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suecrad15.F90 @ 5308

Last change on this file since 5308 was 3331, checked in by acozic, 6 years ago
Add modification for isotopes
Property svn:executable set to ``*
File size: 8.9 KB

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1	!OPTIONS XOPT(NOEVAL)
2	SUBROUTINE SUECRAD15 (KULOUT, KLEV, PETAH )
3
4	!**** SUECRAD15 - INITIALIZE COMMONS YOMRxx15 CONTROLLING RADIATION
5	!**** FROZEN VERSION (CYCLE 15) OF SUECRAD
6
7	! PURPOSE.
8	! --------
9	! INITIALIZE YOMRAD15, THE COMMON THAT CONTROLS THE
10	! RADIATION OF THE MODEL, AND YOMRDU15 THAT INCLUDES
11	! ADJUSTABLE PARAMETERS FOR RADIATION COMPUTATIONS
12
13	!** INTERFACE.
14	! ----------
15	! CALL SUECRAD15 FROM SUPHEC
16	! --------- ------
17
18	! EXPLICIT ARGUMENTS :
19	! --------------------
20	! NONE
21
22	! IMPLICIT ARGUMENTS :
23	! --------------------
24	! COMMONS YOMRAD15, YOMRDU15
25
26	! METHOD.
27	! -------
28	! SEE DOCUMENTATION
29
30	! EXTERNALS.
31	! ----------
32	! SUAER, SUAERH, SUAERV, SULW, SUSW, SUCLD, SUOCST, SUSAT
33
34	! REFERENCE.
35	! ----------
36	! ECMWF Research Department documentation of the IFS
37
38	! AUTHOR.
39	! -------
40	! 96-11: Ph. Dandin. Meteo-France
41	! ORIGINAL : 88-12-15 BY JEAN-JACQUES MORCRETTE ECMWF
42
43	! MODIFICATIONS.
44	! --------------
45	! R. El Khatib 01-02-02 proper initialization of NFRRC moved in SUCFU
46	! M.Hamrud 01-Oct-2003 CY28 Cleaning
47	! F. Bouyssel 27-09-04 initialisation of NSW
48	! A. Alias 29-09-05 Sulfate aerosols (Hu Rong Ming)
49	! ------------------------------------------------------------------
50
51	USE PARKIND1 ,ONLY : JPIM ,JPRB
52	USE YOMHOOK ,ONLY : LHOOK, DR_HOOK
53
54	USE YOMCT0 , ONLY : NPRINTLEV
55	USE YOMDIM , ONLY : NDLON ,NSMAX ,NGPBLKS ,NFLEVG ,NPROMA
56	USE YOMDYN , ONLY : TSTEP
57	! Ce qui concerne NULNAM commente par MPL le 15.04.09
58	!USE YOMLUN , ONLY : NULNAM
59	USE YOMCST , ONLY : RDAY ,RG ,RCPD
60	USE YOMPHY , ONLY : LRAYFM15
61	USE YOEPHY , ONLY : LEPHYS ,LERADI
62	USE YOMRAD15 , ONLY : NAER15 ,NFLUX15 ,NMODE15 ,NRAD15 ,&
63	& NRADFR15 ,NRADPFR15,NRADPLA15,NRINT15 ,NRADNFR15,&
64	& NRADSFR15,NOVLP15 ,NRPROMA15,NRADF2C15,NRADC2F15,&
65	& LERAD6H15,LERADHS15,LRADAER15,LNEWAER15
66	USE YOERAD , ONLY : NAER ,NTSW
67	!USE YOERAD , ONLY : NAER ,NSW ,NTSW
68	! NSW mis dans .def MPL 20140211
69	USE YOMRDU15 , ONLY : NUAER15 ,NTRAER15 ,RCDAY15 ,R10E15 ,&
70	& REELOG15 ,REPSC15 ,REPSCO15 ,REPSCQ15 ,REPSCT15 ,&
71	& REPSCW15 ,DIFF15
72	USE YOMAERD15, ONLY : CVDAES15 ,CVDAEL15 ,CVDAEU15 ,CVDAED15 ,&
73	& CVDAEF15 ,&
74	& RCAEOPS15,RCAEOPL15,RCAEOPU15,RCAEOPD15,RCTRBGA15,&
75	& RCAEOPF15,&
76	& RCVOBGA15,RCSTBGA15,RCTRPT15 ,RCAEADM15,RCAEROS15,&
77	& RCAEADK15
78	USE YOMPRAD , ONLY : LODBGRADI,LODBGRADL
79	USE YOMRADF , ONLY : EMTD ,EMTU ,TRSW ,RMOON
80
81	IMPLICIT NONE
82
83	include "clesphys.h"
84
85	INTEGER(KIND=JPIM),INTENT(IN) :: KLEV
86	INTEGER(KIND=JPIM),INTENT(IN) :: KULOUT
87	REAL(KIND=JPRB) ,INTENT(IN) :: PETAH(KLEV+1)
88	LOGICAL :: LLP
89
90	#include "namrad15.h"
91	! ----------------------------------------------------------------
92
93	LOGICAL :: LLMESS
94
95	INTEGER(KIND=JPIM) :: IRADFR, IST1HR, IST6HR
96
97
98	REAL(KIND=JPRB) :: ZSTPHR, ZTSTEP
99	REAL(KIND=JPRB) :: ZHOOK_HANDLE
100
101	#include "posnam.intfb.h"
102	#include "suaer15.intfb.h"
103	#include "suaerv15.intfb.h"
104	#include "suecradi15.intfb.h"
105	#include "suecradl.intfb.h"
106	#include "sulw15.intfb.h"
107	#include "surdi15.intfb.h"
108	#include "susat.intfb.h"
109	#include "susw15.intfb.h"
110
111	! ----------------------------------------------------------------
112
113	!* 1. SET DEFAULT VALUES.
114	! -------------------
115
116	!* 1.1 PRESET INDICES IN YOMRAD15
117	! --------------------------
118
119	IF (LHOOK) CALL DR_HOOK('SUECRAD15',0,ZHOOK_HANDLE)
120	LLMESS=.FALSE.
121	LERAD6H15=.TRUE.
122	LERADHS15=.TRUE.
123	LRADAER15=.TRUE.
124	LNEWAER15=.FALSE.
125	NAER15 =1
126	NAER=0
127	NFLUX15 =6
128	NMODE15 =0
129	NRAD15 =1
130	NRADFR15 =-3
131	NRADPFR15=36
132	NRADPLA15=15
133	NRINT15 =4
134	NRADF2C15=1
135	NRADC2F15=1
136	NUAER15 = 24
137	NTRAER15 = 15
138	NOVLP15 = 1
139	NSW=2
140	NTSW=2
141	IF(NSMAX >= 106) THEN
142	NRPROMA15 = 80
143	ELSEIF(NSMAX == 63) THEN
144	NRPROMA15=48
145	ELSE
146	NRPROMA15=20
147	ENDIF
148
149	!* 1.3 SET SECURITY PARAMETERS
150	! -----------------------
151
152	REPSC15 = 1.E-12_JPRB
153	REPSCO15 = 1.E-12_JPRB
154	REPSCQ15 = 1.E-12_JPRB
155	REPSCT15 = 1.E-12_JPRB
156	REPSCW15 = 1.E-12_JPRB
157	REELOG15 = 1.E-12_JPRB
158
159	! ------------------------------------------------------------------
160
161	!* 2. READ VALUES OF RADIATION CONFIGURATION
162	! --------------------------------------
163
164	! Ce qui concerne NAMRAD15 commente par MPL le 15.04.09
165	!CALL POSNAM(NULNAM,'NAMRAD15')
166	!READ (NULNAM,NAMRAD15)
167
168	! INITIALISE DATA STRUCTURES REQUIRED FOR RADIATION INTERPOLATION
169
170	LODBGRADI=.FALSE.
171	CALL SUECRADI15
172
173	IF( LLMESS )THEN
174
175	! INITIALISE DATA STRUCTURES REQUIRED FOR RADIATION COURSE GRID
176	! LOAD BALANCING
177
178	LODBGRADL=.FALSE.
179	! CALL SUECRADL ! MPL 1.12.08
180	CALL ABOR1('JUSTE APRES CALL SUECRADL COMMENTE')
181	ENDIF
182
183	! ----------------------------------------------------------------
184
185	!* 3. INITIALIZE RADIATION COEFFICIENTS.
186	! ----------------------------------
187
188	RCDAY15 = RDAY * RG / RCPD
189	DIFF15 = 1.66_JPRB
190	R10E15 = 0.4342945_JPRB
191
192	CALL SURDI15
193
194	! ----------------------------------------------------------------
195
196	!* 4. INITIALIZE RADIATION ABSORPTION COEFFICIENTS
197	! --------------------------------------------
198
199	CALL SULW15
200	CALL SUSW15
201
202	! ----------------------------------------------------------------
203
204	!* 5. INITIALIZE AEROSOL OPTICAL PARAMETERS AND DISTRIBUTION
205	! ------------------------------------------------------
206
207	! INITIALIZATION DONE IN BLOCK DATA SUAERHBD
208
209	!- optical properties
210	CALL SUAER15
211
212	! CALL SUAERH
213
214	CALL SUAERV15 ( KLEV , PETAH,&
215	& CVDAES15, CVDAEL15, CVDAEU15, CVDAED15, CVDAEF15,&
216	& RCTRBGA15, RCVOBGA15, RCSTBGA15, RCAEOPS15, RCAEOPL15, RCAEOPU15,&
217	& RCAEOPF15,&
218	& RCAEOPD15, RCTRPT15 , RCAEADK15, RCAEADM15, RCAEROS15 )
219
220	! ----------------------------------------------------------------
221
222	!* 6. INITIALIZE SATELLITE GEOMETRICAL/RADIOMETRIC PARAMETERS
223	! -------------------------------------------------------
224
225	IF (LEPHYS) THEN
226	IF (NMODE15 > 1) THEN
227	CALL SUSAT
228	ENDIF
229	ENDIF
230
231	! ----------------------------------------------------------------
232
233	!* 7. INITIALIZE CLIMATOLOGICAL OZONE DISTRIBUTION
234	! --------------------------------------------
235	! (not done here!!! called from APLPAR as it depends
236	! on model pressure levels!)
237
238	! ----------------------------------------------------------------
239
240	!* 8. SET UP MODEL CONFIGURATION FOR TIME-SPACE INTERPOLATION
241	! -------------------------------------------------------
242
243	ZTSTEP=MAX(TSTEP,1.0_JPRB)
244	ZSTPHR=3600._JPRB/ZTSTEP
245	IRADFR=NRADFR15
246	IF(NRADFR15 < 0) THEN
247	NRADFR15=-NRADFR15*ZSTPHR+0.5_JPRB
248	ENDIF
249	NRADPFR15=NRADPFR15*NRADFR15
250	IF (MOD(NRADPLA15,2) == 0.AND. NRADPLA15 /= 0) THEN
251	NRADPLA15=NRADPLA15+1
252	ENDIF
253
254	IST1HR=ZSTPHR+0.05_JPRB
255	IST6HR=6._JPRB*ZSTPHR+0.05_JPRB
256	IF (MOD(3600._JPRB,ZTSTEP) > 0.1_JPRB) THEN
257	IST1HR=IST1HR+1
258	DO WHILE (MOD(IST6HR,IST1HR) /= 0)
259	IST1HR=IST1HR+1
260	ENDDO
261	ENDIF
262	NRADSFR15=IST1HR
263	NRADNFR15=NRADFR15
264
265	IF(LRAYFM15) THEN
266	NRPROMA15=NDLON+6+(1-MOD(NDLON,2))
267	ENDIF
268
269
270
271	!* 9. ALLOCATE WORK ARRAYS
272	! --------------------
273
274	LLP = NPRINTLEV >= 1
275
276	ALLOCATE(EMTD(NPROMA,NFLEVG+1,NGPBLKS))
277	IF(LLP)WRITE(UNIT=KULOUT,FMT=9) 'EMTD ',SIZE(EMTD ),SHAPE(EMTD )
278	ALLOCATE(TRSW(NPROMA,NFLEVG+1,NGPBLKS))
279	IF(LLP)WRITE(UNIT=KULOUT,FMT=9) 'TRSW ',SIZE(TRSW ),SHAPE(TRSW )
280	ALLOCATE(EMTU(NPROMA,NFLEVG+1,NGPBLKS))
281	IF(LLP)WRITE(UNIT=KULOUT,FMT=9) 'EMTU ',SIZE(EMTU ),SHAPE(EMTU )
282	ALLOCATE(RMOON(NPROMA,NGPBLKS))
283	IF(LLP)WRITE(UNIT=KULOUT,FMT=9) 'RMOON ',SIZE(RMOON ),SHAPE(RMOON )
284
285	9 FORMAT(1X,'ARRAY ',A10,' ALLOCATED ',8I8)
286
287	! ----------------------------------------------------------------
288
289	!* 9. PRINT FINAL VALUES.
290	! -------------------
291
292
293
294
295	IF (LLP) THEN
296	WRITE(UNIT=KULOUT,FMT='('' COMMON YOMRAD15 '')')
297	WRITE(UNIT=KULOUT,FMT='('' LERADI = '',L5 &
298	& ,'' LERAD6H15 = '',L5)')&
299	& LERADI,LERAD6H15
300	WRITE(UNIT=KULOUT,FMT='('' NRADFR15 = '',I2 &
301	& ,'' NRADPFR15 = '',I3 &
302	& ,'' NRADPLA15 = '',I2 &
303	& ,'' NRINT15 = '',I1 &
304	& ,'' NRPROMA15 = '',I5 &
305	& ,'' NRADF2C15 = '',I1 &
306	& ,'' NRADC2F15 = '',I1 &
307	& )')&
308	& NRADFR15,NRADPFR15,NRADPLA15,NRINT15,&
309	& NRPROMA15,NRADF2C15,NRADC2F15
310
311	WRITE(UNIT=KULOUT,FMT='('' LERADHS15= '',L5,'' LRADAER15= '',L5 &
312	& ,'' LNEWAER15= '',L5 &
313	& ,'' NMODE15 = '',I1 &
314	& ,'' NAER15 = '',I1 &
315	& ,'' NFLUX15 = '',I2 &
316	& ,'' NRAD15 = '',I2 &
317	& )')&
318	& LERADHS15,LRADAER15,LNEWAER15,NMODE15,NAER15,NFLUX15,NRAD15
319	WRITE(KULOUT,FMT='('' WARNING! CLOUD OVERLAP ASSUMPTION IS''&
320	& ,'' NOVLP15 = '',I2 &
321	& )')&
322	& NOVLP15
323
324	WRITE(UNIT=KULOUT,FMT='('' MODULE YOERAD '')')
325	WRITE(UNIT=KULOUT,FMT='('' NSW = '',I2, '' NTSW = '',I2)') NSW,NTSW
326	ENDIF
327
328	! ------------------------------------------------------------------
329
330	IF (LHOOK) CALL DR_HOOK('SUECRAD15',1,ZHOOK_HANDLE)
331	END SUBROUTINE SUECRAD15

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