source: LMDZ6/branches/IPSLCM6.0.14/libf/phylmd/cosp/prec_scops.F @ 3322

Last change on this file since 3322 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: 9.4 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/prec_scops.f $
5!
6! Redistribution and use in source and binary forms, with or without modification, are permitted
7! provided that the following conditions are met:
8!
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26     
27      subroutine prec_scops(npoints,nlev,ncol,ls_p_rate,cv_p_rate,
28     &                      frac_out,prec_frac)
29
30
31      implicit none
32
33      INTEGER npoints       !  number of model points in the horizontal
34      INTEGER nlev          !  number of model levels in column
35      INTEGER ncol          !  number of subcolumns
36
37      INTEGER i,j,ilev,ibox,cv_col
38     
39      REAL ls_p_rate(npoints,nlev),cv_p_rate(npoints,nlev)
40
41      REAL frac_out(npoints,ncol,nlev) ! boxes gridbox divided up into
42                              ! Equivalent of BOX in original version, but
43                              ! indexed by column then row, rather than
44                              ! by row then column
45                              !TOA to SURFACE!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
46      REAL prec_frac(npoints,ncol,nlev) ! 0 -> clear sky
47                                        ! 1 -> LS precipitation
48                                        ! 2 -> CONV precipitation
49                    ! 3 -> both
50                                        !TOA to SURFACE!!!!!!!!!!!!!!!!!!
51                   
52      INTEGER flag_ls, flag_cv
53      INTEGER frac_out_ls(npoints,ncol),frac_out_cv(npoints,ncol) !flag variables for
54                       ! stratiform cloud and convective cloud in the vertical column
55
56      cv_col = 0.05*ncol
57      if (cv_col .eq. 0) cv_col=1
58 
59      do ilev=1,nlev
60        do ibox=1,ncol
61          do j=1,npoints
62            prec_frac(j,ibox,ilev) = 0
63          enddo
64        enddo
65      enddo
66     
67      do j=1,npoints
68       do ibox=1,ncol
69        frac_out_ls(j,ibox)=0
70        frac_out_cv(j,ibox)=0
71        flag_ls=0
72        flag_cv=0
73        do ilev=1,nlev
74          if (frac_out(j,ibox,ilev) .eq. 1) then
75            flag_ls=1
76          endif
77          if (frac_out(j,ibox,ilev) .eq. 2) then
78            flag_cv=1
79          endif
80        enddo !loop over nlev
81        if (flag_ls .eq. 1) then
82           frac_out_ls(j,ibox)=1
83        endif
84        if (flag_cv .eq. 1) then
85           frac_out_cv(j,ibox)=1
86        endif
87       enddo  ! loop over ncol
88      enddo ! loop over npoints
89
90!      initialize the top layer     
91       do j=1,npoints
92        flag_ls=0
93        flag_cv=0
94   
95        if (ls_p_rate(j,1) .gt. 0.) then
96            do ibox=1,ncol ! possibility ONE
97                if (frac_out(j,ibox,1) .eq. 1) then
98                    prec_frac(j,ibox,1) = 1
99                    flag_ls=1
100                endif
101            enddo ! loop over ncol
102            if (flag_ls .eq. 0) then ! possibility THREE
103                do ibox=1,ncol
104                    if (frac_out(j,ibox,2) .eq. 1) then
105                        prec_frac(j,ibox,1) = 1
106                        flag_ls=1
107                    endif
108                enddo ! loop over ncol
109            endif
110        if (flag_ls .eq. 0) then ! possibility Four
111        do ibox=1,ncol
112        if (frac_out_ls(j,ibox) .eq. 1) then
113            prec_frac(j,ibox,1) = 1
114            flag_ls=1
115        endif
116        enddo ! loop over ncol
117        endif
118        if (flag_ls .eq. 0) then ! possibility Five
119        do ibox=1,ncol
120    !     prec_frac(j,1:ncol,1) = 1
121        prec_frac(j,ibox,1) = 1
122        enddo ! loop over ncol
123            endif
124        endif
125       ! There is large scale precipitation
126     
127        if (cv_p_rate(j,1) .gt. 0.) then
128         do ibox=1,ncol ! possibility ONE
129          if (frac_out(j,ibox,1) .eq. 2) then
130           if (prec_frac(j,ibox,1) .eq. 0) then
131        prec_frac(j,ibox,1) = 2
132       else
133        prec_frac(j,ibox,1) = 3
134       endif
135       flag_cv=1
136      endif
137        enddo ! loop over ncol
138        if (flag_cv .eq. 0) then ! possibility THREE
139        do ibox=1,ncol
140        if (frac_out(j,ibox,2) .eq. 2) then
141                if (prec_frac(j,ibox,1) .eq. 0) then
142            prec_frac(j,ibox,1) = 2
143            else
144            prec_frac(j,ibox,1) = 3
145            endif
146            flag_cv=1
147        endif
148        enddo ! loop over ncol
149        endif
150        if (flag_cv .eq. 0) then ! possibility Four
151        do ibox=1,ncol
152        if (frac_out_cv(j,ibox) .eq. 1) then
153                if (prec_frac(j,ibox,1) .eq. 0) then
154            prec_frac(j,ibox,1) = 2
155            else
156            prec_frac(j,ibox,1) = 3
157            endif
158            flag_cv=1
159        endif
160        enddo ! loop over ncol
161        endif
162        if (flag_cv .eq. 0) then  ! possibility Five
163        do ibox=1,cv_col
164                if (prec_frac(j,ibox,1) .eq. 0) then
165            prec_frac(j,ibox,1) = 2
166            else
167            prec_frac(j,ibox,1) = 3
168            endif
169        enddo !loop over cv_col
170            endif
171        endif
172        ! There is convective precipitation
173       
174        enddo ! loop over npoints
175!      end of initializing the top layer
176
177!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
178
179!     working on the levels from top to surface
180      do ilev=2,nlev
181       do j=1,npoints
182        flag_ls=0
183        flag_cv=0
184   
185        if (ls_p_rate(j,ilev) .gt. 0.) then
186         do ibox=1,ncol ! possibility ONE&TWO
187          if ((frac_out(j,ibox,ilev) .eq. 1) .or.
188     &       ((prec_frac(j,ibox,ilev-1) .eq. 1)
189     &       .or. (prec_frac(j,ibox,ilev-1) .eq. 3))) then
190           prec_frac(j,ibox,ilev) = 1
191           flag_ls=1
192          endif
193        enddo ! loop over ncol
194        if ((flag_ls .eq. 0) .and. (ilev .lt. nlev)) then ! possibility THREE
195        do ibox=1,ncol
196        if (frac_out(j,ibox,ilev+1) .eq. 1) then
197            prec_frac(j,ibox,ilev) = 1
198            flag_ls=1
199        endif
200        enddo ! loop over ncol
201        endif
202        if (flag_ls .eq. 0) then ! possibility Four
203        do ibox=1,ncol
204        if (frac_out_ls(j,ibox) .eq. 1) then
205            prec_frac(j,ibox,ilev) = 1
206            flag_ls=1
207        endif
208        enddo ! loop over ncol
209        endif
210        if (flag_ls .eq. 0) then ! possibility Five
211        do ibox=1,ncol
212!     prec_frac(j,1:ncol,ilev) = 1
213        prec_frac(j,ibox,ilev) = 1
214        enddo ! loop over ncol
215         endif
216      endif ! There is large scale precipitation
217   
218        if (cv_p_rate(j,ilev) .gt. 0.) then
219         do ibox=1,ncol ! possibility ONE&TWO
220          if ((frac_out(j,ibox,ilev) .eq. 2) .or.
221     &       ((prec_frac(j,ibox,ilev-1) .eq. 2)
222     &       .or. (prec_frac(j,ibox,ilev-1) .eq. 3))) then
223            if (prec_frac(j,ibox,ilev) .eq. 0) then
224         prec_frac(j,ibox,ilev) = 2
225        else
226         prec_frac(j,ibox,ilev) = 3
227        endif
228        flag_cv=1
229        endif
230       enddo ! loop over ncol
231        if ((flag_cv .eq. 0) .and. (ilev .lt. nlev)) then ! possibility THREE
232        do ibox=1,ncol
233        if (frac_out(j,ibox,ilev+1) .eq. 2) then
234                if (prec_frac(j,ibox,ilev) .eq. 0) then
235            prec_frac(j,ibox,ilev) = 2
236            else
237            prec_frac(j,ibox,ilev) = 3
238            endif
239            flag_cv=1
240        endif
241        enddo ! loop over ncol
242        endif
243        if (flag_cv .eq. 0) then ! possibility Four
244        do ibox=1,ncol
245        if (frac_out_cv(j,ibox) .eq. 1) then
246                if (prec_frac(j,ibox,ilev) .eq. 0) then
247            prec_frac(j,ibox,ilev) = 2
248            else
249            prec_frac(j,ibox,ilev) = 3
250            endif
251            flag_cv=1
252        endif
253        enddo ! loop over ncol
254        endif
255        if (flag_cv .eq. 0) then  ! possibility Five
256        do ibox=1,cv_col
257                if (prec_frac(j,ibox,ilev) .eq. 0) then
258            prec_frac(j,ibox,ilev) = 2
259            else
260            prec_frac(j,ibox,ilev) = 3
261            endif
262        enddo !loop over cv_col
263            endif
264        endif ! There is convective precipitation
265   
266        enddo ! loop over npoints
267        enddo ! loop over nlev
268
269      end
270
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