1 | ! radiation_cloudless_lw.F90 - Longwave homogeneous cloudless solver |
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2 | ! |
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3 | ! (C) Copyright 2019- ECMWF. |
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4 | ! |
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5 | ! This software is licensed under the terms of the Apache Licence Version 2.0 |
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6 | ! which can be obtained at http://www.apache.org/licenses/LICENSE-2.0. |
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7 | ! |
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8 | ! In applying this licence, ECMWF does not waive the privileges and immunities |
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9 | ! granted to it by virtue of its status as an intergovernmental organisation |
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10 | ! nor does it submit to any jurisdiction. |
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11 | ! |
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12 | ! Author: Robin Hogan |
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13 | ! Email: r.j.hogan@ecmwf.int |
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14 | ! |
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15 | |
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16 | module radiation_cloudless_lw |
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17 | |
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18 | public :: solver_cloudless_lw |
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19 | |
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20 | contains |
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21 | |
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22 | !--------------------------------------------------------------------- |
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23 | ! Longwave homogeneous solver containing no clouds |
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24 | subroutine solver_cloudless_lw(nlev,istartcol,iendcol, & |
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25 | & config, od, ssa, g, planck_hl, emission, albedo, flux) |
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26 | |
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27 | use parkind1, only : jprb |
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28 | use yomhook, only : lhook, dr_hook, jphook |
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29 | |
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30 | use radiation_config, only : config_type |
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31 | use radiation_flux, only : flux_type, indexed_sum_profile |
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32 | use radiation_two_stream, only : calc_two_stream_gammas_lw, & |
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33 | & calc_reflectance_transmittance_lw, & |
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34 | & calc_no_scattering_transmittance_lw |
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35 | use radiation_adding_ica_lw, only : adding_ica_lw, calc_fluxes_no_scattering_lw |
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36 | use radiation_lw_derivatives, only : calc_lw_derivatives_ica |
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37 | |
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38 | implicit none |
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39 | |
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40 | ! Inputs |
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41 | integer, intent(in) :: nlev ! number of model levels |
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42 | integer, intent(in) :: istartcol, iendcol ! range of columns to process |
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43 | type(config_type), intent(in) :: config |
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44 | |
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45 | ! Gas and aerosol optical depth, single-scattering albedo and |
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46 | ! asymmetry factor at each longwave g-point |
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47 | real(jprb), intent(in), dimension(config%n_g_lw, nlev, istartcol:iendcol) :: & |
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48 | & od |
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49 | real(jprb), intent(in), dimension(config%n_g_lw_if_scattering, nlev, istartcol:iendcol) :: & |
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50 | & ssa, g |
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51 | |
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52 | ! Planck function at each half-level and the surface |
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53 | real(jprb), intent(in), dimension(config%n_g_lw,nlev+1,istartcol:iendcol) :: & |
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54 | & planck_hl |
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55 | |
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56 | ! Emission (Planck*emissivity) and albedo (1-emissivity) at the |
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57 | ! surface at each longwave g-point |
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58 | real(jprb), intent(in), dimension(config%n_g_lw, istartcol:iendcol) & |
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59 | & :: emission, albedo |
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60 | |
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61 | ! Output |
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62 | type(flux_type), intent(inout):: flux |
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63 | |
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64 | ! Local variables |
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65 | |
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66 | ! Diffuse reflectance and transmittance for each layer in clear |
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67 | ! and all skies |
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68 | real(jprb), dimension(config%n_g_lw, nlev) :: reflectance, transmittance |
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69 | |
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70 | ! Emission by a layer into the upwelling or downwelling diffuse |
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71 | ! streams, in clear and all skies |
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72 | real(jprb), dimension(config%n_g_lw, nlev) :: source_up, source_dn |
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73 | |
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74 | ! Fluxes per g point |
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75 | real(jprb), dimension(config%n_g_lw, nlev+1) :: flux_up, flux_dn |
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76 | |
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77 | ! Combined optical depth, single scattering albedo and asymmetry |
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78 | ! factor |
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79 | real(jprb), dimension(config%n_g_lw) :: ssa_total, g_total |
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80 | |
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81 | ! Two-stream coefficients |
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82 | real(jprb), dimension(config%n_g_lw) :: gamma1, gamma2 |
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83 | |
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84 | ! Number of g points |
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85 | integer :: ng |
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86 | |
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87 | ! Loop indices for level and column |
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88 | integer :: jlev, jcol |
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89 | |
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90 | real(jphook) :: hook_handle |
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91 | |
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92 | if (lhook) call dr_hook('radiation_cloudless_lw:solver_cloudless_lw',0,hook_handle) |
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93 | |
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94 | ng = config%n_g_lw |
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95 | |
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96 | ! Loop through columns |
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97 | do jcol = istartcol,iendcol |
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98 | |
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99 | ! Compute the reflectance and transmittance of all layers, |
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100 | ! neglecting clouds |
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101 | do jlev = 1,nlev |
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102 | if (config%do_lw_aerosol_scattering) then |
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103 | ! Scattering case: first compute clear-sky reflectance, |
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104 | ! transmittance etc at each model level |
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105 | ssa_total = ssa(:,jlev,jcol) |
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106 | g_total = g(:,jlev,jcol) |
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107 | call calc_two_stream_gammas_lw(ng, ssa_total, g_total, & |
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108 | & gamma1, gamma2) |
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109 | call calc_reflectance_transmittance_lw(ng, & |
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110 | & od(:,jlev,jcol), gamma1, gamma2, & |
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111 | & planck_hl(:,jlev,jcol), planck_hl(:,jlev+1,jcol), & |
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112 | & reflectance(:,jlev), transmittance(:,jlev), & |
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113 | & source_up(:,jlev), source_dn(:,jlev)) |
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114 | else |
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115 | ! Non-scattering case: use simpler functions for |
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116 | ! transmission and emission |
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117 | call calc_no_scattering_transmittance_lw(ng, od(:,jlev,jcol), & |
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118 | & planck_hl(:,jlev,jcol), planck_hl(:,jlev+1, jcol), & |
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119 | & transmittance(:,jlev), source_up(:,jlev), source_dn(:,jlev)) |
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120 | ! Ensure that clear-sky reflectance is zero |
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121 | reflectance(:,jlev) = 0.0_jprb |
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122 | end if |
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123 | end do |
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124 | |
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125 | if (config%do_lw_aerosol_scattering) then |
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126 | ! Then use adding method to compute fluxes |
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127 | call adding_ica_lw(ng, nlev, & |
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128 | & reflectance, transmittance, source_up, source_dn, & |
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129 | & emission(:,jcol), albedo(:,jcol), & |
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130 | & flux_up, flux_dn) |
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131 | else |
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132 | ! Simpler down-then-up method to compute fluxes |
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133 | call calc_fluxes_no_scattering_lw(ng, nlev, & |
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134 | & transmittance, source_up, source_dn, & |
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135 | & emission(:,jcol), albedo(:,jcol), & |
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136 | & flux_up, flux_dn) |
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137 | |
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138 | end if |
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139 | |
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140 | ! Sum over g-points to compute broadband fluxes |
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141 | flux%lw_up(jcol,:) = sum(flux_up,1) |
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142 | flux%lw_dn(jcol,:) = sum(flux_dn,1) |
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143 | ! Store surface spectral downwelling fluxes |
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144 | flux%lw_dn_surf_g(:,jcol) = flux_dn(:,nlev+1) |
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145 | |
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146 | ! Save the spectral fluxes if required |
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147 | if (config%do_save_spectral_flux) then |
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148 | call indexed_sum_profile(flux_up, config%i_spec_from_reordered_g_lw, & |
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149 | & flux%lw_up_band(:,jcol,:)) |
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150 | call indexed_sum_profile(flux_dn, config%i_spec_from_reordered_g_lw, & |
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151 | & flux%lw_dn_band(:,jcol,:)) |
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152 | end if |
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153 | |
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154 | if (config%do_clear) then |
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155 | ! Clear-sky calculations are equal to all-sky for this solver: |
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156 | ! copy fluxes over |
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157 | flux%lw_up_clear(jcol,:) = flux%lw_up(jcol,:) |
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158 | flux%lw_dn_clear(jcol,:) = flux%lw_dn(jcol,:) |
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159 | flux%lw_dn_surf_clear_g(:,jcol) = flux%lw_dn_surf_g(:,jcol) |
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160 | if (config%do_save_spectral_flux) then |
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161 | flux%lw_up_clear_band(:,jcol,:) = flux%lw_up_band(:,jcol,:) |
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162 | flux%lw_dn_clear_band(:,jcol,:) = flux%lw_dn_band(:,jcol,:) |
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163 | end if |
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164 | end if |
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165 | |
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166 | ! Compute the longwave derivatives needed by Hogan and Bozzo |
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167 | ! (2015) approximate radiation update scheme |
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168 | if (config%do_lw_derivatives) then |
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169 | call calc_lw_derivatives_ica(ng, nlev, jcol, transmittance, flux_up(:,nlev+1), & |
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170 | & flux%lw_derivatives) |
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171 | end if |
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172 | |
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173 | end do |
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174 | |
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175 | if (lhook) call dr_hook('radiation_cloudless_lw:solver_cloudless_lw',1,hook_handle) |
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176 | |
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177 | end subroutine solver_cloudless_lw |
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178 | |
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179 | end module radiation_cloudless_lw |
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