source: LMDZ5/trunk/libf/phylmd/rrtm/su_aerw.F90 @ 3985

Last change on this file since 3985 was 1990, checked in by Laurent Fairhead, 11 years ago

Corrections à la version r1989 pour permettre la compilation avec RRTM
Inclusion de la licence CeCILL_V2 pour RRTM


Changes to revision r1989 to enable RRTM code compilation
RRTM part put under CeCILL_V2 licence

  • 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: 6.6 KB
RevLine 
[1989]1SUBROUTINE SU_AERW
2
3!**** *SU_AERW*   - DEFINES INDICES AND PARAMETERS FOR VARIOUS AEROSOL VARIABLES
4
5!     PURPOSE.
6!     --------
7!           INITIALIZE YOEAERATM, YOEAERSRC, YOEAERSNK, THE MODULES THAT CONTAINS INDICES
8!           ALLOWING TO GET THE AEROSOL PARAMETERS RELEVANT FOR THE PROGNOSTIC AEROSOL
9!           CONFIGURATION.
10
11!**   INTERFACE.
12!     ----------
13!        *CALL* *SU_AERW
14
15!        EXPLICIT ARGUMENTS :
16!        --------------------
17!        NONE
18
19!        IMPLICIT ARGUMENTS :
20!        --------------------
21!        YOEAERW
22
23!     METHOD.
24!     -------
25!        SEE DOCUMENTATION
26
27!     EXTERNALS.
28!     ----------
29
30!     REFERENCE.
31!     ----------
32!        ECMWF RESEARCH DEPARTMENT DOCUMENTATION OF THE IFS
33
34!     AUTHOR.
35!     -------
36!        JEAN-JACQUES MORCRETTE *ECMWF*
37
38!     MODIFICATIONS.
39!     --------------
40!        ORIGINAL : 2005-07-08
41
42!     ------------------------------------------------------------------
43
44USE PARKIND1  ,ONLY : JPIM     ,JPRB
45USE YOMHOOK   ,ONLY : LHOOK,   DR_HOOK
46
47USE YOEAERATM, ONLY : LAERGBUD, LAERSCAV ,LAERSEDIM, LAERSURF, LAER6SDIA, &
48 & LAERCLIMG, LAERCLIMZ, LAERCLIST, LAERDRYDP, LAERNGAT, LAERPRNT, &
49 & REPSCAER , INDBG
50
51USE YOEAERSRC, ONLY : JKBIN, JKTYP, LEPAERO  , &
52 & NBINAER, NINDAER , NMAXTAER, NTAER  , NTYPAER, RGELAV , RGEMUV , &
53 & RDGLAV , RDGMUV  , RCLONV  , RSLONV , RDCLONV, RDSLONV, LAEREXTR, &
54 & RSSFLX , RLATVOL , RLONVOL , NDDUST
55
56USE YOEPHY   , ONLY : LE4ALB
57
58USE YOEDBUG  , ONLY : KSTPDBG
59
60USE YOMCST   , ONLY : RPI
61USE YOMGC    , ONLY : GELAM
62USE YOMGEM   , ONLY : NGPTOT
63USE YOMLEG   , ONLY : RMU
64! Ce qui concerne NULNAM commente par MPL le 15.04.09
65!USE YOMLUN   , ONLY : NULNAM, NULOUT
66USE YOMLUN   , ONLY : NULOUT
67
68USE YOM_YGFL, ONLY : NAERO
69
70IMPLICIT NONE
71
72INTEGER(KIND=JPIM) :: IAER, ICAER, ITAER
73INTEGER(KIND=JPIM) :: J, JAER, JL
74
75REAL(KIND=JPRB) :: ZHOOK_HANDLE
76!     ----------------------------------------------------------------
77
78#include "posnam.intfb.h"
79
80#include "su_aerp.intfb.h"
81#include "su_aerop.intfb.h"
82!      ----------------------------------------------------------------
83
84#include "naeaer.h"
85
86!      ----------------------------------------------------------------
87IF (LHOOK) CALL DR_HOOK('SU_AERW',0,ZHOOK_HANDLE)
88
89!*         1.       DEFAULT VALUES OF PARAMETERS
90!                   ----------------------------
91
92print *,'DANS SU_AERW'
93NBINAER(:) = (/ 3, 3, 2, 2, 1, 1, 1, 1, 1 /)
94
95NMAXTAER=9
96NTYPAER(:) = 0
97JKBIN(:) = 0
98JKTYP(:) = 0
99
100LEPAERO=.FALSE.
101LAERCLIMG=.FALSE.
102LAERCLIMZ=.FALSE.
103LAERCLIST=.FALSE.
104LAERDRYDP=.FALSE.
105LAEREXTR=.FALSE.
106LAERGBUD=.FALSE.
107LAERNGAT=.FALSE.
108LAERPRNT=.FALSE.
109LAERSCAV=.FALSE.
110LAERSEDIM=.FALSE.
111LAERSURF=.FALSE.
112LAER6SDIA=.FALSE.
113INDBG=1
114NTAER  =0
115NDDUST =2
116
117! the 9 types and assumed number of bins are:
118!  NTYPAER    bins  type
119!     1       1- 3  sea-salt  0.03 - 0.5 -  5  - 20 microns
120!     2       4- 6  dust      0.03 - 0.5 - 0.9 - 20 microns
121!     3       7- 8  POM     hydrophilic, hydrophobic
122!     4       9-10  BC      hydrophilic, hydrophobic
123!     5      11     sulfate
124!     6      12     fly ash
125!     7      13     pseudo-prognostic stratospheric aerosols
126!     8      14     pseudo-prognostic volcanic aerosols
127!     9      15     prognostic stratospheric aerosols
128 
129DO JAER=1,NMAXTAER
130  NTYPAER(JAER)=0
131ENDDO
132
133RLATVOL=-999._JPRB
134RLONVOL=-999._JPRB
135RGELAV =-999._JPRB
136RGEMUV =-999._JPRB
137RDGLAV = 999._JPRB
138RDGMUV = 999._JPRB
139RCLONV =-999._JPRB
140RSLONV =-999._JPRB
141RDCLONV= 999._JPRB
142RDSLONV= 999._JPRB
143DO J=1,3
144  KSTPDBG(J)=-999
145ENDDO
146
147REPSCAER=1.E-15_JPRB
148
149!     ------------------------------------------------------------------
150
151!*         2.       READ VALUES OF PROGNOSTIC AEROSOL CONFIGURATION
152!                   -----------------------------------------------
153! Ce qui concerne NAEAER commente par MPL le 15.04.09
154!IF(NAERO > 0) THEN
155! CALL POSNAM(NULNAM,'NAEAER')
156! READ (NULNAM,NAEAER)
157!ENDIF
158
159IF (.NOT.LE4ALB) THEN
160  NDDUST=2
161ENDIF
162!     ------------------------------------------------------------------
163
164!*       3.    INITIALIZE PROGNOSTIC AEROSOL PHYSICAL AND OPTICAL PARAMETERS
165!              -------------------------------------------------------------
166
167  CALL SU_AERP
168print *,'SU_AERW: apres SU_AERP'
169  CALL SU_AEROP
170print *,'SU_AERW: apres SU_AEROP'
171
172IF (LEPAERO) THEN
173
174! define a composite index for each bin of each different aerosol type to be used
175! in source, sedimentation and deposition routines
176 
177  ICAER=0
178  DO JAER=1,NMAXTAER
179    IF (NTYPAER(JAER) /= 0) THEN
180      NTAER=NTAER+1
181      ITAER=NTYPAER(JAER)
182      DO IAER=1,ITAER
183        ICAER=ICAER+1
184        NINDAER(ICAER)=JAER*10+IAER
185        JKTYP(ICAER)=JAER
186        JKBIN(ICAER)=IAER
187      ENDDO
188    ENDIF
189  ENDDO
190
191!-- if volcanic aerosols, define the model coordinates
192
193  IF (NTYPAER(9) /= 0) THEN
194    RGEMUV=(RLATVOL+90._JPRB)*RPI/180._JPRB
195    RGELAV=RLONVOL*RPI/180._JPRB
196    RCLONV=COS(RGELAV)
197    RSLONV=SIN(RGELAV)
198    DO J=1,NGPTOT-1
199      IF (RGELAV > GELAM(J) .AND. RGELAV <= GELAM(J+1) .AND. &
200        & RGEMUV < RMU(JL) .AND. RGEMUV >= RMU(JL+1) ) THEN
201        RDGMUV=ABS( RMU(J+1) - RMU(J))
202        RDGLAV=ABS( GELAM(J+1)-GELAM(J) )
203        RDSLONV=ABS( SIN(GELAM(JL+1))-SIN(GELAM(JL)) )
204        RDCLONV=ABS( COS(GELAM(JL+1))-COS(GELAM(JL)) )
205      ENDIF
206    ENDDO
207  ENDIF 
208
209!      ----------------------------------------------------------------
210
211!*       4.    PRINT FINAL VALUES.
212!              -------------------
213
214  WRITE(UNIT=NULOUT,FMT='('' LEPAERO = '',L5 &
215   & ,'' NTAER   = '',I2 ,'' NDDUST = '',I1,/&
216   & ,'' NTYPAER = '',9I3,/ &
217   & ,'' NBINAER = '',9I3,/ &
218   & ,'' JKTYP   = '',15I3,/&
219   & ,'' JKBIN   = '',15I3  &
220   & )')&
221   & LEPAERO,NTAER,(NTYPAER(JAER),JAER=1,9),(NBINAER(JAER),JAER=1,9), &
222   & (JKTYP(JAER),JAER=1,15),(JKBIN(JAER),JAER=1,15)
223  WRITE(UNIT=NULOUT,FMT='('' LAERGBUD = '',L3 &
224   & ,'' LAERNGAT = '',L3 &
225   & ,'' LAERDRYDP= '',L3 &
226   & ,'' LAERSEDIM= '',L3 &
227   & ,'' LAERSCAV = '',L3 &
228   & ,'' LAER6SDIA= '',L3 &
229   & ,'' LAERCLIMZ= '',L3 &
230   & ,'' LAERCLIMG= '',L3 &
231   & ,'' LAERCLIST= '',L3 &
232   & )')&
233   & LAERGBUD,LAERNGAT, LAERDRYDP,LAERSEDIM,LAERSCAV,LAER6SDIA,LAERCLIMZ,LAERCLIMG,LAERCLIST
234  WRITE(UNIT=NULOUT,FMT='('' RSSFLX= '',10E10.3)') RSSFLX
235  IF (NTYPAER(9) /= 0) THEN
236    WRITE(UNIT=NULOUT,FMT='('' RLATVOL= '',F5.2 &
237     & ,'' RLONVOL= '',F6.2,'' RGEMUV= '',F6.4,'' RGELAV= '',F6.4 &
238     & ,'' RCLONV = '',F6.4,'' RSLONV= '',F6.4,'' RDGMUV= '',F6.4 &
239     & ,'' RDGLAV = '',F6.4,'' RDCLONV= '',F6.4,'' RDSLONV= '',F6.4 &
240     & )')&
241     & RLATVOL,RLONVOL,RGEMUV,RGELAV,RCLONV,RSLONV,RDGMUV,RDGLAV,RDCLONV,RDSLONV
242  ENDIF
243ENDIF
244
245!     ----------------------------------------------------------------
246IF (LHOOK) CALL DR_HOOK('SU_AERW',1,ZHOOK_HANDLE)
247END SUBROUTINE SU_AERW
248
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