| 1 | SUBROUTINE SUAERV & |
|---|
| 2 | &( KLEV , PETAH & |
|---|
| 3 | &, PVDAES, PVDAEL, PVDAEU, PVDAED & |
|---|
| 4 | &, PTRBGA, PVOBGA, PSTBGA, PAEOPS, PAEOPL, PAEOPU & |
|---|
| 5 | &, PAEOPD, PTRPT , PAEADK, PAEADM, PAEROS & |
|---|
| 6 | &) |
|---|
| 7 | |
|---|
| 8 | |
|---|
| 9 | !**** *SUAERV* - PARAMETERS FOR THE VERTICAL DISTRIBUTIONS OF AEROSOLS. |
|---|
| 10 | |
|---|
| 11 | ! PURPOSE. |
|---|
| 12 | ! -------- |
|---|
| 13 | |
|---|
| 14 | ! THIS ROUTINE COMPUTES THE VALUES *PVDAEN* (*N=*S,*L,*U OR *D |
|---|
| 15 | ! FOR SEA,LAND,URBAN OR DESERT) OF A SURFACE-NORMALISED VERTICAL |
|---|
| 16 | ! DISTRIBUTION OF AEROSOLS' OPTICAL DEPHTS FROM THE ARGUMENT *PETAH* |
|---|
| 17 | ! (VERTICAL COORDINATE) AT *KLEVP1* LEVELS. IT ALSO SETS VALUES FOR |
|---|
| 18 | ! NON-GEOGRAPHICALLY WEIGHTED TOTAL OPTICAL DEPTHS (AT 0.55 E-06 |
|---|
| 19 | ! WAVE-LENGTH) *PAEOPN* FOR THE SAME FOUR TYPES AND SIMILEAR OPTICAL |
|---|
| 20 | ! DEPHTS DIVIDED BY PRESSURE FOR BACKGROUND WELL-MIXED AEROSOLS |
|---|
| 21 | ! OF THREE TYPES *PMNBGA* (*MN*=*TR*,*VO* OR *ST* FOR TROPOSPHERIC, |
|---|
| 22 | ! VOLCANIC (STRATOSPHERIC ASHES) OR STRATOSPHERIC (SULFURIC TYPE)). |
|---|
| 23 | ! IT FINALLY SET VALUES FOR THE POWER TO BE APPLIED TO A TEMPERATURE |
|---|
| 24 | ! RATIO SMALLER THAN ONE IN ORDER TO OBTAIN AN IDEX ONE IN THE |
|---|
| 25 | ! STRATOSPHERE AND ZERO IN THE TROPOSPHERE WITH A RELATIVELY SMOOTH |
|---|
| 26 | ! TRANSITION (*PTRPT*), AS WELL AS FOR ADSORPTION COEFFICIENTS FOR |
|---|
| 27 | ! WATER TO THE THREE TYPE OF TROPOSPHERIC AEROSOLS (*PAEADK*) WITH |
|---|
| 28 | ! A MINIMUM VALUE (IN THE WHOLE ATMOSPHERE) FOR THE SUM OF THE |
|---|
| 29 | ! PRODUCTS OF *PAEADK* BY THE OPTICAL DEPTHS DIVIDED BY PRESURE |
|---|
| 30 | ! THICKNESS: *PAEADM*. |
|---|
| 31 | |
|---|
| 32 | !** INTERFACE. |
|---|
| 33 | ! ---------- |
|---|
| 34 | |
|---|
| 35 | ! *SUAERV* IS CALLED FROM *SUECRAD*. |
|---|
| 36 | ! THERE ARE SIXTEEN DUMMY ARGUMENTS: *PETAH* IS THE VERTICAL |
|---|
| 37 | ! COORDINATE. |
|---|
| 38 | ! *PVDAEN* (*N=*S,*L,*U OR |
|---|
| 39 | ! *D) ARE THE NORMALISED VERTICAL DISTRIBUTIONS. |
|---|
| 40 | ! *KLEVP1* IS THE NUMBER OF |
|---|
| 41 | ! LEVELS. |
|---|
| 42 | ! *PMNBGA* (*MN*=*TR*,*VO* |
|---|
| 43 | ! OR *ST*) ARE THE BACKGROUND OPTICAL DEPTHS DIVIDED BY PRESSURE. |
|---|
| 44 | ! *PAEOPN* (*N=*S,*L,*U OR |
|---|
| 45 | ! *D) ARE THE TOTAL OPTICAL DEPHTS FOR THE VERTICALLY VARYING |
|---|
| 46 | ! AEROSOLS. |
|---|
| 47 | ! *PTRPT* IS THE TEMPERATURE |
|---|
| 48 | ! EXPONENT FOR THE STRATOSPHERIC DEFINITION. |
|---|
| 49 | ! *PAEADK* (1,2,3) AND |
|---|
| 50 | ! AND *PAEADM* ARE THE CONSTANTS FOR THE DEFINITION OF THE QUANTITY |
|---|
| 51 | ! OF WATER VAPOUR THAT WILL BE ADSORBED TO THE DRY AEROSOLS TO FORM |
|---|
| 52 | ! MOIST AEROSOLS. |
|---|
| 53 | |
|---|
| 54 | ! METHOD. |
|---|
| 55 | ! ------- |
|---|
| 56 | |
|---|
| 57 | ! STRAIGHTFORWARD, EQUIVALENT HEIGTHS ARE GIVEN IN METERS (8434 |
|---|
| 58 | ! FOR THE ATMOSPHERE) AND TROPOSPHERIC AND STRATOSPHERIC PRESSURE |
|---|
| 59 | ! BOUNDARY VALUES ARE SET AT 101325 AND 19330 *PASCAL. |
|---|
| 60 | |
|---|
| 61 | ! EXTERNALS. |
|---|
| 62 | ! ---------- |
|---|
| 63 | |
|---|
| 64 | ! NONE. |
|---|
| 65 | |
|---|
| 66 | ! REFERENCE. |
|---|
| 67 | ! ---------- |
|---|
| 68 | |
|---|
| 69 | ! NONE. |
|---|
| 70 | |
|---|
| 71 | ! AUTHOR |
|---|
| 72 | ! ------ |
|---|
| 73 | ! J.-F. GELEYN E.C.M.W.F. 04/11/82. |
|---|
| 74 | |
|---|
| 75 | ! MODIFICATIONS |
|---|
| 76 | ! ------------- |
|---|
| 77 | ! J.-J. MORCRETTE E.C.M.W.F. 91/07/14 ADAPTATION TO I.F.S. |
|---|
| 78 | ! JJ Morcrette 960903 block data SUAERH moved after end of SUAERV |
|---|
| 79 | |
|---|
| 80 | ! ------------------------------------------------------------------ |
|---|
| 81 | |
|---|
| 82 | |
|---|
| 83 | |
|---|
| 84 | #include "tsmbkind.h" |
|---|
| 85 | |
|---|
| 86 | IMPLICIT NONE |
|---|
| 87 | |
|---|
| 88 | |
|---|
| 89 | ! DUMMY INTEGER SCALARS |
|---|
| 90 | INTEGER_M :: KLEV |
|---|
| 91 | |
|---|
| 92 | ! DUMMY REAL SCALARS |
|---|
| 93 | REAL_B :: PAEADM |
|---|
| 94 | REAL_B :: PAEOPD |
|---|
| 95 | REAL_B :: PAEOPL |
|---|
| 96 | REAL_B :: PAEOPS |
|---|
| 97 | REAL_B :: PAEOPU |
|---|
| 98 | REAL_B :: PAEROS |
|---|
| 99 | REAL_B :: PSTBGA |
|---|
| 100 | REAL_B :: PTRBGA |
|---|
| 101 | REAL_B :: PTRPT |
|---|
| 102 | REAL_B :: PVOBGA |
|---|
| 103 | |
|---|
| 104 | |
|---|
| 105 | ! ------------------------------------------------------------------ |
|---|
| 106 | REAL_B :: PETAH(KLEV+1) |
|---|
| 107 | |
|---|
| 108 | REAL_B :: PVDAES(KLEV+1),PVDAEL(KLEV+1),PVDAEU(KLEV+1),PVDAED(KLEV+1) |
|---|
| 109 | REAL_B :: PAEADK(3) |
|---|
| 110 | |
|---|
| 111 | ! LOCAL INTEGER SCALARS |
|---|
| 112 | INTEGER_M :: JK |
|---|
| 113 | |
|---|
| 114 | ! LOCAL REAL SCALARS |
|---|
| 115 | REAL_B :: ZHSD, ZHSL, ZHSS, ZHSU |
|---|
| 116 | |
|---|
| 117 | |
|---|
| 118 | ! ------------------------------------------------------------------ |
|---|
| 119 | |
|---|
| 120 | |
|---|
| 121 | !* 1. COMPUTATIONS. |
|---|
| 122 | ! ------------- |
|---|
| 123 | |
|---|
| 124 | |
|---|
| 125 | ZHSS=MAX(_ONE_,8434._JPRB/1000._JPRB) |
|---|
| 126 | ZHSL=MAX(_ONE_,8434._JPRB/1000._JPRB) |
|---|
| 127 | ZHSU=MAX(_ONE_,8434._JPRB/1000._JPRB) |
|---|
| 128 | ZHSD=MAX(_ONE_,8434._JPRB/3000._JPRB) |
|---|
| 129 | PVDAES(1)=0._JPRB |
|---|
| 130 | PVDAEL(1)=0._JPRB |
|---|
| 131 | PVDAEU(1)=0._JPRB |
|---|
| 132 | PVDAED(1)=0._JPRB |
|---|
| 133 | |
|---|
| 134 | ! Martin CONTROL |
|---|
| 135 | !PRINT*,'Control SUAERV' |
|---|
| 136 | !PRINT*,'=PVDAES(1)=',PVDAES(1) |
|---|
| 137 | !PRINT*,'PETAH(1)=',PETAH(1) |
|---|
| 138 | !PRINT*,'PETAH=',PETAH |
|---|
| 139 | !PRINT*,'ZHSS=',ZHSS |
|---|
| 140 | !PRINT*,'End Control SUAERV' |
|---|
| 141 | ! Martin END CONTROL |
|---|
| 142 | |
|---|
| 143 | IF(PETAH(1) /= _ZERO_) THEN |
|---|
| 144 | PVDAES(1)=PETAH(1)**ZHSS |
|---|
| 145 | PVDAEL(1)=PETAH(1)**ZHSL |
|---|
| 146 | PVDAEU(1)=PETAH(1)**ZHSU |
|---|
| 147 | PVDAED(1)=PETAH(1)**ZHSD |
|---|
| 148 | ENDIF |
|---|
| 149 | DO JK=2,KLEV+1 |
|---|
| 150 | PVDAES(JK)=PETAH(JK)**ZHSS |
|---|
| 151 | PVDAEL(JK)=PETAH(JK)**ZHSL |
|---|
| 152 | PVDAEU(JK)=PETAH(JK)**ZHSU |
|---|
| 153 | PVDAED(JK)=PETAH(JK)**ZHSD |
|---|
| 154 | ENDDO |
|---|
| 155 | PTRBGA= 0.03_JPRB/(101325._JPRB-19330._JPRB) |
|---|
| 156 | PVOBGA= 0.007_JPRB/19330._JPRB |
|---|
| 157 | PSTBGA= 0.045_JPRB/19330._JPRB |
|---|
| 158 | PAEOPS= 0.05_JPRB |
|---|
| 159 | PAEOPL= 0.2_JPRB |
|---|
| 160 | PAEOPU= 0.1_JPRB |
|---|
| 161 | PAEOPD= 1.9_JPRB |
|---|
| 162 | PTRPT = 30._JPRB |
|---|
| 163 | PAEADK(1)=+.3876E-03_JPRB |
|---|
| 164 | PAEADK(2)=+.6693E-02_JPRB |
|---|
| 165 | PAEADK(3)=+.8563E-03_JPRB |
|---|
| 166 | PAEADM = 2.6E-10_JPRB |
|---|
| 167 | |
|---|
| 168 | PAEROS = 0.1462E-16_JPRB |
|---|
| 169 | |
|---|
| 170 | ! ------------------------------------------------------------------ |
|---|
| 171 | |
|---|
| 172 | RETURN |
|---|
| 173 | END SUBROUTINE SUAERV |
|---|
