[1160] | 1 | SUBROUTINE radlwsw( & |
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[1159] | 2 | dist, rmu0, fract, & |
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| 3 | paprs, pplay,tsol,alb1, alb2, & |
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[1150] | 4 | t,q,wo,& |
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| 5 | cldfra, cldemi, cldtaupd,& |
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| 6 | ok_ade, ok_aie,& |
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| 7 | tau_aero, piz_aero, cg_aero,& |
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| 8 | cldtaupi, new_aod, & |
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[1159] | 9 | qsat, flwc, fiwc, & |
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[1150] | 10 | heat,heat0,cool,cool0,radsol,albpla,& |
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| 11 | topsw,toplw,solsw,sollw,& |
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| 12 | sollwdown,& |
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| 13 | topsw0,toplw0,solsw0,sollw0,& |
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| 14 | lwdn0, lwdn, lwup0, lwup,& |
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| 15 | swdn0, swdn, swup0, swup,& |
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| 16 | topswad_aero, solswad_aero,& |
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| 17 | topswai_aero, solswai_aero, & |
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| 18 | topswad0_aero, solswad0_aero,& |
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| 19 | topsw_aero, topsw0_aero,& |
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| 20 | solsw_aero, solsw0_aero) |
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[524] | 21 | |
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[1150] | 22 | |
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| 23 | |
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| 24 | USE DIMPHY |
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| 25 | |
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| 26 | IMPLICIT NONE |
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| 27 | !====================================================================== |
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| 28 | ! Auteur(s): Z.X. Li (LMD/CNRS) date: 19960719 |
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| 29 | ! Objet: interface entre le modele et les rayonnements |
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| 30 | ! Arguments: |
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| 31 | ! dist-----input-R- distance astronomique terre-soleil |
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| 32 | ! rmu0-----input-R- cosinus de l'angle zenithal |
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| 33 | ! fract----input-R- duree d'ensoleillement normalisee |
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| 34 | ! co2_ppm--input-R- concentration du gaz carbonique (en ppm) |
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| 35 | ! paprs----input-R- pression a inter-couche (Pa) |
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| 36 | ! pplay----input-R- pression au milieu de couche (Pa) |
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| 37 | ! tsol-----input-R- temperature du sol (en K) |
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[1159] | 38 | ! alb1-----input-R- albedo du sol(entre 0 et 1) dans l'interval visible |
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| 39 | ! alb2-----input-R- albedo du sol(entre 0 et 1) dans l'interval proche infra-rouge |
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[1150] | 40 | ! t--------input-R- temperature (K) |
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| 41 | ! q--------input-R- vapeur d'eau (en kg/kg) |
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| 42 | ! wo-------input-R- contenu en ozone (en kg/kg) correction MPL 100505 |
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| 43 | ! cldfra---input-R- fraction nuageuse (entre 0 et 1) |
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| 44 | ! cldtaupd---input-R- epaisseur optique des nuages dans le visible (present-day value) |
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| 45 | ! cldemi---input-R- emissivite des nuages dans l'IR (entre 0 et 1) |
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| 46 | ! ok_ade---input-L- apply the Aerosol Direct Effect or not? |
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| 47 | ! ok_aie---input-L- apply the Aerosol Indirect Effect or not? |
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| 48 | ! tau_ae, piz_ae, cg_ae-input-R- aerosol optical properties (calculated in aeropt.F) |
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| 49 | ! cldtaupi-input-R- epaisseur optique des nuages dans le visible |
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| 50 | ! calculated for pre-industrial (pi) aerosol concentrations, i.e. with smaller |
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| 51 | ! droplet concentration, thus larger droplets, thus generally cdltaupi cldtaupd |
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| 52 | ! it is needed for the diagnostics of the aerosol indirect radiative forcing |
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| 53 | ! |
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| 54 | ! heat-----output-R- echauffement atmospherique (visible) (K/jour) |
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| 55 | ! cool-----output-R- refroidissement dans l'IR (K/jour) |
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| 56 | ! radsol---output-R- bilan radiatif net au sol (W/m**2) (+ vers le bas) |
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| 57 | ! albpla---output-R- albedo planetaire (entre 0 et 1) |
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| 58 | ! topsw----output-R- flux solaire net au sommet de l'atm. |
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| 59 | ! toplw----output-R- ray. IR montant au sommet de l'atmosphere |
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| 60 | ! solsw----output-R- flux solaire net a la surface |
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| 61 | ! sollw----output-R- ray. IR montant a la surface |
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| 62 | ! solswad---output-R- ray. solaire net absorbe a la surface (aerosol dir) |
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| 63 | ! topswad---output-R- ray. solaire absorbe au sommet de l'atm. (aerosol dir) |
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| 64 | ! solswai---output-R- ray. solaire net absorbe a la surface (aerosol ind) |
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| 65 | ! topswai---output-R- ray. solaire absorbe au sommet de l'atm. (aerosol ind) |
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| 66 | ! |
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| 67 | ! ATTENTION: swai and swad have to be interpreted in the following manner: |
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| 68 | ! --------- |
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| 69 | ! ok_ade=F & ok_aie=F -both are zero |
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| 70 | ! ok_ade=T & ok_aie=F -aerosol direct forcing is F_{AD} = topsw-topswad |
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| 71 | ! indirect is zero |
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| 72 | ! ok_ade=F & ok_aie=T -aerosol indirect forcing is F_{AI} = topsw-topswai |
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| 73 | ! direct is zero |
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| 74 | ! ok_ade=T & ok_aie=T -aerosol indirect forcing is F_{AI} = topsw-topswai |
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| 75 | ! aerosol direct forcing is F_{AD} = topswai-topswad |
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| 76 | ! |
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| 77 | |
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| 78 | !====================================================================== |
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| 79 | |
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| 80 | ! ==================================================================== |
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| 81 | ! Adapte au modele de chimie INCA par Celine Deandreis & Anne Cozic -- 2009 |
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| 82 | ! 1 = ZERO |
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| 83 | ! 2 = AER total |
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| 84 | ! 3 = NAT |
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| 85 | ! 4 = BC |
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| 86 | ! 5 = SO4 |
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| 87 | ! 6 = POM |
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| 88 | ! 7 = DUST |
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| 89 | ! 8 = SS |
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| 90 | ! 9 = NO3 |
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| 91 | ! |
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| 92 | ! ==================================================================== |
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| 93 | include "YOETHF.h" |
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| 94 | include "YOMCST.h" |
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[1159] | 95 | include "clesphys.h" |
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| 96 | include "iniprint.h" |
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[1150] | 97 | |
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| 98 | ! Input arguments |
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| 99 | REAL, INTENT(in) :: dist |
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| 100 | REAL, INTENT(in) :: rmu0(KLON), fract(KLON) |
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| 101 | REAL, INTENT(in) :: paprs(KLON,KLEV+1), pplay(KLON,KLEV) |
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[1159] | 102 | REAL, INTENT(in) :: alb1(KLON), alb2(KLON), tsol(KLON) |
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[1150] | 103 | REAL, INTENT(in) :: t(KLON,KLEV), q(KLON,KLEV), wo(KLON,KLEV) |
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| 104 | LOGICAL, INTENT(in) :: ok_ade, ok_aie ! switches whether to use aerosol direct (indirect) effects or not |
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| 105 | REAL, INTENT(in) :: cldfra(KLON,KLEV), cldemi(KLON,KLEV), cldtaupd(KLON,KLEV) |
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| 106 | REAL, INTENT(in) :: tau_aero(KLON,KLEV,9,2) ! aerosol optical properties (see aeropt.F) |
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| 107 | REAL, INTENT(in) :: piz_aero(KLON,KLEV,9,2) ! aerosol optical properties (see aeropt.F) |
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| 108 | REAL, INTENT(in) :: cg_aero(KLON,KLEV,9,2) ! aerosol optical properties (see aeropt.F) |
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| 109 | REAL, INTENT(in) :: cldtaupi(KLON,KLEV) ! cloud optical thickness for pre-industrial aerosol concentrations |
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| 110 | LOGICAL, INTENT(in) :: new_aod ! flag pour retrouver les resultats exacts de l'AR4 dans le cas ou l'on ne travaille qu'avec les sulfates |
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[1159] | 111 | REAL, INTENT(in) :: qsat(klon,klev) ! Variable pour iflag_rrtm=1 |
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| 112 | REAL, INTENT(in) :: flwc(klon,klev) ! Variable pour iflag_rrtm=1 |
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| 113 | REAL, INTENT(in) :: fiwc(klon,klev) ! Variable pour iflag_rrtm=1 |
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[1150] | 114 | |
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| 115 | ! Output arguments |
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| 116 | REAL, INTENT(out) :: heat(KLON,KLEV), cool(KLON,KLEV) |
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| 117 | REAL, INTENT(out) :: heat0(KLON,KLEV), cool0(KLON,KLEV) |
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| 118 | REAL, INTENT(out) :: radsol(KLON), topsw(KLON), toplw(KLON) |
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| 119 | REAL, INTENT(out) :: solsw(KLON), sollw(KLON), albpla(KLON) |
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| 120 | REAL, INTENT(out) :: topsw0(KLON), toplw0(KLON), solsw0(KLON), sollw0(KLON) |
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| 121 | REAL, INTENT(out) :: sollwdown(KLON) |
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| 122 | REAL, INTENT(out) :: swdn(KLON,kflev+1),swdn0(KLON,kflev+1) |
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| 123 | REAL, INTENT(out) :: swup(KLON,kflev+1),swup0(KLON,kflev+1) |
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| 124 | REAL, INTENT(out) :: lwdn(KLON,kflev+1),lwdn0(KLON,kflev+1) |
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| 125 | REAL, INTENT(out) :: lwup(KLON,kflev+1),lwup0(KLON,kflev+1) |
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| 126 | REAL, INTENT(out) :: topswad_aero(KLON), solswad_aero(KLON) ! output: aerosol direct forcing at TOA and surface |
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| 127 | REAL, INTENT(out) :: topswai_aero(KLON), solswai_aero(KLON) ! output: aerosol indirect forcing atTOA and surface |
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| 128 | REAL, DIMENSION(klon), INTENT(out) :: topswad0_aero |
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| 129 | REAL, DIMENSION(klon), INTENT(out) :: solswad0_aero |
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| 130 | REAL, DIMENSION(kdlon,9), INTENT(out) :: topsw_aero |
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| 131 | REAL, DIMENSION(kdlon,9), INTENT(out) :: topsw0_aero |
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| 132 | REAL, DIMENSION(kdlon,9), INTENT(out) :: solsw_aero |
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| 133 | REAL, DIMENSION(kdlon,9), INTENT(out) :: solsw0_aero |
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| 134 | |
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| 135 | ! Local variables |
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| 136 | REAL*8 ZFSUP(KDLON,KFLEV+1) |
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| 137 | REAL*8 ZFSDN(KDLON,KFLEV+1) |
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| 138 | REAL*8 ZFSUP0(KDLON,KFLEV+1) |
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| 139 | REAL*8 ZFSDN0(KDLON,KFLEV+1) |
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| 140 | REAL*8 ZFLUP(KDLON,KFLEV+1) |
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| 141 | REAL*8 ZFLDN(KDLON,KFLEV+1) |
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| 142 | REAL*8 ZFLUP0(KDLON,KFLEV+1) |
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| 143 | REAL*8 ZFLDN0(KDLON,KFLEV+1) |
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| 144 | REAL*8 zx_alpha1, zx_alpha2 |
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| 145 | INTEGER k, kk, i, j, iof, nb_gr |
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| 146 | REAL*8 PSCT |
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| 147 | REAL*8 PALBD(kdlon,2), PALBP(kdlon,2) |
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| 148 | REAL*8 PEMIS(kdlon), PDT0(kdlon), PVIEW(kdlon) |
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| 149 | REAL*8 PPSOL(kdlon), PDP(kdlon,KLEV) |
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| 150 | REAL*8 PTL(kdlon,kflev+1), PPMB(kdlon,kflev+1) |
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| 151 | REAL*8 PTAVE(kdlon,kflev) |
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| 152 | REAL*8 PWV(kdlon,kflev), PQS(kdlon,kflev), POZON(kdlon,kflev) |
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| 153 | REAL*8 PAER(kdlon,kflev,5) |
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| 154 | REAL*8 PCLDLD(kdlon,kflev) |
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| 155 | REAL*8 PCLDLU(kdlon,kflev) |
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| 156 | REAL*8 PCLDSW(kdlon,kflev) |
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| 157 | REAL*8 PTAU(kdlon,2,kflev) |
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| 158 | REAL*8 POMEGA(kdlon,2,kflev) |
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| 159 | REAL*8 PCG(kdlon,2,kflev) |
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| 160 | REAL*8 zfract(kdlon), zrmu0(kdlon), zdist |
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| 161 | REAL*8 zheat(kdlon,kflev), zcool(kdlon,kflev) |
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| 162 | REAL*8 zheat0(kdlon,kflev), zcool0(kdlon,kflev) |
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| 163 | REAL*8 ztopsw(kdlon), ztoplw(kdlon) |
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| 164 | REAL*8 zsolsw(kdlon), zsollw(kdlon), zalbpla(kdlon) |
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| 165 | REAL*8 zsollwdown(kdlon) |
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| 166 | REAL*8 ztopsw0(kdlon), ztoplw0(kdlon) |
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| 167 | REAL*8 zsolsw0(kdlon), zsollw0(kdlon) |
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| 168 | REAL*8 zznormcp |
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| 169 | REAL*8 tauaero(kdlon,kflev,9,2) ! aer opt properties |
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| 170 | REAL*8 pizaero(kdlon,kflev,9,2) |
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| 171 | REAL*8 cgaero(kdlon,kflev,9,2) |
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| 172 | REAL*8 PTAUA(kdlon,2,kflev) ! present-day value of cloud opt thickness (PTAU is pre-industrial value), local use |
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| 173 | REAL*8 POMEGAA(kdlon,2,kflev) ! dito for single scatt albedo |
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| 174 | REAL*8 ztopswadaero(kdlon), zsolswadaero(kdlon) ! Aerosol direct forcing at TOAand surface |
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| 175 | REAL*8 ztopswad0aero(kdlon), zsolswad0aero(kdlon) ! Aerosol direct forcing at TOAand surface |
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| 176 | REAL*8 ztopswaiaero(kdlon), zsolswaiaero(kdlon) ! dito, indirect |
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| 177 | REAL*8 ztopsw_aero(kdlon,9), ztopsw0_aero(kdlon,9) |
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| 178 | REAL*8 zsolsw_aero(kdlon,9), zsolsw0_aero(kdlon,9) |
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| 179 | |
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| 180 | ! initialisation |
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| 181 | tauaero(:,:,:,:)=0. |
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| 182 | pizaero(:,:,:,:)=0. |
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| 183 | cgaero(:,:,:,:)=0. |
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| 184 | |
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| 185 | ! |
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| 186 | !------------------------------------------- |
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| 187 | nb_gr = KLON / kdlon |
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| 188 | IF (nb_gr*kdlon .NE. KLON) THEN |
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| 189 | PRINT*, "kdlon mauvais:", KLON, kdlon, nb_gr |
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| 190 | CALL abort |
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| 191 | ENDIF |
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| 192 | IF (kflev .NE. KLEV) THEN |
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| 193 | PRINT*, "kflev differe de KLEV, kflev, KLEV" |
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| 194 | CALL abort |
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| 195 | ENDIF |
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| 196 | !------------------------------------------- |
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| 197 | DO k = 1, KLEV |
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| 198 | DO i = 1, KLON |
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| 199 | heat(i,k)=0. |
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| 200 | cool(i,k)=0. |
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| 201 | heat0(i,k)=0. |
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| 202 | cool0(i,k)=0. |
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| 203 | ENDDO |
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| 204 | ENDDO |
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| 205 | ! |
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| 206 | zdist = dist |
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| 207 | ! |
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| 208 | PSCT = solaire/zdist/zdist |
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| 209 | DO j = 1, nb_gr |
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| 210 | iof = kdlon*(j-1) |
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| 211 | DO i = 1, kdlon |
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| 212 | zfract(i) = fract(iof+i) |
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| 213 | zrmu0(i) = rmu0(iof+i) |
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[1159] | 214 | PALBD(i,1) = alb1(iof+i) |
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| 215 | PALBD(i,2) = alb2(iof+i) |
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| 216 | PALBP(i,1) = alb1(iof+i) |
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| 217 | PALBP(i,2) = alb2(iof+i) |
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[1150] | 218 | PEMIS(i) = 1.0 |
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| 219 | PVIEW(i) = 1.66 |
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| 220 | PPSOL(i) = paprs(iof+i,1) |
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| 221 | zx_alpha1 = (paprs(iof+i,1)-pplay(iof+i,2))/(pplay(iof+i,1)-pplay(iof+i,2)) |
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| 222 | zx_alpha2 = 1.0 - zx_alpha1 |
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| 223 | PTL(i,1) = t(iof+i,1) * zx_alpha1 + t(iof+i,2) * zx_alpha2 |
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| 224 | PTL(i,KLEV+1) = t(iof+i,KLEV) |
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| 225 | PDT0(i) = tsol(iof+i) - PTL(i,1) |
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| 226 | ENDDO |
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| 227 | DO k = 2, kflev |
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[524] | 228 | DO i = 1, kdlon |
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[1150] | 229 | PTL(i,k) = (t(iof+i,k)+t(iof+i,k-1))*0.5 |
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[524] | 230 | ENDDO |
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[1150] | 231 | ENDDO |
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| 232 | DO k = 1, kflev |
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[524] | 233 | DO i = 1, kdlon |
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[1150] | 234 | PDP(i,k) = paprs(iof+i,k)-paprs(iof+i,k+1) |
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| 235 | PTAVE(i,k) = t(iof+i,k) |
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| 236 | PWV(i,k) = MAX (q(iof+i,k), 1.0e-12) |
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| 237 | PQS(i,k) = PWV(i,k) |
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| 238 | ! wo: cm.atm (epaisseur en cm dans la situation standard) |
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| 239 | ! POZON: kg/kg |
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| 240 | POZON(i,k) = MAX(wo(iof+i,k),1.0e-12)*RG/46.6968 & |
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| 241 | /(paprs(iof+i,k)-paprs(iof+i,k+1))& |
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| 242 | *(paprs(iof+i,1)/101325.0) |
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| 243 | PCLDLD(i,k) = cldfra(iof+i,k)*cldemi(iof+i,k) |
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| 244 | PCLDLU(i,k) = cldfra(iof+i,k)*cldemi(iof+i,k) |
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| 245 | PCLDSW(i,k) = cldfra(iof+i,k) |
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| 246 | PTAU(i,1,k) = MAX(cldtaupi(iof+i,k), 1.0e-05)! 1e-12 serait instable |
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| 247 | PTAU(i,2,k) = MAX(cldtaupi(iof+i,k), 1.0e-05)! pour 32-bit machines |
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| 248 | POMEGA(i,1,k) = 0.9999 - 5.0e-04 * EXP(-0.5 * PTAU(i,1,k)) |
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| 249 | POMEGA(i,2,k) = 0.9988 - 2.5e-03 * EXP(-0.05 * PTAU(i,2,k)) |
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| 250 | PCG(i,1,k) = 0.865 |
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| 251 | PCG(i,2,k) = 0.910 |
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| 252 | !- |
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| 253 | ! Introduced for aerosol indirect forcings. |
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| 254 | ! The following values use the cloud optical thickness calculated from |
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| 255 | ! present-day aerosol concentrations whereas the quantities without the |
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| 256 | ! "A" at the end are for pre-industial (natural-only) aerosol concentrations |
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| 257 | ! |
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| 258 | PTAUA(i,1,k) = MAX(cldtaupd(iof+i,k), 1.0e-05)! 1e-12 serait instable |
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| 259 | PTAUA(i,2,k) = MAX(cldtaupd(iof+i,k), 1.0e-05)! pour 32-bit machines |
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| 260 | POMEGAA(i,1,k) = 0.9999 - 5.0e-04 * EXP(-0.5 * PTAUA(i,1,k)) |
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| 261 | POMEGAA(i,2,k) = 0.9988 - 2.5e-03 * EXP(-0.05 * PTAUA(i,2,k)) |
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[524] | 262 | ENDDO |
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[1150] | 263 | ENDDO |
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| 264 | ! |
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| 265 | DO k = 1, kflev+1 |
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[524] | 266 | DO i = 1, kdlon |
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[1150] | 267 | PPMB(i,k) = paprs(iof+i,k)/100.0 |
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[524] | 268 | ENDDO |
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[1150] | 269 | ENDDO |
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| 270 | ! |
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| 271 | DO kk = 1, 5 |
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[524] | 272 | DO k = 1, kflev |
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[1150] | 273 | DO i = 1, kdlon |
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| 274 | PAER(i,k,kk) = 1.0E-15 |
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| 275 | ENDDO |
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[524] | 276 | ENDDO |
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[1150] | 277 | ENDDO |
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| 278 | DO k = 1, kflev |
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[524] | 279 | DO i = 1, kdlon |
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[1150] | 280 | tauaero(i,k,:,1)=tau_aero(iof+i,k,:,1) |
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| 281 | pizaero(i,k,:,1)=piz_aero(iof+i,k,:,1) |
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| 282 | cgaero(i,k,:,1) =cg_aero(iof+i,k,:,1) |
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| 283 | tauaero(i,k,:,2)=tau_aero(iof+i,k,:,2) |
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| 284 | pizaero(i,k,:,2)=piz_aero(iof+i,k,:,2) |
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| 285 | cgaero(i,k,:,2) =cg_aero(iof+i,k,:,2) |
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[524] | 286 | ENDDO |
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[1150] | 287 | ENDDO |
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| 288 | |
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[1159] | 289 | ! |
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| 290 | !===== iflag_rrtm ================================================ |
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| 291 | ! |
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| 292 | IF (iflag_rrtm == 0) THEN |
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| 293 | ! Old radiation scheme, used for AR4 runs |
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| 294 | CALL LW_LMDAR4(& |
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| 295 | PPMB, PDP,& |
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| 296 | PPSOL,PDT0,PEMIS,& |
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| 297 | PTL, PTAVE, PWV, POZON, PAER,& |
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| 298 | PCLDLD,PCLDLU,& |
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| 299 | PVIEW,& |
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| 300 | zcool, zcool0,& |
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| 301 | ztoplw,zsollw,ztoplw0,zsollw0,& |
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| 302 | zsollwdown,& |
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| 303 | ZFLUP, ZFLDN, ZFLUP0,ZFLDN0) |
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[1150] | 304 | |
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| 305 | |
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[1159] | 306 | IF (.NOT. new_aod) THEN |
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| 307 | ! use old version |
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| 308 | CALL SW_LMDAR4(PSCT, zrmu0, zfract,& |
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| 309 | PPMB, PDP, & |
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| 310 | PPSOL, PALBD, PALBP,& |
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| 311 | PTAVE, PWV, PQS, POZON, PAER,& |
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| 312 | PCLDSW, PTAU, POMEGA, PCG,& |
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| 313 | zheat, zheat0,& |
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| 314 | zalbpla,ztopsw,zsolsw,ztopsw0,zsolsw0,& |
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| 315 | ZFSUP,ZFSDN,ZFSUP0,ZFSDN0,& |
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| 316 | tau_aero(:,:,5,:), piz_aero(:,:,5,:), cg_aero(:,:,5,:),& |
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| 317 | PTAUA, POMEGAA,& |
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| 318 | ztopswadaero,zsolswadaero,& |
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| 319 | ztopswaiaero,zsolswaiaero,& |
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| 320 | ok_ade, ok_aie) |
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| 321 | |
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| 322 | ELSE ! new_aod=T |
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| 323 | CALL SW_AEROAR4(PSCT, zrmu0, zfract,& |
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| 324 | PPMB, PDP,& |
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| 325 | PPSOL, PALBD, PALBP,& |
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| 326 | PTAVE, PWV, PQS, POZON, PAER,& |
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| 327 | PCLDSW, PTAU, POMEGA, PCG,& |
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| 328 | zheat, zheat0,& |
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| 329 | zalbpla,ztopsw,zsolsw,ztopsw0,zsolsw0,& |
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| 330 | ZFSUP,ZFSDN,ZFSUP0,ZFSDN0,& |
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| 331 | tauaero, pizaero, cgaero, & |
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| 332 | PTAUA, POMEGAA,& |
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| 333 | ztopswadaero,zsolswadaero,& |
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| 334 | ztopswad0aero,zsolswad0aero,& |
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| 335 | ztopswaiaero,zsolswaiaero, & |
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| 336 | ztopsw_aero,ztopsw0_aero,& |
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| 337 | zsolsw_aero,zsolsw0_aero,& |
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| 338 | ok_ade, ok_aie) |
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| 339 | |
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| 340 | ENDIF |
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| 341 | |
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| 342 | ELSE |
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| 343 | !===== iflag_rrtm=1, on passe dans SW via RECMWFL =============== |
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| 344 | WRITE(lunout,*) "Option iflag_rrtm=T ne fonctionne pas encore !!!" |
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[1160] | 345 | CALL abort_gcm('radlwsw','iflag_rrtm=T not valid',1) |
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[1159] | 346 | |
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| 347 | ENDIF ! iflag_rrtm |
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| 348 | !====================================================================== |
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| 349 | |
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[1150] | 350 | DO i = 1, kdlon |
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| 351 | radsol(iof+i) = zsolsw(i) + zsollw(i) |
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| 352 | topsw(iof+i) = ztopsw(i) |
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| 353 | toplw(iof+i) = ztoplw(i) |
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| 354 | solsw(iof+i) = zsolsw(i) |
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| 355 | sollw(iof+i) = zsollw(i) |
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| 356 | sollwdown(iof+i) = zsollwdown(i) |
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| 357 | DO k = 1, kflev+1 |
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| 358 | lwdn0 ( iof+i,k) = ZFLDN0 ( i,k) |
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| 359 | lwdn ( iof+i,k) = ZFLDN ( i,k) |
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| 360 | lwup0 ( iof+i,k) = ZFLUP0 ( i,k) |
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| 361 | lwup ( iof+i,k) = ZFLUP ( i,k) |
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[524] | 362 | ENDDO |
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[1150] | 363 | topsw0(iof+i) = ztopsw0(i) |
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| 364 | toplw0(iof+i) = ztoplw0(i) |
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| 365 | solsw0(iof+i) = zsolsw0(i) |
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| 366 | sollw0(iof+i) = zsollw0(i) |
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| 367 | albpla(iof+i) = zalbpla(i) |
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[524] | 368 | |
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[1150] | 369 | DO k = 1, kflev+1 |
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| 370 | swdn0 ( iof+i,k) = ZFSDN0 ( i,k) |
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| 371 | swdn ( iof+i,k) = ZFSDN ( i,k) |
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| 372 | swup0 ( iof+i,k) = ZFSUP0 ( i,k) |
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| 373 | swup ( iof+i,k) = ZFSUP ( i,k) |
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[524] | 374 | ENDDO |
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[1150] | 375 | ENDDO |
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| 376 | !-transform the aerosol forcings, if they have |
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| 377 | ! to be calculated |
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| 378 | IF (ok_ade) THEN |
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| 379 | DO i = 1, kdlon |
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| 380 | topswad_aero(iof+i) = ztopswadaero(i) |
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| 381 | topswad0_aero(iof+i) = ztopswad0aero(i) |
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| 382 | solswad_aero(iof+i) = zsolswadaero(i) |
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| 383 | solswad0_aero(iof+i) = zsolswad0aero(i) |
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| 384 | topsw_aero(iof+i,:) = ztopsw_aero(iof+i,:) |
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| 385 | topsw0_aero(iof+i,:) = ztopsw0_aero(iof+i,:) |
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| 386 | solsw_aero(iof+i,:) = zsolsw_aero(iof+i,:) |
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| 387 | solsw0_aero(iof+i,:) = zsolsw0_aero(iof+i,:) |
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| 388 | |
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| 389 | ENDDO |
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| 390 | ELSE |
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| 391 | DO i = 1, kdlon |
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| 392 | topswad_aero(iof+i) = 0.0 |
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| 393 | solswad_aero(iof+i) = 0.0 |
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| 394 | topswad0_aero(iof+i) = 0.0 |
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| 395 | solswad0_aero(iof+i) = 0.0 |
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| 396 | topsw_aero(iof+i,:) = 0. |
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| 397 | topsw0_aero(iof+i,:) =0. |
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| 398 | solsw_aero(iof+i,:) = 0. |
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| 399 | solsw0_aero(iof+i,:) = 0. |
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| 400 | ENDDO |
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| 401 | ENDIF |
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| 402 | IF (ok_aie) THEN |
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| 403 | DO i = 1, kdlon |
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| 404 | topswai_aero(iof+i) = ztopswaiaero(i) |
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| 405 | solswai_aero(iof+i) = zsolswaiaero(i) |
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| 406 | ENDDO |
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| 407 | ELSE |
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| 408 | DO i = 1, kdlon |
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| 409 | topswai_aero(iof+i) = 0.0 |
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| 410 | solswai_aero(iof+i) = 0.0 |
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| 411 | ENDDO |
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| 412 | ENDIF |
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| 413 | DO k = 1, kflev |
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[524] | 414 | DO i = 1, kdlon |
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[1150] | 415 | ! scale factor to take into account the difference between |
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| 416 | ! dry air and watter vapour scpecifi! heat capacity |
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| 417 | zznormcp=1.0+RVTMP2*PWV(i,k) |
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| 418 | heat(iof+i,k) = zheat(i,k)/zznormcp |
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| 419 | cool(iof+i,k) = zcool(i,k)/zznormcp |
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| 420 | heat0(iof+i,k) = zheat0(i,k)/zznormcp |
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| 421 | cool0(iof+i,k) = zcool0(i,k)/zznormcp |
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[524] | 422 | ENDDO |
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[1150] | 423 | ENDDO |
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| 424 | |
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[1159] | 425 | ENDDO ! j = 1, nb_gr |
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[1150] | 426 | |
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| 427 | |
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[1160] | 428 | END SUBROUTINE radlwsw |
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[1150] | 429 | |
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[1159] | 430 | |
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