1 | ! |
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2 | ! $Id: lwu.F90 5294 2024-10-29 18:35:00Z abarral $ |
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3 | ! |
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4 | SUBROUTINE LWU & |
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5 | & ( KIDIA, KFDIA, KLON, KLEV,& |
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6 | & PAER , PCCO2, PDP , PPMB, PQOF , PTAVE, PVIEW, PWV,& |
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7 | & PABCU & |
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8 | & ) |
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9 | |
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10 | !**** *LWU* - LONGWAVE EFFECTIVE ABSORBER AMOUNTS |
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11 | |
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12 | ! PURPOSE. |
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13 | ! -------- |
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14 | ! COMPUTES ABSORBER AMOUNTS INCLUDING PRESSURE AND |
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15 | ! TEMPERATURE EFFECTS |
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16 | |
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17 | !** INTERFACE. |
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18 | ! ---------- |
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19 | |
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20 | ! EXPLICIT ARGUMENTS : |
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21 | ! -------------------- |
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22 | ! ==== INPUTS === |
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23 | ! PAER : (KLON,6,KLEV) ; OPTICAL THICKNESS OF THE AEROSOLS |
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24 | ! PCCO2 : ; CONCENTRATION IN CO2 (PA/PA) |
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25 | ! PDP : (KLON,KLEV) ; LAYER PRESSURE THICKNESS (PA) |
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26 | ! PPMB : (KLON,KLEV+1) ; HALF LEVEL PRESSURE |
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27 | ! PQOF : (KLON,KLEV) ; CONCENTRATION IN OZONE (PA/PA) |
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28 | ! PTAVE : (KLON,KLEV) ; TEMPERATURE |
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29 | ! PWV : (KLON,KLEV) ; SPECIFIC HUMIDITY PA/PA |
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30 | ! PVIEW : (KLON) ; COSECANT OF VIEWING ANGLE |
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31 | ! ==== OUTPUTS === |
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32 | ! PABCU :(KLON,NUA,3*KLEV+1); EFFECTIVE ABSORBER AMOUNTS |
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33 | |
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34 | ! IMPLICIT ARGUMENTS : NONE |
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35 | ! -------------------- |
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36 | |
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37 | ! METHOD. |
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38 | ! ------- |
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39 | |
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40 | ! 1. COMPUTES THE PRESSURE AND TEMPERATURE WEIGHTED AMOUNTS OF |
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41 | ! ABSORBERS. |
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42 | |
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43 | ! EXTERNALS. |
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44 | ! ---------- |
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45 | |
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46 | ! NONE |
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47 | |
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48 | ! REFERENCE. |
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49 | ! ---------- |
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50 | |
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51 | ! SEE RADIATION'S PART OF THE MODEL'S DOCUMENTATION AND |
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52 | ! ECMWF RESEARCH DEPARTMENT DOCUMENTATION OF THE IFS |
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53 | |
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54 | ! AUTHOR. |
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55 | ! ------- |
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56 | ! JEAN-JACQUES MORCRETTE *ECMWF* |
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57 | |
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58 | ! MODIFICATIONS. |
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59 | ! -------------- |
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60 | ! ORIGINAL : 89-07-14 |
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61 | ! JJ Morcrette 97-04-18 Revised Continuum + Clean-up |
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62 | ! M.Hamrud 01-Oct-2003 CY28 Cleaning |
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63 | |
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64 | !----------------------------------------------------------------------- |
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65 | |
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66 | USE PARKIND1 ,ONLY : JPIM ,JPRB |
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67 | USE YOMHOOK ,ONLY : LHOOK, DR_HOOK |
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68 | |
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69 | USE YOMCST , ONLY : RG |
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70 | USE YOESW , ONLY : RAER |
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71 | USE YOELW , ONLY : NSIL ,NUA ,NG1 ,NG1P1 ,& |
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72 | & ALWT ,BLWT ,RO3T ,RT1 ,TREF ,& |
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73 | & RVGCO2 ,RVGH2O ,RVGO3 |
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74 | !USE YOERDI , ONLY : RCH4 ,RN2O ,RCFC11 ,RCFC12 |
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75 | USE YOERDU , ONLY : R10E ,REPSCO ,REPSCQ |
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76 | USE lmdz_reprobus_wrappers, ONLY: rch42d, rn2o2d, rcfc112d, rcfc122d, ok_rtime2d |
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77 | USE infotrac_phy, ONLY : type_trac |
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78 | USE lmdz_cppkeys_wrapper, ONLY: CPPKEY_REPROBUS |
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79 | ! Temporary fix waiting for cleaner interface (or not) |
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80 | USE clesphys_mod_h, ONLY: NSW, RCFC11, RCFC12, RCH4, RN2O |
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81 | |
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82 | IMPLICIT NONE |
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83 | |
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84 | INTEGER(KIND=JPIM),INTENT(IN) :: KLON |
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85 | INTEGER(KIND=JPIM),INTENT(IN) :: KLEV |
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86 | INTEGER(KIND=JPIM),INTENT(IN) :: KIDIA |
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87 | INTEGER(KIND=JPIM),INTENT(IN) :: KFDIA |
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88 | REAL(KIND=JPRB) ,INTENT(IN) :: PAER(KLON,6,KLEV) |
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89 | REAL(KIND=JPRB) ,INTENT(IN) :: PCCO2 |
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90 | REAL(KIND=JPRB) ,INTENT(IN) :: PDP(KLON,KLEV) |
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91 | REAL(KIND=JPRB) ,INTENT(IN) :: PPMB(KLON,KLEV+1) |
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92 | REAL(KIND=JPRB) ,INTENT(IN) :: PQOF(KLON,KLEV) |
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93 | REAL(KIND=JPRB) ,INTENT(IN) :: PTAVE(KLON,KLEV) |
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94 | REAL(KIND=JPRB) ,INTENT(IN) :: PVIEW(KLON) |
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95 | REAL(KIND=JPRB) ,INTENT(IN) :: PWV(KLON,KLEV) |
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96 | REAL(KIND=JPRB) ,INTENT(OUT) :: PABCU(KLON,NUA,3*KLEV+1) |
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97 | |
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98 | !!include "clesphys.h" |
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99 | !----------------------------------------------------------------------- |
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100 | |
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101 | !* 0.1 ARGUMENTS |
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102 | ! --------- |
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103 | |
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104 | !----------------------------------------------------------------------- |
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105 | |
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106 | ! ------------ |
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107 | REAL(KIND=JPRB) :: ZABLY(KLON,7,3*KLEV+1) , ZDPM(KLON,3*KLEV)& |
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108 | & , ZDUC(KLON, 3*KLEV+1) , ZFACT(KLON)& |
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109 | & , ZUPM(KLON,3*KLEV) |
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110 | REAL(KIND=JPRB) :: ZPHIO(KLON),ZPSC2(KLON) , ZPSC3(KLON), ZPSH1(KLON)& |
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111 | & , ZPSH2(KLON),ZPSH3(KLON) , ZPSH4(KLON), ZPSH5(KLON)& |
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112 | & , ZPSH6(KLON),ZPSIO(KLON) , ZTCON(KLON)& |
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113 | & , ZPHM6(KLON),ZPSM6(KLON) , ZPHN6(KLON), ZPSN6(KLON) |
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114 | REAL(KIND=JPRB) :: ZSSIG(KLON,3*KLEV+1) , ZTAVI(KLON)& |
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115 | & , ZUAER(KLON,NSIL) , ZXOZ(KLON) , ZXWV(KLON) |
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116 | |
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117 | INTEGER(KIND=JPIM) :: IAE1, IAE2, IAE3, IC, ICP1, IG1, IJ, IJPN,& |
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118 | & IKIP1, IKJ, IKJP, IKJPN, IKJR, IKL, JA, JAE, & |
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119 | & JK, JKI, JKK, JL |
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120 | |
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121 | REAL(KIND=JPRB) :: ZALUP, ZCAC8, ZCAH1, ZCAH2, ZCAH3, ZCAH4,& |
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122 | & ZCAH5, ZCAH6, ZCBC8, ZCBH1, ZCBH2, ZCBH3, & |
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123 | & ZCBH4, ZCBH5, ZCBH6, ZDIFF, ZDPMG, ZDPMP0, & |
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124 | & ZFPPW, ZTX, ZTX2, ZU6, ZUP, ZUPMCO2, ZUPMG, & |
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125 | & ZUPMH2O, ZUPMO3, ZZABLY |
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126 | REAL(KIND=JPRB) :: ZHOOK_HANDLE |
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127 | |
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128 | |
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129 | !----------------------------------------------------------------------- |
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130 | |
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131 | !* 1. INITIALIZATION |
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132 | ! -------------- |
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133 | |
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134 | !----------------------------------------------------------------------- |
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135 | |
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136 | !* 2. PRESSURE OVER GAUSS SUB-LEVELS |
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137 | ! ------------------------------ |
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138 | |
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139 | IF (LHOOK) CALL DR_HOOK('LWU',0,ZHOOK_HANDLE) |
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140 | DO JL = KIDIA,KFDIA |
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141 | ZSSIG(JL, 1 ) = PPMB(JL,1) * 100._JPRB |
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142 | ENDDO |
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143 | |
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144 | DO JK = 1 , KLEV |
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145 | IKJ=(JK-1)*NG1P1+1 |
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146 | IKJR = IKJ |
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147 | IKJP = IKJ + NG1P1 |
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148 | DO JL = KIDIA,KFDIA |
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149 | ZSSIG(JL,IKJP)=PPMB(JL,JK+1)* 100._JPRB |
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150 | ENDDO |
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151 | DO IG1=1,NG1 |
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152 | IKJ=IKJ+1 |
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153 | DO JL = KIDIA,KFDIA |
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154 | ZSSIG(JL,IKJ)= (ZSSIG(JL,IKJR) + ZSSIG(JL,IKJP)) * 0.5_JPRB & |
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155 | & + RT1(IG1) * (ZSSIG(JL,IKJP) - ZSSIG(JL,IKJR)) * 0.5_JPRB |
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156 | ENDDO |
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157 | ENDDO |
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158 | ENDDO |
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159 | |
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160 | !----------------------------------------------------------------------- |
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161 | |
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162 | !* 4. PRESSURE THICKNESS AND MEAN PRESSURE OF SUB-LAYERS |
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163 | ! -------------------------------------------------- |
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164 | |
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165 | DO JKI=1,3*KLEV |
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166 | IKIP1=JKI+1 |
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167 | DO JL = KIDIA,KFDIA |
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168 | ZUPM(JL,JKI)=(ZSSIG(JL,JKI)+ZSSIG(JL,IKIP1))*0.5_JPRB |
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169 | ZDPM(JL,JKI)=(ZSSIG(JL,JKI)-ZSSIG(JL,IKIP1))/(10._JPRB*RG) |
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170 | ENDDO |
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171 | ENDDO |
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172 | |
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173 | DO JK = 1 , KLEV |
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174 | IKL = KLEV+1 - JK |
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175 | DO JL = KIDIA,KFDIA |
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176 | ZXWV(JL) = MAX (PWV(JL,IKL) , REPSCQ ) |
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177 | ZXOZ(JL) = MAX (PQOF(JL,IKL) / PDP(JL,IKL) , REPSCO ) |
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178 | ENDDO |
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179 | IKJ=(JK-1)*NG1P1+1 |
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180 | IKJPN=IKJ+NG1 |
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181 | DO JKK=IKJ,IKJPN |
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182 | DO JL = KIDIA,KFDIA |
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183 | ZDPMG = ZDPM(JL,JKK) |
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184 | ZDPMP0 = ZDPMG / 101325._JPRB |
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185 | ZUPMG = ZUPM(JL,JKK) * ZDPMP0 |
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186 | ZUPMCO2 = ( ZUPM(JL,JKK) + RVGCO2 ) * ZDPMP0 |
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187 | ZUPMH2O = ( ZUPM(JL,JKK) + RVGH2O ) * ZDPMP0 |
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188 | ZUPMO3 = ( ZUPM(JL,JKK) + RVGO3 ) * ZDPMP0 |
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189 | ZDUC(JL,JKK) = ZDPMG |
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190 | ZABLY(JL,6,JKK) = ZXOZ(JL) * ZDPMG |
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191 | ZABLY(JL,7,JKK) = ZXOZ(JL) * ZUPMO3 |
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192 | ZU6 = ZXWV(JL) * ZUPMG |
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193 | ZFPPW = 1.6078_JPRB * ZXWV(JL) / (1.0_JPRB+0.608_JPRB*ZXWV(JL)) |
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194 | ZABLY(JL,1,JKK) = ZXWV(JL) * ZUPMH2O |
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195 | ZABLY(JL,5,JKK) = ZU6 * ZFPPW |
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196 | ZABLY(JL,4,JKK) = ZU6 * (1.0_JPRB-ZFPPW) |
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197 | ZABLY(JL,3,JKK) = PCCO2 * ZUPMCO2 |
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198 | ZABLY(JL,2,JKK) = PCCO2 * ZDPMG |
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199 | ENDDO |
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200 | ENDDO |
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201 | ENDDO |
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202 | |
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203 | !----------------------------------------------------------------------- |
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204 | |
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205 | !* 5. CUMULATIVE ABSORBER AMOUNTS FROM TOP OF ATMOSPHERE |
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206 | ! -------------------------------------------------- |
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207 | |
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208 | DO JA = 1, NUA |
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209 | DO JL = KIDIA,KFDIA |
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210 | PABCU(JL,JA,3*KLEV+1) = 0.0_JPRB |
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211 | ENDDO |
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212 | ENDDO |
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213 | |
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214 | DO JK = 1 , KLEV |
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215 | IJ=(JK-1)*NG1P1+1 |
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216 | IJPN=IJ+NG1 |
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217 | IKL=KLEV+1-JK |
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218 | |
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219 | !* 5.1 CUMULATIVE AEROSOL AMOUNTS FROM TOP OF ATMOSPHERE |
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220 | ! -------------------------------------------------- |
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221 | ! -- NB: 'PAER' AEROSOLS ARE ENTERED FROM TOP TO BOTTOM |
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222 | |
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223 | IAE1=3*KLEV+1-IJ |
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224 | IAE2=3*KLEV+1-(IJ+1) |
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225 | IAE3=3*KLEV+1-IJPN |
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226 | ! print *,'IAE1= ',IAE1 |
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227 | ! print *,'IAE2= ',IAE2 |
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228 | ! print *,'IAE3= ',IAE3 |
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229 | ! print *,'KIDIA= ',KIDIA |
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230 | ! print *,'KFDIA= ',KFDIA |
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231 | ! print *,'KLEV= ',KLEV |
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232 | DO JAE=1,6 |
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233 | DO JL = KIDIA,KFDIA |
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234 | ! print *,'JL= ',JL,'-JAE= ',JAE,'-JK= ',JK,'-NSIL= ',NSIL |
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235 | ZUAER(JL,JAE) =& |
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236 | & (RAER(JAE,1)*PAER(JL,1,JK)+RAER(JAE,2)*PAER(JL,2,JK)& |
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237 | & +RAER(JAE,3)*PAER(JL,3,JK)+RAER(JAE,4)*PAER(JL,4,JK)& |
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238 | & +RAER(JAE,5)*PAER(JL,5,JK)+RAER(JAE,6)*PAER(JL,6,JK))& |
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239 | & /(ZDUC(JL,IAE1)+ZDUC(JL,IAE2)+ZDUC(JL,IAE3)) |
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240 | ENDDO |
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241 | ENDDO |
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242 | |
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243 | !* 5.2 INTRODUCES TEMPERATURE EFFECTS ON ABSORBER AMOUNTS |
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244 | ! -------------------------------------------------- |
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245 | |
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246 | DO JL = KIDIA,KFDIA |
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247 | ZTAVI(JL)=PTAVE(JL,IKL) |
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248 | ZFACT(JL)=1.0_JPRB-ZTAVI(JL)/296._JPRB |
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249 | ZTCON(JL)=EXP(6.08_JPRB*(296._JPRB/ZTAVI(JL)-1.0_JPRB)) |
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250 | ! ZTCON(JL)=EXP(6.08*ZFACT(JL)) |
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251 | ZTX=ZTAVI(JL)-TREF |
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252 | ZTX2=ZTX*ZTX |
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253 | ZZABLY = ZABLY(JL,1,IAE1)+ZABLY(JL,1,IAE2)+ZABLY(JL,1,IAE3) |
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254 | ZUP=MIN( MAX( 0.5_JPRB*R10E*LOG( ZZABLY ) + 5._JPRB, 0.0_JPRB), 6.0_JPRB) |
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255 | ZCAH1=ALWT(1,1)+ZUP*(ALWT(1,2)+ZUP*(ALWT(1,3))) |
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256 | ZCBH1=BLWT(1,1)+ZUP*(BLWT(1,2)+ZUP*(BLWT(1,3))) |
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257 | ZPSH1(JL)=EXP( ZCAH1 * ZTX + ZCBH1 * ZTX2 ) |
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258 | ZCAH2=ALWT(2,1)+ZUP*(ALWT(2,2)+ZUP*(ALWT(2,3))) |
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259 | ZCBH2=BLWT(2,1)+ZUP*(BLWT(2,2)+ZUP*(BLWT(2,3))) |
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260 | ZPSH2(JL)=EXP( ZCAH2 * ZTX + ZCBH2 * ZTX2 ) |
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261 | ZCAH3=ALWT(3,1)+ZUP*(ALWT(3,2)+ZUP*(ALWT(3,3))) |
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262 | ZCBH3=BLWT(3,1)+ZUP*(BLWT(3,2)+ZUP*(BLWT(3,3))) |
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263 | ZPSH3(JL)=EXP( ZCAH3 * ZTX + ZCBH3 * ZTX2 ) |
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264 | ZCAH4=ALWT(4,1)+ZUP*(ALWT(4,2)+ZUP*(ALWT(4,3))) |
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265 | ZCBH4=BLWT(4,1)+ZUP*(BLWT(4,2)+ZUP*(BLWT(4,3))) |
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266 | ZPSH4(JL)=EXP( ZCAH4 * ZTX + ZCBH4 * ZTX2 ) |
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267 | ZCAH5=ALWT(5,1)+ZUP*(ALWT(5,2)+ZUP*(ALWT(5,3))) |
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268 | ZCBH5=BLWT(5,1)+ZUP*(BLWT(5,2)+ZUP*(BLWT(5,3))) |
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269 | ZPSH5(JL)=EXP( ZCAH5 * ZTX + ZCBH5 * ZTX2 ) |
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270 | ZCAH6=ALWT(6,1)+ZUP*(ALWT(6,2)+ZUP*(ALWT(6,3))) |
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271 | ZCBH6=BLWT(6,1)+ZUP*(BLWT(6,2)+ZUP*(BLWT(6,3))) |
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272 | ZPSH6(JL)=EXP( ZCAH6 * ZTX + ZCBH6 * ZTX2 ) |
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273 | ZPHM6(JL)=EXP(-5.81E-4_JPRB * ZTX - 1.13E-6_JPRB * ZTX2 ) |
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274 | ZPSM6(JL)=EXP(-5.57E-4_JPRB * ZTX - 3.30E-6_JPRB * ZTX2 ) |
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275 | ZPHN6(JL)=EXP(-3.46E-5_JPRB * ZTX + 2.05E-7_JPRB * ZTX2 ) |
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276 | ZPSN6(JL)=EXP( 3.70E-3_JPRB * ZTX - 2.30E-6_JPRB * ZTX2 ) |
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277 | ENDDO |
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278 | |
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279 | DO JL = KIDIA,KFDIA |
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280 | ZTAVI(JL)=PTAVE(JL,IKL) |
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281 | ZTX=ZTAVI(JL)-TREF |
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282 | ZTX2=ZTX*ZTX |
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283 | ZZABLY = ZABLY(JL,3,IAE1)+ZABLY(JL,3,IAE2)+ZABLY(JL,3,IAE3) |
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284 | ZALUP = R10E * LOG ( ZZABLY ) |
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285 | ZUP = MAX( 0.0_JPRB , 5.0_JPRB + 0.5_JPRB * ZALUP ) |
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286 | ZPSC2(JL) = (ZTAVI(JL)/TREF) ** ZUP |
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287 | ZCAC8=ALWT(8,1)+ZUP*(ALWT(8,2)+ZUP*(ALWT(8,3))) |
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288 | ZCBC8=BLWT(8,1)+ZUP*(BLWT(8,2)+ZUP*(BLWT(8,3))) |
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289 | ZPSC3(JL)=EXP( ZCAC8 * ZTX + ZCBC8 * ZTX2 ) |
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290 | ZPHIO(JL) = EXP( RO3T(1) * ZTX + RO3T(2) * ZTX2) |
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291 | ZPSIO(JL) = EXP( 2.0_JPRB* (RO3T(3)*ZTX+RO3T(4)*ZTX2)) |
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292 | ENDDO |
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293 | |
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294 | DO JKK=IJ,IJPN |
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295 | IC=3*KLEV+1-JKK |
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296 | ICP1=IC+1 |
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297 | DO JL = KIDIA,KFDIA |
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298 | ZDIFF = PVIEW(JL) |
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299 | !- H2O continuum |
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300 | PABCU(JL,10,IC)=PABCU(JL,10,ICP1)+ ZABLY(JL,4,IC) *ZDIFF |
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301 | PABCU(JL,11,IC)=PABCU(JL,11,ICP1)+ ZABLY(JL,5,IC)*ZTCON(JL)*ZDIFF |
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302 | !- O3 |
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303 | PABCU(JL,12,IC)=PABCU(JL,12,ICP1)+ ZABLY(JL,6,IC)*ZPHIO(JL)*ZDIFF |
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304 | PABCU(JL,13,IC)=PABCU(JL,13,ICP1)+ ZABLY(JL,7,IC)*ZPSIO(JL)*ZDIFF |
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305 | !- CO2 |
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306 | PABCU(JL,7,IC)=PABCU(JL,7,ICP1)+ ZABLY(JL,3,IC)*ZPSC2(JL)*ZDIFF |
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307 | PABCU(JL,8,IC)=PABCU(JL,8,ICP1)+ ZABLY(JL,3,IC)*ZPSC3(JL)*ZDIFF |
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308 | PABCU(JL,9,IC)=PABCU(JL,9,ICP1)+ ZABLY(JL,3,IC)*ZPSC3(JL)*ZDIFF |
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309 | !- H2O |
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310 | PABCU(JL,1,IC)=PABCU(JL,1,ICP1)+ ZABLY(JL,1,IC)*ZPSH1(JL) |
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311 | PABCU(JL,2,IC)=PABCU(JL,2,ICP1)+ ZABLY(JL,1,IC)*ZPSH2(JL) |
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312 | PABCU(JL,3,IC)=PABCU(JL,3,ICP1)+ ZABLY(JL,1,IC)*ZPSH5(JL)*ZDIFF |
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313 | PABCU(JL,4,IC)=PABCU(JL,4,ICP1)+ ZABLY(JL,1,IC)*ZPSH3(JL) |
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314 | PABCU(JL,5,IC)=PABCU(JL,5,ICP1)+ ZABLY(JL,1,IC)*ZPSH4(JL) |
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315 | PABCU(JL,6,IC)=PABCU(JL,6,ICP1)+ ZABLY(JL,1,IC)*ZPSH6(JL)*ZDIFF |
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316 | !- aerosols |
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317 | PABCU(JL,14,IC)=PABCU(JL,14,ICP1)+ ZUAER(JL,1) *ZDUC(JL,IC)*ZDIFF |
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318 | PABCU(JL,15,IC)=PABCU(JL,15,ICP1)+ ZUAER(JL,2) *ZDUC(JL,IC)*ZDIFF |
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319 | PABCU(JL,16,IC)=PABCU(JL,16,ICP1)+ ZUAER(JL,3) *ZDUC(JL,IC)*ZDIFF |
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320 | PABCU(JL,17,IC)=PABCU(JL,17,ICP1)+ ZUAER(JL,4) *ZDUC(JL,IC)*ZDIFF |
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321 | PABCU(JL,18,IC)=PABCU(JL,18,ICP1)+ ZUAER(JL,5) *ZDUC(JL,IC)*ZDIFF |
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322 | IF (CPPKEY_REPROBUS .AND. type_trac=='repr'.AND. ok_rtime2d) THEN |
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323 | !- CH4 |
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324 | PABCU(JL,19,IC)=PABCU(JL,19,ICP1)& |
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325 | & + ZABLY(JL,2,IC)*RCH42D(JL, IC)/PCCO2*ZPHM6(JL)*ZDIFF |
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326 | PABCU(JL,20,IC)=PABCU(JL,20,ICP1)& |
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327 | & + ZABLY(JL,3,IC)*RCH42D(JL, IC)/PCCO2*ZPSM6(JL)*ZDIFF |
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328 | !- N2O |
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329 | PABCU(JL,21,IC)=PABCU(JL,21,ICP1)& |
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330 | & + ZABLY(JL,2,IC)*RN2O2D(JL, IC)/PCCO2*ZPHN6(JL)*ZDIFF |
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331 | PABCU(JL,22,IC)=PABCU(JL,22,ICP1)& |
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332 | & + ZABLY(JL,3,IC)*RN2O2D(JL, IC)/PCCO2*ZPSN6(JL)*ZDIFF |
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333 | !- CFC11 |
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334 | PABCU(JL,23,IC)=PABCU(JL,23,ICP1)& |
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335 | & + ZABLY(JL,2,IC)*RCFC112D(JL, IC)/PCCO2 *ZDIFF |
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336 | !- CFC12 |
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337 | PABCU(JL,24,IC)=PABCU(JL,24,ICP1)& |
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338 | & + ZABLY(JL,2,IC)*RCFC122D(JL, IC)/PCCO2 *ZDIFF |
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339 | |
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340 | ELSE |
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341 | !- CH4 |
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342 | PABCU(JL,19,IC)=PABCU(JL,19,ICP1)& |
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343 | & + ZABLY(JL,2,IC)*RCH4/PCCO2*ZPHM6(JL)*ZDIFF |
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344 | PABCU(JL,20,IC)=PABCU(JL,20,ICP1)& |
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345 | & + ZABLY(JL,3,IC)*RCH4/PCCO2*ZPSM6(JL)*ZDIFF |
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346 | !- N2O |
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347 | PABCU(JL,21,IC)=PABCU(JL,21,ICP1)& |
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348 | & + ZABLY(JL,2,IC)*RN2O/PCCO2*ZPHN6(JL)*ZDIFF |
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349 | PABCU(JL,22,IC)=PABCU(JL,22,ICP1)& |
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350 | & + ZABLY(JL,3,IC)*RN2O/PCCO2*ZPSN6(JL)*ZDIFF |
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351 | !- CFC11 |
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352 | PABCU(JL,23,IC)=PABCU(JL,23,ICP1)& |
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353 | & + ZABLY(JL,2,IC)*RCFC11/PCCO2 *ZDIFF |
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354 | !- CFC12 |
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355 | PABCU(JL,24,IC)=PABCU(JL,24,ICP1)& |
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356 | & + ZABLY(JL,2,IC)*RCFC12/PCCO2 *ZDIFF |
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357 | END IF |
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358 | ENDDO |
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359 | ENDDO |
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360 | |
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361 | ENDDO |
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362 | ! print *,'END OF LWU' |
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363 | |
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364 | |
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365 | |
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366 | !----------------------------------------------------------------------- |
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367 | |
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368 | IF (LHOOK) CALL DR_HOOK('LWU',1,ZHOOK_HANDLE) |
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369 | END SUBROUTINE LWU |
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