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sutoph.F90 @ 3627

Last change on this file since 3627 was 1990, checked in by Laurent Fairhead, 10 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: 8.2 KB

Line
1	!OPTIONS XOPT(NOEVAL)
2	SUBROUTINE SUTOPH(KULOUT)
3
4	!**** SUTOPH - Initialize common YOMTOPH top parameterization
5
6	! Purpose.
7	! --------
8	! Initialize YOMTOPH, the common that contains the top pressure
9	! and the first level of parameterization
10	! it also contains mesospheric drag vertical profil
11
12	!** Interface.
13	! ----------
14	! CALL *SUTOPH(KULOUT)
15
16	! Explicit arguments :
17	! --------------------
18	! KULOUT : Logical unit for the output
19
20	! Implicit arguments :
21	! --------------------
22	! COMMON YOMTOPH, YOMSTA
23
24	! Method.
25	! -------
26	! See documentation
27
28	! Externals.
29	! ----------
30
31	! Reference.
32	! ----------
33	! Documentation ARPEGE
34
35	! Author.
36	! -------
37	! A. Lasserre-Bigorry
38
39	! Modifications.
40	! --------------
41	! Original : 91-06-10
42	! Modified 92-02-22 by M. Deque (test of consistency between phys. para.)
43	! Modified by R. EL Khatib : 93-04-02 Set-up defaults controled by LECMWF
44	! Modified 93-11-17 by Ph. Dandin : FMR scheme with MF physics
45	! Modified 97-05-17 by M. Deque : frozen FMR
46	! M.Hamrud 01-Oct-2003 CY28 Cleaning
47	! F.Bouyssel 04-11-22 : NTCOET,ETCOET
48	! P. Marquet 05-09-12 : NTAJUC
49	! M. Deque 05-09-12 : default RCLX
50	! M. Deque 05-09-12 : default TPSCLIM
51	! ------------------------------------------------------------------
52
53	USE PARKIND1 ,ONLY : JPIM ,JPRB
54	USE YOMHOOK ,ONLY : LHOOK, DR_HOOK
55
56	USE YOMDIM , ONLY : NFLEVG
57	! Ce qui concerne NULNAM commente par MPL le 15.04.09
58	!USE YOMLUN , ONLY : NULNAM
59	USE YOMCT0B , ONLY : LECMWF
60	USE YOMSTA , ONLY : STPRE
61	USE YOMTOPH , ONLY : RMESOU ,RMESOT ,NTQSAT ,NTDIFU ,&
62	& NTCOEF ,NTDRAG ,NTCVIM ,NTPLUI ,NTRADI ,&
63	& NTNEBU ,NTOZON ,NTDRME ,ETQSAT ,ETDIFU ,&
64	& ETCOEF ,ETDRAG ,ETCVIM ,ETPLUI ,ETRADI ,&
65	& ETNEBU ,ETOZON ,ETDRME ,XDRMUK ,XDRMUX ,XDRMUP ,&
66	& XDRMTK ,XDRMTX ,XDRMTP ,NTCOET ,ETCOET ,&
67	& RMESOQ ,XDRMQK ,XDRMQP ,RFMESOQ ,RCLX ,&
68	& NTAJUC ,ETAJUC ,TPSCLIM
69	USE YOMPHY , ONLY : LRAY ,LRAYFM ,LRAYFM15 ,LRRMES
70	USE YOEPHY , ONLY : LAGPHY
71
72	! ------------------------------------------------------------------
73
74	IMPLICIT NONE
75
76	INTEGER(KIND=JPIM),INTENT(IN) :: KULOUT
77
78	! ------------------------------------------------------------------
79
80	INTEGER(KIND=JPIM) :: JLEV
81
82	REAL(KIND=JPRB) :: PAP, PAPX, ZMEST, ZMESU, ZMESQ
83
84	REAL(KIND=JPRB) :: PMESQF
85	REAL(KIND=JPRB) :: PMESTF
86	REAL(KIND=JPRB) :: PMESUF
87	REAL(KIND=JPRB) :: ZHOOK_HANDLE
88
89	! ------------------------------------------------------------------
90
91	#include "namtoph.h"
92
93	! ------------------------------------------------------------------
94
95	!* Mesospheric drag shape function
96
97	! PMESUF(PAP,PAPX) = MAX( (PAPX-PAP)/MAX(PAP**1.5,1.E-10),0. )
98	PMESUF(PAP,PAPX) = MAX( (PAPX-PAP)/MAX(PAP,1.E-10_JPRB),0.0_JPRB )
99	PMESTF(PAP,PAPX) = MAX( (PAPX-PAP)/MAX(PAP,1.E-10_JPRB),0.0_JPRB )
100	PMESQF(PAP,PAPX) = MAX( (PAPX-PAP)/MAX(PAP,1.E-10_JPRB),0.0_JPRB )
101
102	! ------------------------------------------------------------------
103
104	#include "abor1.intfb.h"
105	#include "posnam.intfb.h"
106	#include "seapre.intfb.h"
107
108	! ------------------------------------------------------------------
109
110	IF (LHOOK) CALL DR_HOOK('SUTOPH',0,ZHOOK_HANDLE)
111
112	! ------------------------------------------------------------------
113
114	!* 1. Set default values.
115	! -------------------
116
117	! 1.1 Set implicit default values
118
119	ETQSAT=0._JPRB
120	ETDIFU=0._JPRB
121	ETCOEF=0._JPRB
122	ETDRAG=0._JPRB
123	ETCVIM=0._JPRB
124	ETPLUI=0._JPRB
125	ETRADI=0._JPRB
126	ETNEBU=0._JPRB
127	ETOZON=0._JPRB
128	ETDRME=0._JPRB
129	ETCOET=0._JPRB
130	ETAJUC=0._JPRB
131	NTQSAT=1
132	NTDIFU=1
133	NTCOEF=1
134	NTDRAG=1
135	NTCVIM=1
136	NTPLUI=1
137	NTRADI=1
138	NTNEBU=1
139	NTOZON=1
140	NTDRME=1
141	NTCOET=1
142	NTAJUC=1
143
144	XDRMUK=0._JPRB
145	XDRMUX=0._JPRB
146	XDRMUP=0._JPRB
147	XDRMTK=0._JPRB
148	XDRMTX=0._JPRB
149	XDRMTP=0._JPRB
150	XDRMQK=0._JPRB
151	XDRMQP=0._JPRB
152
153	RFMESOQ=3.725E-06_JPRB
154	RCLX=0.0_JPRB
155	TPSCLIM=197._JPRB
156
157	! 1.2 Modify default values according to LECMWF
158
159	IF (LECMWF) THEN
160	ELSE
161	ENDIF
162
163	! ------------------------------------------------------------------
164
165	!* 2. Modify default values.
166	! ----------------------
167
168	! Ce qui concerne NAMTOPH commente par MPL le 15.04.09
169	!CALL POSNAM(NULNAM,'NAMTOPH')
170	!READ(NULNAM,NAMTOPH)
171
172	!* 2.1 Search corresponding level, to pressure in NAMTOPH
173	! for each parameterization
174
175	IF(ETQSAT /= 0.0_JPRB) CALL SEAPRE (ETQSAT,NTQSAT,STPRE,NFLEVG)
176	IF(ETDIFU /= 0.0_JPRB) CALL SEAPRE (ETDIFU,NTDIFU,STPRE,NFLEVG)
177	IF(ETCOEF /= 0.0_JPRB) CALL SEAPRE (ETCOEF,NTCOEF,STPRE,NFLEVG)
178	IF(ETDRAG /= 0.0_JPRB) CALL SEAPRE (ETDRAG,NTDRAG,STPRE,NFLEVG)
179	IF(ETCVIM /= 0.0_JPRB) CALL SEAPRE (ETCVIM,NTCVIM,STPRE,NFLEVG)
180	IF(ETPLUI /= 0.0_JPRB) CALL SEAPRE (ETPLUI,NTPLUI,STPRE,NFLEVG)
181	IF(ETRADI /= 0.0_JPRB) THEN
182	IF (LRAY) THEN
183	CALL SEAPRE (ETRADI,NTRADI,STPRE,NFLEVG)
184	ENDIF
185	IF (LRAYFM.OR.LRAYFM15) THEN
186	ETRADI=0._JPRB
187	NTRADI=1
188	ENDIF
189	ENDIF
190	IF(ETNEBU /= 0.0_JPRB) CALL SEAPRE (ETNEBU,NTNEBU,STPRE,NFLEVG)
191	IF(ETOZON /= 0.0_JPRB) CALL SEAPRE (ETOZON,NTOZON,STPRE,NFLEVG)
192	IF(ETDRME /= 0.0_JPRB) CALL SEAPRE (ETDRME,NTDRME,STPRE,NFLEVG)
193	IF(ETCOET /= 0.0_JPRB) CALL SEAPRE (ETCOET,NTCOET,STPRE,NFLEVG)
194	IF(ETAJUC /= 0.0_JPRB) CALL SEAPRE (ETAJUC,NTAJUC,STPRE,NFLEVG)
195	! ------------------------------------------------------------------
196
197	!* 3. Print final values.
198	! -------------------
199
200	WRITE(UNIT=KULOUT,FMT='('' COMMON YOMTOPH '')')
201	WRITE(UNIT=KULOUT,FMT='('' ETQSAT = '',E10.4,'' NTQSAT = '',I10 &
202	& ,'' ETDIFU = '',E10.4,'' NTDIFU = '',I10 &
203	& ,/,'' ETCOEF = '',E10.4,'' NTCOEF = '',I10 &
204	& ,'' ETDRAG = '',E10.4,'' NTDRAG = '',I10 &
205	& ,/,'' ETCVIM = '',E10.4,'' NTCVIM = '',I10 &
206	& ,'' ETPLUI = '',E10.4,'' NTPLUI = '',I10 &
207	& ,/,'' ETRADI = '',E10.4,'' NTRADI = '',I10 &
208	& ,'' ETNEBU = '',E10.4,'' NTNEBU = '',I10 &
209	& ,/,'' ETOZON = '',E10.4,'' NTOZON = '',I10 &
210	& ,'' ETDRME = '',E10.4,'' NTDRME = '',I10 &
211	& ,/,'' ETCOET = '',E10.4,'' NTCOET = '',I10 &
212	& ,/,'' ETAJUC = '',E10.4,'' NTAJUC = '',I10 &
213	& ,/,'' XDRMUK = '',E10.4,'' XDRMUP = '',E10.4 &
214	& ,'' XDRMUX = '',E10.4,'' XDRMTK = '',E10.4 &
215	& ,'' XDRMTP = '',E10.4,'' XDRMTX = '',E10.4 &
216	& ,'' XDRMQK = '',E11.4,'' XDRMQP = '',E11.4 &
217	& ,/,'' RFMESOQ= '',E11.4,'' RCLX = '',E11.4 &
218	& )')&
219	& ETQSAT,NTQSAT,ETDIFU,NTDIFU &
220	& ,ETCOEF,NTCOEF,ETDRAG,NTDRAG &
221	& ,ETCVIM,NTCVIM,ETPLUI,NTPLUI &
222	& ,ETRADI,NTRADI,ETNEBU,NTNEBU &
223	& ,ETOZON,NTOZON,ETDRME,NTDRME &
224	& ,ETCOET,NTCOET &
225	& ,ETAJUC,NTAJUC &
226	& ,XDRMUK,XDRMUP,XDRMUX,XDRMTK,XDRMTP,XDRMTX &
227	& ,XDRMQK,XDRMQP,RFMESOQ,RCLX
228
229	! VERIFICATION OF CONSISTENCY BETWEEN PHYSICAL PARAMETERIZATION
230
231	IF (ETCOEF > ETDIFU.OR.ETCOEF > ETDRAG)THEN
232	WRITE(UNIT=KULOUT,FMT='('' ETCOEF TOO LOW '')')
233	CALL ABOR1('SUTOPH')
234	ENDIF
235	IF (ETQSAT > ETNEBU.OR.ETQSAT > ETPLUI.OR.ETQSAT > ETCVIM)THEN
236	WRITE(UNIT=KULOUT,FMT='('' ETQSAT TOO LOW '')')
237	CALL ABOR1('SUTOPH')
238	ENDIF
239	IF (ETCVIM > ETNEBU)THEN
240	WRITE(UNIT=KULOUT,FMT='('' ETCVIM TOO LOW '')')
241	CALL ABOR1('SUTOPH')
242	ENDIF
243
244	! ------------------------------------------------------------------
245
246	!* 4. INITIALIZE MESOSPHERIC DRAG FOR U,V AND T
247	! -----------------------------------------
248
249	IF (LRRMES.AND..NOT.LAGPHY) THEN
250	WRITE (UNIT=KULOUT,FMT='('' PROFIL VERTICAL DE DRAG MESO'',/&
251	& ,'' LEV'',T15,''VITESSE'',T45,''TEMPERATURE'' &
252	& , T65, ''HUMIDITE'' )')
253	DO JLEV=1,NFLEVG
254	RMESOU(JLEV)=XDRMUK*PMESUF(STPRE(JLEV),XDRMUP)
255	RMESOT(JLEV)=XDRMTK*PMESTF(STPRE(JLEV),XDRMTP)
256	RMESOQ(JLEV)=XDRMQK*PMESQF(STPRE(JLEV),XDRMQP)
257	IF (XDRMUX /= 0.0_JPRB) RMESOU(JLEV)=MIN(RMESOU(JLEV),XDRMUX)
258	IF (XDRMTX /= 0.0_JPRB) RMESOT(JLEV)=MIN(RMESOT(JLEV),XDRMTX)
259	ZMESU=1.0_JPRB/MAX(1.E-8_JPRB,RMESOU(JLEV)3600._JPRB24._JPRB)
260	ZMEST=1.0_JPRB/MAX(1.E-8_JPRB,RMESOT(JLEV)3600._JPRB24._JPRB)
261	ZMESQ=1.0_JPRB/MAX(1.E-8_JPRB,RMESOQ(JLEV)3600._JPRB24._JPRB)
262	WRITE (UNIT=KULOUT,FMT='(I3,T10,E9.3,T20,G9.3,T40,E9.3,T50 &
263	& ,G9.3, T70,E9.3, T80,G9.3)') JLEV,RMESOU(JLEV),ZMESU, &
264	& RMESOT(JLEV),ZMEST, &
265	& RMESOQ(JLEV),ZMESQ
266	ENDDO
267	ENDIF
268
269	! ------------------------------------------------------------------
270
271	IF (LHOOK) CALL DR_HOOK('SUTOPH',1,ZHOOK_HANDLE)
272	END SUBROUTINE SUTOPH

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