1 | SUBROUTINE callsedim(ngrid,nlay, ptimestep, |
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2 | & pplev,zlev, pt, pdt, |
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3 | & pq, pdqfi, pdqsed,pdqs_sed,nq) |
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4 | |
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5 | use radinc_h, only : naerkind |
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6 | use radii_mod, only: h2o_reffrad |
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7 | use aerosol_mod, only : iaero_h2o |
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8 | USE tracer_h, only : igcm_co2_ice,igcm_h2o_ice,radius,rho_q |
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9 | use comcstfi_mod, only: g |
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10 | use callkeys_mod, only : water |
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11 | |
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12 | IMPLICIT NONE |
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13 | |
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14 | !================================================================== |
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15 | ! |
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16 | ! Purpose |
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17 | ! ------- |
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18 | ! Calculates sedimentation of aerosols depending on their |
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19 | ! density and radius. |
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20 | ! |
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21 | ! Authors |
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22 | ! ------- |
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23 | ! F. Forget (1999) |
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24 | ! Tracer generalisation by E. Millour (2009) |
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25 | ! |
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26 | !================================================================== |
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27 | |
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28 | c----------------------------------------------------------------------- |
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29 | c declarations: |
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30 | c ------------- |
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31 | |
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32 | c arguments: |
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33 | c ---------- |
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34 | |
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35 | integer,intent(in):: ngrid ! number of horizontal grid points |
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36 | integer,intent(in):: nlay ! number of atmospheric layers |
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37 | real,intent(in):: ptimestep ! physics time step (s) |
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38 | real,intent(in):: pplev(ngrid,nlay+1) ! pressure at inter-layers (Pa) |
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39 | real,intent(in):: pt(ngrid,nlay) ! temperature at mid-layer (K) |
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40 | real,intent(in):: pdt(ngrid,nlay) ! tendency on temperature |
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41 | real,intent(in):: zlev(ngrid,nlay+1) ! altitude at layer boundaries |
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42 | integer,intent(in) :: nq ! number of tracers |
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43 | real,intent(in) :: pq(ngrid,nlay,nq) ! tracers (kg/kg) |
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44 | real,intent(in) :: pdqfi(ngrid,nlay,nq) ! tendency on tracers before |
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45 | ! sedimentation (kg/kg.s-1) |
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46 | |
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47 | real,intent(out) :: pdqsed(ngrid,nlay,nq) ! tendency due to sedimentation (kg/kg.s-1) |
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48 | real,intent(out) :: pdqs_sed(ngrid,nq) ! flux at surface (kg.m-2.s-1) |
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49 | |
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50 | c local: |
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51 | c ------ |
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52 | |
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53 | INTEGER l,ig, iq |
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54 | |
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55 | ! for particles with varying radii: |
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56 | real reffrad(ngrid,nlay,naerkind) ! particle radius (m) |
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57 | real nueffrad(ngrid,nlay,naerkind) ! aerosol effective radius variance |
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58 | |
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59 | real zqi(ngrid,nlay,nq) ! to locally store tracers |
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60 | real zt(ngrid,nlay) ! to locally store temperature (K) |
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61 | real masse (ngrid,nlay) ! Layer mass (kg.m-2) |
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62 | real epaisseur (ngrid,nlay) ! Layer thickness (m) |
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63 | real wq(ngrid,nlay+1) ! displaced tracer mass (kg.m-2) |
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64 | c real dens(ngrid,nlay) ! Mean density of the ice part. accounting for dust core |
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65 | |
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66 | |
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67 | LOGICAL,SAVE :: firstcall=.true. |
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68 | !$OMP THREADPRIVATE(firstcall) |
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69 | |
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70 | c ** un petit test de coherence |
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71 | c -------------------------- |
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72 | |
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73 | IF (firstcall) THEN |
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74 | firstcall=.false. |
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75 | ! add some tests on presence of required tracers/aerosols: |
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76 | if (water.and.(igcm_h2o_ice.eq.0)) then |
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77 | write(*,*) "callsedim error: water=.true.", |
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78 | & " but igcm_h2o_ice=0" |
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79 | stop |
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80 | endif |
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81 | ENDIF ! of IF (firstcall) |
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82 | |
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83 | !======================================================================= |
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84 | ! Preliminary calculation of the layer characteristics |
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85 | ! (mass (kg.m-2), thickness (m), etc. |
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86 | |
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87 | do l=1,nlay |
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88 | do ig=1, ngrid |
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89 | masse(ig,l)=(pplev(ig,l) - pplev(ig,l+1)) /g |
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90 | epaisseur(ig,l)= zlev(ig,l+1) - zlev(ig,l) |
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91 | zt(ig,l)=pt(ig,l)+pdt(ig,l)*ptimestep |
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92 | end do |
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93 | end do |
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94 | |
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95 | !====================================================================== |
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96 | ! Calculate the transport due to sedimentation for each tracer |
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97 | ! [This has been rearranged by L. Kerber to allow the sedimentation |
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98 | ! of general tracers.] |
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99 | |
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100 | do iq=1,nq |
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101 | if((radius(iq).gt.1.e-9).and.(iq.ne.igcm_co2_ice)) then ! JVO 08/2017 : be careful radius was tested uninitialized (fixed) ... |
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102 | |
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103 | ! (no sedim for gases, and co2_ice sedim is done in condense_co2) |
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104 | |
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105 | ! store locally updated tracers |
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106 | |
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107 | do l=1,nlay |
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108 | do ig=1, ngrid |
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109 | zqi(ig,l,iq)=pq(ig,l,iq)+pdqfi(ig,l,iq)*ptimestep |
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110 | enddo |
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111 | enddo ! of do l=1,nlay |
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112 | |
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113 | !====================================================================== |
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114 | ! Sedimentation |
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115 | !====================================================================== |
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116 | ! Water |
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117 | if (water.and.(iaero_h2o.ne.0).and.(iq.eq.igcm_h2o_ice)) then |
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118 | ! compute radii for h2o_ice |
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119 | call h2o_reffrad(ngrid,nlay,zqi(1,1,igcm_h2o_ice),zt, |
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120 | & reffrad(1,1,iaero_h2o),nueffrad(1,1,iaero_h2o)) |
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121 | ! call sedimentation for h2o_ice |
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122 | call newsedim(ngrid,nlay,ngrid*nlay,ptimestep, |
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123 | & pplev,masse,epaisseur,zt,reffrad(1,1,iaero_h2o), |
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124 | & rho_q(iq),zqi(1,1,igcm_h2o_ice),wq) |
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125 | |
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126 | ! General Case |
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127 | else |
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128 | call newsedim(ngrid,nlay,1,ptimestep, |
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129 | & pplev,masse,epaisseur,zt,radius(iq),rho_q(iq), |
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130 | & zqi(1,1,iq),wq) |
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131 | endif |
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132 | |
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133 | !======================================================================= |
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134 | ! Calculate the tendencies |
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135 | !====================================================================== |
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136 | |
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137 | do ig=1,ngrid |
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138 | ! Ehouarn: with new way of tracking tracers by name, this is simply |
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139 | pdqs_sed(ig,iq) = wq(ig,1)/ptimestep |
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140 | end do |
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141 | |
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142 | DO l = 1, nlay |
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143 | DO ig=1,ngrid |
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144 | pdqsed(ig,l,iq)=(zqi(ig,l,iq)- |
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145 | & (pq(ig,l,iq) + pdqfi(ig,l,iq)*ptimestep))/ptimestep |
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146 | ENDDO |
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147 | ENDDO |
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148 | endif ! of no gases no co2_ice |
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149 | enddo ! of do iq=1,nq |
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150 | return |
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151 | end |
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