1 | subroutine surfacearea(ngrid, nlay, ptimestep, |
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2 | $ pplay, pzlay, |
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3 | $ pt, pq, pdq, nq, rdust, rice, tau, |
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4 | $ tauscaling, |
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5 | $ surfdust, surfice) |
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6 | |
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7 | use tracer_mod, only: nuice_sed, igcm_dust_number, |
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8 | & igcm_ccn_number, varian, ccn_factor |
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9 | use conc_mod, only: rnew |
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10 | USE comcstfi_h |
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11 | implicit none |
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12 | |
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13 | !========================================================================== |
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14 | ! calculation of the ice and dust surface area (m2/m3) |
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15 | ! available for heterogeneous reactions |
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16 | ! |
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17 | ! Franck Lefevre |
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18 | ! version 1.2 april 2012 |
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19 | !========================================================================== |
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20 | |
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21 | #include "dimensions.h" |
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22 | !#include "dimphys.h" |
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23 | #include "callkeys.h" |
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24 | !#include "tracer.h" |
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25 | !#include "dimradmars.h" |
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26 | ! naerkind is set in scatterers.h (built when compiling with makegcm -s #) |
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27 | #include"scatterers.h" |
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28 | #include "chimiedata.h" |
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29 | !#include "conc.h" |
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30 | |
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31 | ! input |
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32 | |
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33 | integer,intent(in) :: ngrid, nlay |
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34 | integer,intent(in) :: nq ! number of tracers |
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35 | real,intent(in) :: ptimestep ! physics time step (s) |
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36 | real,intent(in) :: pplay(ngrid,nlay) ! pressure at mid-layers (Pa) |
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37 | real,intent(in) :: pzlay(ngrid,nlay) ! altitude at mid-layers (m) |
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38 | real,intent(in) :: pt(ngrid,nlay) ! temperature at mid-layers (K) |
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39 | real,intent(in) :: pq(ngrid,nlay,nq) ! tracers (kg/kg) |
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40 | real,intent(in) :: pdq(ngrid,nlay,nq) ! physical tendency (kg/kg.s-1) |
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41 | real,intent(in) :: rdust(ngrid,nlay) ! dust geometric mean radius (m) |
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42 | real,intent(in) :: rice(ngrid,nlay) ! ice mass mean radius (m) |
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43 | real,intent(in) :: tau(ngrid,naerkind) ! column dust optical depth at each point |
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44 | real,intent(in) :: tauscaling(ngrid) ! conversion factor for dust amount |
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45 | |
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46 | ! output |
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47 | |
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48 | real,intent(out) :: surfdust(ngrid,nlay) ! dust surface area (m2/m3) |
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49 | real,intent(out) :: surfice(ngrid,nlay) ! water-ice surface area (m2/m3) |
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50 | |
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51 | ! local |
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52 | |
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53 | integer :: l, ig |
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54 | real :: rho ! density (kg/m3) |
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55 | real :: dustnd, icend ! uodated dust and ice number densities (kg/kg) |
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56 | real, save :: factor_ice, factor_dust ! multiplying factor to compute total surface area |
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57 | ! from the mass-mean radius |
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58 | real :: sigma_ice, sigma_dust ! variance of the ice and dust distributions |
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59 | real :: ccntyp ! typical dust number density (#/kg) |
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60 | ! (microphys = false) |
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61 | real :: rdusttyp ! typical dust radius (m) |
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62 | ! (microphys = false) |
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63 | |
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64 | logical, save :: firstcall = .true. |
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65 | |
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66 | !========================================================================== |
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67 | |
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68 | if (firstcall) then ! compute the multiplying factors |
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69 | sigma_dust = varian |
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70 | sigma_ice = sqrt(log(nuice_sed + 1.)) |
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71 | factor_dust = exp(0.5*(log(sigma_dust))**2) |
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72 | factor_ice = exp(0.5*(log(sigma_ice))**2) |
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73 | write(*,*) 'surfacearea : factor_dust = ', factor_dust |
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74 | write(*,*) 'surfacearea : factor_ice = ', factor_ice |
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75 | firstcall = .false. |
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76 | end if |
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77 | |
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78 | if (microphys) then ! improvedclouds |
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79 | do l = 1,nlay |
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80 | do ig = 1,ngrid |
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81 | ! atmospheric density |
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82 | rho = pplay(ig,l)/(rnew(ig,l)*pt(ig,l)) |
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83 | ! updated dust number density |
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84 | dustnd = pq(ig,l,igcm_dust_number) |
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85 | $ + pdq(ig,l,igcm_dust_number)*ptimestep |
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86 | ! updated ice number density |
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87 | icend = pq(ig,l,igcm_ccn_number) |
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88 | $ + pdq(ig,l,igcm_ccn_number)*ptimestep |
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89 | ! dust surface area |
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90 | surfdust(ig,l) = factor_dust*dustnd*rho*tauscaling(ig) |
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91 | $ *4.*pi*rdust(ig,l)**2 |
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92 | ! ice surface area |
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93 | surfice(ig,l) = factor_ice*icend*rho*tauscaling(ig) |
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94 | $ *4.*pi*rice(ig,l)**2 |
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95 | end do |
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96 | end do |
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97 | else ! simpleclouds |
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98 | do l = 1,nlay |
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99 | do ig = 1,ngrid |
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100 | ! atmospheric density |
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101 | rho = pplay(ig,l)/(rnew(ig,l)*pt(ig,l)) |
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102 | ! typical dust radius |
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103 | rdusttyp = max(.8e-6*exp(-pzlay(ig,l)/18000.),1.e-9) |
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104 | ! typical dust number density |
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105 | ccntyp = 1.3e+8*max(tau(ig,1),0.001)/0.1 |
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106 | $ *exp(-pzlay(ig,l)/10000.) |
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107 | ccntyp = ccntyp/ccn_factor |
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108 | if (rice(ig,l) .gt. rdust(ig,l)) then |
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109 | surfdust(ig,l) = factor_dust*ccntyp*(ccn_factor - 1.) |
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110 | $ *rho*4.*pi*rdusttyp**2 |
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111 | surfice(ig,l) = factor_ice*ccntyp*4.*pi*rice(ig,l)**2 |
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112 | else |
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113 | surfdust(ig,l) = factor_dust*ccntyp*ccn_factor |
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114 | $ *rho*4.*pi*rdusttyp**2 |
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115 | surfice(ig,l) = 0. |
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116 | end if |
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117 | end do |
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118 | end do |
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119 | end if ! of microphys |
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120 | |
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121 | ! write diagnostics in micron2/cm3 |
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122 | |
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123 | if (callstats) then |
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124 | call wstats(ngrid,"surfdust", "Dust surface area", |
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125 | $ "micron2 cm-3",3,surfdust*1.e6) |
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126 | call wstats(ngrid,"surfice", "Ice cloud surface area", |
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127 | $ "micron2 cm-3",3,surfice*1.e6) |
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128 | endif |
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129 | call writediagfi(ngrid,"surfdust", "Dust surface area", |
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130 | $ "micron2 cm-3",3,surfdust*1.e6) |
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131 | call writediagfi(ngrid,"surfice", "Ice cloud surface area", |
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132 | $ "micron2 cm-3",3,surfice*1.e6) |
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133 | |
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134 | return |
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135 | end |
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