1 | |
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2 | ! $Id: aeropt.f90 5285 2024-10-28 13:33:29Z fairhead $ |
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3 | |
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4 | SUBROUTINE aeropt(pplay, paprs, t_seri, msulfate, rhcl, tau_ae, piz_ae, & |
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5 | cg_ae, ai) |
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6 | |
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7 | USE dimphy |
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8 | USE yomcst_mod_h |
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9 | IMPLICIT NONE |
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10 | |
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11 | |
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12 | |
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13 | |
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14 | |
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15 | ! Arguments: |
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16 | |
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17 | REAL, INTENT (IN) :: paprs(klon, klev+1) |
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18 | REAL, INTENT (IN) :: pplay(klon, klev), t_seri(klon, klev) |
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19 | REAL, INTENT (IN) :: msulfate(klon, klev) ! masse sulfate ug SO4/m3 [ug/m^3] |
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20 | REAL, INTENT (IN) :: rhcl(klon, klev) ! humidite relative ciel clair |
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21 | REAL, INTENT (OUT) :: tau_ae(klon, klev, 2) ! epaisseur optique aerosol |
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22 | REAL, INTENT (OUT) :: piz_ae(klon, klev, 2) ! single scattering albedo aerosol |
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23 | REAL, INTENT (OUT) :: cg_ae(klon, klev, 2) ! asymmetry parameter aerosol |
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24 | REAL, INTENT (OUT) :: ai(klon) ! POLDER aerosol index |
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25 | |
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26 | ! Local |
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27 | |
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28 | INTEGER i, k, inu |
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29 | INTEGER rh_num, nbre_rh |
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30 | PARAMETER (nbre_rh=12) |
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31 | REAL rh_tab(nbre_rh) |
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32 | REAL rh_max, delta, rh |
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33 | PARAMETER (rh_max=95.) |
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34 | DATA rh_tab/0., 10., 20., 30., 40., 50., 60., 70., 80., 85., 90., 95./ |
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35 | REAL zrho, zdz |
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36 | REAL taue670(klon) ! epaisseur optique aerosol absorption 550 nm |
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37 | REAL taue865(klon) ! epaisseur optique aerosol extinction 865 nm |
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38 | REAL alpha_aer_sulfate(nbre_rh, 5) !--unit m2/g SO4 |
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39 | REAL alphasulfate |
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40 | |
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41 | CHARACTER (LEN=20) :: modname = 'aeropt' |
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42 | CHARACTER (LEN=80) :: abort_message |
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43 | |
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44 | |
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45 | ! Proprietes optiques |
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46 | |
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47 | REAL alpha_aer(nbre_rh, 2) !--unit m2/g SO4 |
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48 | REAL cg_aer(nbre_rh, 2) |
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49 | DATA alpha_aer/.500130E+01, .500130E+01, .500130E+01, .500130E+01, & |
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50 | .500130E+01, .616710E+01, .826850E+01, .107687E+02, .136976E+02, & |
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51 | .162972E+02, .211690E+02, .354833E+02, .139460E+01, .139460E+01, & |
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52 | .139460E+01, .139460E+01, .139460E+01, .173910E+01, .244380E+01, & |
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53 | .332320E+01, .440120E+01, .539570E+01, .734580E+01, .136038E+02/ |
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54 | DATA cg_aer/.619800E+00, .619800E+00, .619800E+00, .619800E+00, & |
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55 | .619800E+00, .662700E+00, .682100E+00, .698500E+00, .712500E+00, & |
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56 | .721800E+00, .734600E+00, .755800E+00, .545600E+00, .545600E+00, & |
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57 | .545600E+00, .545600E+00, .545600E+00, .583700E+00, .607100E+00, & |
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58 | .627700E+00, .645800E+00, .658400E+00, .676500E+00, .708500E+00/ |
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59 | DATA alpha_aer_sulfate/4.910, 4.910, 4.910, 4.910, 6.547, 7.373, 8.373, & |
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60 | 9.788, 12.167, 14.256, 17.924, 28.433, 1.453, 1.453, 1.453, 1.453, 2.003, & |
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61 | 2.321, 2.711, 3.282, 4.287, 5.210, 6.914, 12.305, 4.308, 4.308, 4.308, & |
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62 | 4.308, 5.753, 6.521, 7.449, 8.772, 11.014, 12.999, 16.518, 26.772, 3.265, & |
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63 | 3.265, 3.265, 3.265, 4.388, 5.016, 5.775, 6.868, 8.745, 10.429, 13.457, & |
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64 | 22.538, 2.116, 2.116, 2.116, 2.116, 2.882, 3.330, 3.876, 4.670, 6.059, & |
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65 | 7.327, 9.650, 16.883/ |
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66 | |
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67 | DO i = 1, klon |
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68 | taue670(i) = 0.0 |
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69 | taue865(i) = 0.0 |
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70 | END DO |
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71 | |
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72 | DO k = 1, klev |
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73 | DO i = 1, klon |
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74 | IF (t_seri(i,k)==0) WRITE (*, *) 'aeropt T ', i, k, t_seri(i, k) |
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75 | IF (pplay(i,k)==0) WRITE (*, *) 'aeropt p ', i, k, pplay(i, k) |
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76 | zrho = pplay(i, k)/t_seri(i, k)/rd ! kg/m3 |
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77 | zdz = (paprs(i,k)-paprs(i,k+1))/zrho/rg ! m |
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78 | rh = min(rhcl(i,k)*100., rh_max) |
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79 | rh_num = int(rh/10.+1.) |
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80 | IF (rh<0.) THEN |
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81 | abort_message = 'aeropt: RH < 0 not possible' |
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82 | CALL abort_physic(modname, abort_message, 1) |
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83 | END IF |
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84 | IF (rh>85.) rh_num = 10 |
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85 | IF (rh>90.) rh_num = 11 |
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86 | delta = (rh-rh_tab(rh_num))/(rh_tab(rh_num+1)-rh_tab(rh_num)) |
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87 | |
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88 | inu = 1 |
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89 | tau_ae(i, k, inu) = alpha_aer(rh_num, inu) + delta*(alpha_aer(rh_num+1, & |
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90 | inu)-alpha_aer(rh_num,inu)) |
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91 | tau_ae(i, k, inu) = tau_ae(i, k, inu)*msulfate(i, k)*zdz*1.E-6 |
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92 | piz_ae(i, k, inu) = 1.0 |
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93 | cg_ae(i, k, inu) = cg_aer(rh_num, inu) + delta*(cg_aer(rh_num+1,inu)- & |
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94 | cg_aer(rh_num,inu)) |
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95 | |
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96 | inu = 2 |
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97 | tau_ae(i, k, inu) = alpha_aer(rh_num, inu) + delta*(alpha_aer(rh_num+1, & |
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98 | inu)-alpha_aer(rh_num,inu)) |
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99 | tau_ae(i, k, inu) = tau_ae(i, k, inu)*msulfate(i, k)*zdz*1.E-6 |
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100 | piz_ae(i, k, inu) = 1.0 |
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101 | cg_ae(i, k, inu) = cg_aer(rh_num, inu) + delta*(cg_aer(rh_num+1,inu)- & |
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102 | cg_aer(rh_num,inu)) |
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103 | ! jq |
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104 | ! jq for aerosol index |
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105 | |
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106 | alphasulfate = alpha_aer_sulfate(rh_num, 4) + & |
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107 | delta*(alpha_aer_sulfate(rh_num+1,4)-alpha_aer_sulfate(rh_num,4)) !--m2/g |
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108 | |
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109 | taue670(i) = taue670(i) + alphasulfate*msulfate(i, k)*zdz*1.E-6 |
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110 | |
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111 | alphasulfate = alpha_aer_sulfate(rh_num, 5) + & |
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112 | delta*(alpha_aer_sulfate(rh_num+1,5)-alpha_aer_sulfate(rh_num,5)) !--m2/g |
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113 | |
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114 | taue865(i) = taue865(i) + alphasulfate*msulfate(i, k)*zdz*1.E-6 |
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115 | |
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116 | END DO |
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117 | END DO |
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118 | |
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119 | DO i = 1, klon |
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120 | ai(i) = (-log(max(taue670(i),0.0001)/max(taue865(i), & |
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121 | 0.0001))/log(670./865.))*taue865(i) |
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122 | END DO |
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123 | |
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124 | RETURN |
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125 | END SUBROUTINE aeropt |
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