss*deltaz |
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130 | c |
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131 | nuch4 = sqrt(8.*8.31*zt(ig,1) |
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132 | $ /(3.1416*16.e-3)) |
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133 | tau = 6.*3600. |
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134 | gravity = 3.7 |
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135 | dp = pplev(ig,1) - pplev(ig,2) |
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136 | cd = (karman/log(zzlay(ig,1)/z0(ig)))**2. |
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137 | c |
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138 | gam = (4./nuch4)*dp |
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139 | $ /(tau*gravity*rho - 1./(cd*ubar)) |
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140 | c |
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141 | c methane index |
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142 | c |
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143 | iq = 12 |
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144 | c |
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145 | c update methane in first layer |
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146 | c |
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147 | c zycol(1,iq) = zycol(1,iq)*exp(-loss*ptimestep) |
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148 | c |
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149 | if (ig .eq. ig_vl1) then |
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150 | print*,'**** deposition ****' |
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151 | print*,'z0 = ', z0(ig), 'm' |
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152 | print*,'deltaz = ', deltaz, ' m' |
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153 | print*,'deltap = ', dp, 'pa' |
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154 | print*,'zzlay = ', zzlay(ig, 1), ' m' |
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155 | print*,'pplay = ', pplay(ig, 1), ' pa' |
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156 | print*,'t = ', zt(ig,1), ' k' |
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157 | print*,'u = ', zu(ig,1), ' m.s-1' |
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158 | print*,'v = ', zv(ig,1), ' m.s-1' |
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159 | print*,'rho = ', rho, ' kg.m-3' |
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160 | print*,'ubar = ', ubar, ' m.s-1' |
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161 | print*,'d = ', d, ' cm2.s-1' |
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162 | print*,'mu = ', mu, ' pa.s' |
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163 | print*,'nu = ', nu, ' cm2.s-1' |
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164 | print*,'schmi = ', schmidt |
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165 | print*,'Ra = ', ra, ' s.m-1' |
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166 | print*,'Rb = ', rb, ' s.m-1' |
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167 | print*,'vd = ', vd*100., 'cm.s-1' |
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168 | print*,'tau dep= ', 1./loss, 's' |
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169 | print*,'R = ', rnew(ig,1) |
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170 | print*,'nuch4 = ', nuch4, 'm.s-1' |
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171 | print*,'tau = ', tau, ' s' |
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172 | print*,'gamma = ', gam |
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173 | print*,'taugrho= ',tau*gravity*rho |
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174 | print*,'1surcdu= ', 1./(cd*ubar) |
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175 | |
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176 | print*,'********************' |
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177 | end if |
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178 | c |
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179 | c end if |
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180 | c |
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181 | end subroutine deposition |
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182 | |
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183 | end module deposition_mod |
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