source: LMDZ6/branches/Test_modipsl/libf/phylmd/cosp/pf_to_mr.F @ 5440

Last change on this file since 5440 was 2428, checked in by idelkadi, 9 years ago

Mise a jour du simulateur COSP (passage de la version v3.2 a la version v1.4) :

  • mise a jour des sources pour ISCCP, CALIPSO et PARASOL
  • prise en compte des changements de phases pour les nuages (Calipso)
  • rajout de plusieurs diagnostiques (fraction nuageuse en fonction de la temperature, ...)

http://lmdz.lmd.jussieu.fr/Members/aidelkadi/cosp

  • Property copyright set to
    Name of program: LMDZ
    Creation date: 1984
    Version: LMDZ5
    License: CeCILL version 2
    Holder: Laboratoire de m\'et\'eorologie dynamique, CNRS, UMR 8539
    See the license file in the root directory
File size: 5.6 KB
Line 
1! (c) 2008, Lawrence Livermore National Security Limited Liability Corporation.
2! All rights reserved.
3! $Revision: 23 $, $Date: 2011-03-31 15:41:37 +0200 (jeu. 31 mars 2011) $
4! $URL: http://cfmip-obs-sim.googlecode.com/svn/stable/v1.4.0/llnl/pf_to_mr.f $
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6! Redistribution and use in source and binary forms, with or without modification, are permitted
7! provided that the following conditions are met:
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16!       this software without specific prior written permission.
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26     
27      subroutine pf_to_mr(npoints,nlev,ncol,rain_ls,snow_ls,grpl_ls,
28     &                    rain_cv,snow_cv,prec_frac,
29     &                    p,t,mx_rain_ls,mx_snow_ls,mx_grpl_ls,
30     &                    mx_rain_cv,mx_snow_cv)
31
32
33      implicit none
34
35      INTEGER npoints       !  number of model points in the horizontal
36      INTEGER nlev          !  number of model levels in column
37      INTEGER ncol          !  number of subcolumns
38
39      INTEGER j,ilev,ibox
40     
41      REAL rain_ls(npoints,nlev),snow_ls(npoints,nlev) ! large-scale precip. flux
42      REAL grpl_ls(npoints,nlev)
43      REAL rain_cv(npoints,nlev),snow_cv(npoints,nlev) ! convective precip. flux
44
45      REAL prec_frac(npoints,ncol,nlev) ! 0 -> clear sky
46                                        ! 1 -> LS precipitation
47                                        ! 2 -> CONV precipitation
48                                        ! 3 -> both
49      REAL mx_rain_ls(npoints,ncol,nlev),mx_snow_ls(npoints,ncol,nlev)
50      REAL mx_grpl_ls(npoints,ncol,nlev)
51      REAL mx_rain_cv(npoints,ncol,nlev),mx_snow_cv(npoints,ncol,nlev)
52      REAL p(npoints,nlev),t(npoints,nlev)
53      REAL ar,as,ag,br,bs,bg,nr,ns,ng,rho0,rhor,rhos,rhog,rho
54      REAL term1r,term1s,term1g,term2r,term2s,term2g,term3
55      REAL term4r_ls,term4s_ls,term4g_ls,term4r_cv,term4s_cv
56      REAL term1x2r,term1x2s,term1x2g,t123r,t123s,t123g
57     
58      ! method from Khairoutdinov and Randall (2003 JAS)
59
60      ! --- List of constants from Appendix B
61      ! Constant in fall speed formula
62      ar=842.
63      as=4.84
64      ag=94.5
65      ! Exponent in fall speed formula
66      br=0.8
67      bs=0.25
68      bg=0.5
69      ! Intercept parameter
70      nr=8.*1000.*1000.
71      ns=3.*1000.*1000.
72      ng=4.*1000.*1000.
73      ! Densities for air and hydrometeors
74      rho0=1.29
75      rhor=1000.
76      rhos=100.
77      rhog=400.
78      ! Term 1 of Eq. (A19).
79      term1r=ar*17.8379/6.
80      term1s=as*8.28508/6.
81      term1g=ag*11.6317/6.
82      ! Term 2 of Eq. (A19).
83      term2r=(3.14159265*rhor*nr)**(-br/4.)
84      term2s=(3.14159265*rhos*ns)**(-bs/4.)
85      term2g=(3.14159265*rhog*ng)**(-bg/4.)
86     
87      term1x2r=term1r*term2r
88      term1x2s=term1s*term2s
89      term1x2g=term1g*term2g
90      do ilev=1,nlev
91        do j=1,npoints
92            rho=p(j,ilev)/(287.05*t(j,ilev))
93            term3=(rho0/rho)**0.5
94            ! Term 4 of Eq. (A19).
95            t123r=term1x2r*term3
96            t123s=term1x2s*term3
97            t123g=term1x2g*term3
98            term4r_ls=rain_ls(j,ilev)/(t123r)
99            term4s_ls=snow_ls(j,ilev)/(t123s)
100            term4g_ls=grpl_ls(j,ilev)/(t123g)
101            term4r_cv=rain_cv(j,ilev)/(t123r)
102            term4s_cv=snow_cv(j,ilev)/(t123s)
103            do ibox=1,ncol
104                mx_rain_ls(j,ibox,ilev)=0.
105                mx_snow_ls(j,ibox,ilev)=0.
106                mx_grpl_ls(j,ibox,ilev)=0.
107                mx_rain_cv(j,ibox,ilev)=0.
108                mx_snow_cv(j,ibox,ilev)=0.
109                if ((prec_frac(j,ibox,ilev) .eq. 1.) .or.
110     &              (prec_frac(j,ibox,ilev) .eq. 3.)) then
111                    mx_rain_ls(j,ibox,ilev)=
112     &                     (term4r_ls**(1./(1.+br/4.)))/rho
113                    mx_snow_ls(j,ibox,ilev)=
114     &                     (term4s_ls**(1./(1.+bs/4.)))/rho
115                    mx_grpl_ls(j,ibox,ilev)=
116     &                     (term4g_ls**(1./(1.+bg/4.)))/rho
117                endif
118                if ((prec_frac(j,ibox,ilev) .eq. 2.) .or.
119     &              (prec_frac(j,ibox,ilev) .eq. 3.)) then
120                    mx_rain_cv(j,ibox,ilev)=
121     &                     (term4r_cv**(1./(1.+br/4.)))/rho
122                    mx_snow_cv(j,ibox,ilev)=
123     &                     (term4s_cv**(1./(1.+bs/4.)))/rho
124                endif
125            enddo ! loop over ncol
126        enddo ! loop over npoints
127      enddo ! loop over nlev
128 
129      end
130
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