1 | ! radiation_thermodynamics.F90 - Derived type for pressure & temperature |
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2 | ! |
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3 | ! (C) Copyright 2014- 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 | ! Modifications |
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16 | ! 2017-05-11 R. Hogan Fix startcol/endcol for get_layer_mass |
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17 | ! 2019-01-14 R. Hogan Added out_of_physical_bounds routine |
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18 | ! 2019-01-14 R. Hogan Capped h2o_sat_liq at 1 |
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19 | |
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20 | module radiation_thermodynamics |
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21 | |
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22 | use parkind1, only : jprb |
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23 | |
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24 | implicit none |
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25 | public |
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26 | |
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27 | !--------------------------------------------------------------------- |
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28 | ! Derived type for storing pressure and temperature at half levels |
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29 | type thermodynamics_type |
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30 | real(jprb), allocatable, dimension(:,:) :: & |
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31 | & pressure_hl, & ! (ncol,nlev+1) pressure (Pa) |
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32 | & temperature_hl ! (ncol,nlev+1) temperature (K) |
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33 | |
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34 | ! The following is a function of pressure and temperature: you |
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35 | ! can calculate it according to your favourite formula, or the |
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36 | ! calc_saturation_wrt_liquid subroutine can be used to do this |
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37 | ! approximately |
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38 | real(jprb), allocatable, dimension(:,:) :: & |
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39 | & h2o_sat_liq ! (ncol,nlev) specific humidity at liquid |
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40 | ! saturation (kg/kg) |
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41 | contains |
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42 | procedure :: allocate => allocate_thermodynamics_arrays |
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43 | procedure :: deallocate => deallocate_thermodynamics_arrays |
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44 | procedure :: calc_saturation_wrt_liquid |
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45 | procedure :: get_layer_mass |
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46 | procedure :: get_layer_mass_column |
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47 | procedure :: out_of_physical_bounds |
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48 | |
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49 | end type thermodynamics_type |
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50 | |
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51 | contains |
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52 | |
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53 | |
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54 | !--------------------------------------------------------------------- |
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55 | ! Allocate variables with specified dimensions |
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56 | subroutine allocate_thermodynamics_arrays(this, ncol, nlev, & |
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57 | & use_h2o_sat) |
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58 | |
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59 | use yomhook, only : lhook, dr_hook, jphook |
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60 | |
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61 | class(thermodynamics_type), intent(inout) :: this |
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62 | integer, intent(in) :: ncol ! Number of columns |
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63 | integer, intent(in) :: nlev ! Number of levels |
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64 | logical, intent(in), optional :: use_h2o_sat ! Allocate h2o_sat_liq? |
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65 | |
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66 | logical :: use_h2o_sat_local |
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67 | |
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68 | real(jphook) :: hook_handle |
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69 | |
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70 | if (lhook) call dr_hook('radiation_thermodynamics:allocate',0,hook_handle) |
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71 | |
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72 | allocate(this%pressure_hl(ncol,nlev+1)) |
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73 | allocate(this%temperature_hl(ncol,nlev+1)) |
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74 | |
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75 | use_h2o_sat_local = .false. |
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76 | if (present(use_h2o_sat)) then |
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77 | use_h2o_sat_local = use_h2o_sat |
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78 | end if |
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79 | |
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80 | if (use_h2o_sat_local) then |
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81 | allocate(this%h2o_sat_liq(ncol,nlev)) |
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82 | end if |
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83 | |
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84 | if (lhook) call dr_hook('radiation_thermodynamics:allocate',1,hook_handle) |
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85 | |
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86 | end subroutine allocate_thermodynamics_arrays |
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87 | |
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88 | |
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89 | !--------------------------------------------------------------------- |
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90 | ! Deallocate variables |
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91 | subroutine deallocate_thermodynamics_arrays(this) |
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92 | |
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93 | use yomhook, only : lhook, dr_hook, jphook |
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94 | |
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95 | class(thermodynamics_type), intent(inout) :: this |
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96 | |
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97 | real(jphook) :: hook_handle |
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98 | |
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99 | if (lhook) call dr_hook('radiation_thermodynamics:deallocate',0,hook_handle) |
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100 | |
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101 | if (allocated(this%pressure_hl)) then |
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102 | deallocate(this%pressure_hl) |
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103 | end if |
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104 | if (allocated(this%temperature_hl)) then |
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105 | deallocate(this%temperature_hl) |
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106 | end if |
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107 | if (allocated(this%h2o_sat_liq)) then |
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108 | deallocate(this%h2o_sat_liq) |
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109 | end if |
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110 | |
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111 | if (lhook) call dr_hook('radiation_thermodynamics:deallocate',1,hook_handle) |
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112 | |
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113 | end subroutine deallocate_thermodynamics_arrays |
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114 | |
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115 | |
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116 | !--------------------------------------------------------------------- |
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117 | ! Calculate approximate saturation with respect to liquid |
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118 | subroutine calc_saturation_wrt_liquid(this,istartcol,iendcol) |
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119 | |
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120 | use yomhook, only : lhook, dr_hook, jphook |
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121 | |
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122 | class(thermodynamics_type), intent(inout) :: this |
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123 | integer, intent(in) :: istartcol, iendcol |
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124 | |
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125 | ! Pressure and temperature at full levels |
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126 | real(jprb) :: pressure, temperature |
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127 | |
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128 | ! Vapour pressure (Pa) |
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129 | real(jprb) :: e_sat |
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130 | |
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131 | integer :: ncol, nlev ! Dimension sizes |
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132 | integer :: jcol, jlev ! Loop indices for column and level |
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133 | |
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134 | real(jphook) :: hook_handle |
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135 | |
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136 | if (lhook) call dr_hook('radiation_thermodynamics:calc_saturation_wrt_liquid',0,hook_handle) |
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137 | |
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138 | ncol = size(this%pressure_hl,1) |
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139 | nlev = size(this%pressure_hl,2) - 1 |
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140 | |
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141 | if (.not. allocated(this%h2o_sat_liq)) then |
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142 | allocate(this%h2o_sat_liq(ncol,nlev)) |
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143 | end if |
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144 | |
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145 | do jlev = 1,nlev |
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146 | do jcol = istartcol,iendcol |
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147 | pressure = 0.5 * (this%pressure_hl(jcol,jlev)+this%pressure_hl(jcol,jlev+1)) |
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148 | temperature = 0.5 * (this%temperature_hl(jcol,jlev)+this%temperature_hl(jcol,jlev+1)) |
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149 | e_sat = 6.11e2_jprb * exp( 17.269_jprb * (temperature-273.16_jprb) / (temperature-35.86_jprb) ) |
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150 | ! This formula can go above 1 at low pressure so needs to be |
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151 | ! capped |
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152 | this%h2o_sat_liq(jcol,jlev) = min(1.0_jprb, 0.622_jprb * e_sat / pressure) |
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153 | end do |
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154 | end do |
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155 | |
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156 | if (lhook) call dr_hook('radiation_thermodynamics:calc_saturation_wrt_liquid',1,hook_handle) |
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157 | |
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158 | end subroutine calc_saturation_wrt_liquid |
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159 | |
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160 | |
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161 | !--------------------------------------------------------------------- |
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162 | ! Calculate the dry mass of each layer, neglecting humidity effects. |
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163 | ! The first version is for all columns. |
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164 | subroutine get_layer_mass(this,istartcol,iendcol,layer_mass) |
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165 | |
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166 | use yomhook, only : lhook, dr_hook, jphook |
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167 | use radiation_constants, only : AccelDueToGravity |
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168 | |
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169 | class(thermodynamics_type), intent(in) :: this |
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170 | integer, intent(in) :: istartcol, iendcol |
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171 | real(jprb), intent(out) :: layer_mass(:,:) |
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172 | |
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173 | integer :: nlev |
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174 | real(jprb) :: inv_g |
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175 | |
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176 | real(jphook) :: hook_handle |
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177 | |
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178 | if (lhook) call dr_hook('radiation_thermodynamics:get_layer_mass',0,hook_handle) |
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179 | |
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180 | nlev = ubound(this%pressure_hl,2) - 1 |
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181 | inv_g = 1.0_jprb / AccelDueToGravity |
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182 | |
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183 | layer_mass(istartcol:iendcol,1:nlev) & |
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184 | & = ( this%pressure_hl(istartcol:iendcol,2:nlev+1) & |
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185 | & -this%pressure_hl(istartcol:iendcol,1:nlev ) ) & |
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186 | & * inv_g |
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187 | |
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188 | if (lhook) call dr_hook('radiation_thermodynamics:get_layer_mass',1,hook_handle) |
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189 | |
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190 | end subroutine get_layer_mass |
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191 | |
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192 | !--------------------------------------------------------------------- |
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193 | ! Calculate the dry mass of each layer, neglecting humidity effects. |
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194 | ! The second version is for one column, the one numbered "icol". |
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195 | subroutine get_layer_mass_column(this, icol, layer_mass) |
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196 | |
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197 | use yomhook, only : lhook, dr_hook, jphook |
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198 | use radiation_constants, only : AccelDueToGravity |
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199 | |
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200 | class(thermodynamics_type), intent(in) :: this |
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201 | integer, intent(in) :: icol |
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202 | real(jprb), intent(out) :: layer_mass(:) |
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203 | |
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204 | integer :: nlev |
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205 | real(jprb) :: inv_g |
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206 | |
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207 | real(jphook) :: hook_handle |
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208 | |
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209 | if (lhook) call dr_hook('radiation_thermodynamics:get_layer_mass_column',0,hook_handle) |
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210 | |
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211 | nlev = ubound(this%pressure_hl,2) - 1 |
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212 | inv_g = 1.0_jprb / AccelDueToGravity |
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213 | |
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214 | layer_mass = ( this%pressure_hl(icol,2:nlev+1) & |
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215 | & -this%pressure_hl(icol,1:nlev ) ) & |
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216 | & * inv_g |
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217 | |
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218 | if (lhook) call dr_hook('radiation_thermodynamics:get_layer_mass_column',1,hook_handle) |
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219 | |
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220 | end subroutine get_layer_mass_column |
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221 | |
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222 | |
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223 | !--------------------------------------------------------------------- |
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224 | ! Estimate the separation between the mid-points of model layers |
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225 | ! given the half-level pressure and temperature. This is not in |
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226 | ! terms of the "thermodynamics" type as it is useful for computing |
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227 | ! overlap decorrelation lengths and hence cloud cover outside the |
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228 | ! radiation scheme. |
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229 | subroutine get_layer_separation(pressure_hl, temperature_hl, layer_separation) |
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230 | |
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231 | use yomhook, only : lhook, dr_hook, jphook |
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232 | use radiation_constants, only : GasConstantDryAir, AccelDueToGravity |
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233 | |
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234 | ! Pressure (Pa) and temperature (K) at half-levels, dimensioned |
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235 | ! (ncol,nlev+1) where ncol is the number of columns and nlev is |
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236 | ! the number of model levels |
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237 | real(jprb), dimension(:,:), intent(in) :: pressure_hl, temperature_hl |
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238 | |
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239 | ! Layer separation in metres, dimensioned (ncol,nlev-1) |
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240 | real(jprb), dimension(:,:), intent(out) :: layer_separation |
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241 | |
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242 | ! Ratio of gas constant for dry air to acceleration due to gravity |
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243 | real(jprb), parameter :: R_over_g = GasConstantDryAir / AccelDueToGravity |
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244 | |
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245 | ! Loop indices and array bounds |
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246 | integer :: jlev |
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247 | integer :: i1, i2, nlev |
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248 | |
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249 | real(jphook) :: hook_handle |
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250 | |
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251 | if (lhook) call dr_hook('radiation_thermodynamics:get_layer_separation',0,hook_handle) |
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252 | |
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253 | i1 = lbound(pressure_hl,1) |
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254 | i2 = ubound(pressure_hl,1) |
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255 | nlev = size(pressure_hl,2)-1 |
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256 | |
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257 | if (pressure_hl(i1,2) > pressure_hl(i1,1)) then |
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258 | ! Pressure is increasing with index (order of layers is |
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259 | ! top-of-atmosphere to surface). In case pressure_hl(:,1)=0, we |
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260 | ! don't take the logarithm of the first pressure in each column. |
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261 | layer_separation(i1:i2,1) = R_over_g * temperature_hl(i1:i2,2) & |
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262 | & * log(pressure_hl(i1:i2,3)/pressure_hl(i1:i2,2)) |
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263 | |
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264 | ! For other layers we take the separation between midpoints to |
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265 | ! be half the separation between the half-levels at the edge of |
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266 | ! the two adjacent layers |
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267 | do jlev = 2,nlev-1 |
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268 | layer_separation(i1:i2,jlev) = (0.5_jprb * R_over_g) * temperature_hl(i1:i2,jlev+1) & |
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269 | & * log(pressure_hl(i1:i2,jlev+2)/pressure_hl(i1:i2,jlev)) |
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270 | |
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271 | end do |
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272 | |
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273 | else |
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274 | ! Pressure is decreasing with index (order of layers is surface |
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275 | ! to top-of-atmosphere). In case pressure_hl(:,nlev+1)=0, we |
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276 | ! don't take the logarithm of the last pressure in each column. |
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277 | |
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278 | do jlev = 1,nlev-2 |
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279 | layer_separation(i1:i2,jlev) = (0.5_jprb * R_over_g) * temperature_hl(i1:i2,jlev+1) & |
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280 | & * log(pressure_hl(i1:i2,jlev)/pressure_hl(i1:i2,jlev+2)) |
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281 | |
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282 | end do |
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283 | layer_separation(i1:i2,nlev-1) = R_over_g * temperature_hl(i1:i2,nlev) & |
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284 | & * log(pressure_hl(i1:i2,nlev-1)/pressure_hl(i1:i2,nlev)) |
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285 | |
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286 | end if |
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287 | |
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288 | if (lhook) call dr_hook('radiation_thermodynamics:get_layer_separation',1,hook_handle) |
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289 | |
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290 | end subroutine get_layer_separation |
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291 | |
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292 | |
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293 | !--------------------------------------------------------------------- |
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294 | ! Return .true. if variables are out of a physically sensible range, |
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295 | ! optionally only considering columns between istartcol and iendcol |
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296 | function out_of_physical_bounds(this, istartcol, iendcol, do_fix) result(is_bad) |
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297 | |
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298 | use yomhook, only : lhook, dr_hook, jphook |
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299 | use radiation_check, only : out_of_bounds_2d |
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300 | |
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301 | class(thermodynamics_type), intent(inout) :: this |
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302 | integer, optional,intent(in) :: istartcol, iendcol |
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303 | logical, optional,intent(in) :: do_fix |
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304 | logical :: is_bad |
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305 | |
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306 | logical :: do_fix_local |
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307 | |
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308 | real(jphook) :: hook_handle |
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309 | |
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310 | if (lhook) call dr_hook('radiation_thermodynamics:out_of_physical_bounds',0,hook_handle) |
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311 | |
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312 | if (present(do_fix)) then |
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313 | do_fix_local = do_fix |
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314 | else |
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315 | do_fix_local = .false. |
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316 | end if |
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317 | |
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318 | ! Dangerous to cap pressure_hl as then the pressure difference across a layer could be zero |
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319 | is_bad = out_of_bounds_2d(this%pressure_hl, 'pressure_hl', 0.0_jprb, 110000.0_jprb, & |
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320 | & .false., i1=istartcol, i2=iendcol) & |
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321 | & .or. out_of_bounds_2d(this%temperature_hl, 'temperature_hl', 100.0_jprb, 400.0_jprb, & |
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322 | & do_fix_local, i1=istartcol, i2=iendcol) & |
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323 | & .or. out_of_bounds_2d(this%h2o_sat_liq, 'h2o_sat_liq', 0.0_jprb, 1.0_jprb, & |
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324 | & do_fix_local, i1=istartcol, i2=iendcol) |
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325 | |
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326 | if (lhook) call dr_hook('radiation_thermodynamics:out_of_physical_bounds',1,hook_handle) |
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327 | |
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328 | end function out_of_physical_bounds |
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329 | |
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330 | end module radiation_thermodynamics |
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