source: LMDZ6/trunk/libf/phylmd/rrtm/suphy0.F90 @ 3491

Last change on this file since 3491 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: 23.4 KB
Line 
1
2!OPTIONS XOPT(NOEVAL)
3SUBROUTINE SUPHY0(KULOUT)
4
5!**** *SUPHY0*   - Initialize common YOMPHY0 physics atmospheric
6!                  constants
7
8!     Purpose.
9!     --------
10!           Initialize YOMPHY0, the common that contains the parameters
11!           for the atmospheric part of the physics of the model.
12
13!**   Interface.
14!     ----------
15!        *CALL* *SUPHY0(KULOUT)
16
17!        Explicit arguments :
18!        --------------------
19!        KULOUT : Logical unit for the output
20
21!        Implicit arguments :
22!        --------------------
23!        COMMON YOMPHY0
24
25!     Method.
26!     -------
27!        See documentation
28
29!     Externals.
30!     ----------
31
32!     Reference.
33!     ----------
34!        Documentation ARPEGE
35
36!     Author.
37!     -------
38!        J.-F. Geleyn .
39
40!     Modifications.
41!     --------------
42!        Original : 90-9-1
43!        Ajout de GWDAMP (J.-F. Geleyn) : 91-2-2
44!        Modified by Michel Deque 91-04-01 (param. for convect. clouds)
45!        Ajout de HOBST, NPCLO1/2, XNBMAX et REVGSL, remplacement de
46!           GWDCOE par GWDSE (J.-F. Geleyn, M. Deque, L. Labbe) : 92-4-8
47!        Ajout de VZ0CM (E. Bazile) : 92-3-27
48!        Modified by C. Castejon and E. Gerard 92-02-28 (stat. clouds)
49!        Modified by R. EL Khatib : 93-04-02 Set-up defaults controled by LECMWF
50!        Modified by M. Deque : 95-03-20 (USURIC and USUPRC)
51!        Modified by J.F. Geleyn C. Bossuet : 95-12-20 (GWDBC)
52!        Modified by Luc Gerard: 97-02-26 (entrainement de la qte de mvt horizontale).
53!        Modified by J.M. Piriou: 97-02-28 (schema de nebulosite ACNEBN).
54!        Modified by J.M. Piriou: 97-04-17 (valeurs par defaut).
55!        Modified by J.L. Ricard : seuil (SCO) sur les precip. conv.
56!                                  modif de la turbulence residuelle
57!        Modified by J.M. Piriou: 97-08-21 (introduce Xu-Randall cloudiness).
58!        Modified by M. Deque   : 97-10-21 (introduce GWD lift).
59!        Modified by M. Deque   : 98-02-21 (new mixing length profile).
60!        Modified by V. Lorant  : 98-08-05 (new mixing length profile).
61!        Modified by J.M. Piriou: 98-02-11 (introduce downdrafts tuning parameters).
62!        Modified by J.M. Piriou: 98-03-10 (introduce GRCVPP)
63!        Modified by L. Gerard  : 98-11-30 (TUDGP, TDDGP, GCOMOD)
64!        Modified by R. EL Khatib :98-12-14 Remove LRDSPIL
65!        Modified by J.M. Piriou: 99-01-04 (introduce GCVADS, GCVBETA)
66!        Modified by J.M. Piriou: 99-06-18 (introduce GCVPSI, GCVALFA, USURICL AND USURICE.
67!                                 Change default value for GDDEVA).
68!        Modified by J.M. Piriou: 2000-08-23 (new use of the Richardson critical number (USURID)).
69!        Modified by J.M. Piriou: 2000-08-23 (cloud core buoyancy as a fraction of an undilute plume (GCVNU)).
70!        Modified by J.M. Piriou: 2000-10-06 (exponent USURIDE).
71!        Modified by E. Bazile  : 2000-12-12 CYCORA's default value.
72!        Modified by J.M. Piriou: 2001-04-05 (introduce GCVMLT).
73!        Modified by Y. Bouteloup:2002-06-14 (introduce RCVEVAP).
74!        Modified by F. Bouyssel: 2002-06-25 (introduce UTILGUST, RRGAMMA, RRSCALE).
75!        Modified by J.M. Piriou: 2002-08-19 (introduce GPBLH*).
76!        Modified by D. Banciu:   2002-12-09 (introduce GCVPSIE).
77!        R. El Khatib : 2001-08-07 Pruning options
78!        J.M. Piriou  : 2002-01-10 set default values to operational ones.
79!        03-06, move rnlcurv rnegat into yomphy0 (F. Bouyssel, C. Fischer)
80!        E. Bazile : 2004-02-24 (introduce EDK).
81!        M.Hamrud      01-Oct-2003 CY28 Cleaning
82!        E. Bazile : 2004-06-30 (inroduces XKLM).
83!        R. Brozkova : 2004-11 modifs for Xue-Randall cloud. scheme
84!        P. Marquet & F.Bouyssel : 2004-08-18 (Lopez)
85!        F.Bouyssel : 2005-07-18 (new defaults and new parameters for Lopez)
86!        F.Bouyssel : 2006-01-25 (new defaults for Lopez!)
87!        F. Vana    : 2006-01-30 tunables for pTKE.
88!        R.Brozkova : 2006-03-03 : tuning constants for mixing lengths and Charnock formulae
89!        A.Alias    : 2006-03-10 renaming KDN in RKDN
90!        Modified by GMGEC/EAC  : 2006-05 list of modif.
91!                    V. Lorant  : 99-01-05 (new mixing length profile).
92!                    M. Deque   : 00-03-21 (new entrainment rate VL  ).
93!                    P. Marquet : 2002-11-05 TRENTRVL=0. if not ACPBLH
94!                    P. Marquet : 2004-05-27 TFVR and TFVS for ADVPRC.
95!                    P. Marquet : 2004-10-13 RAUTEFR for snow (ACMICRO).
96!                    P. Marquet : 2004-10-14 RAUTSBET for snow (ACMICRO).
97!                    A. Alias   : 2005-06-23 (param. for ACCVIMPGDY)
98!        E. Bazile & P. Marquet : 2006-04-11 AGRE1,AGRERICR,AJBUMIN,RCOFLM
99!                                  for LPBLE.
100!        F.Bouyssel : 2006-10-30 RQLCV,RQICVMAX,RQICVMIN,RHEVAP
101!        M. Bellus  : 03-Oct-2006 : ALARO-0 phasing (defaults for prognostic
102!                                   convection, pTKE and PIL microphysics)
103!        A.Alias     : 2006-07   FEVAPC added for ACCVIMPGY (JF Gueremy)
104! ------------------------------------------------------------------------
105
106USE PARKIND1  ,ONLY : JPIM     ,JPRB
107USE YOMHOOK   ,ONLY : LHOOK,   DR_HOOK
108
109! Ce qui concerne NULNAM commente par MPL le 15.04.09
110!USE YOMLUN   , ONLY : NULNAM
111USE YOMCT0B  , ONLY : LECMWF
112USE YOMSIMPHL, ONLY : LSIMPH   ,LSMOOTHD ,LSMOOTHA
113USE YOMPHY   , ONLY : LCVCAS   ,LCVLIS   ,LCVRA    ,LMPHYS   ,LCONDWT  ,&
114 & LPROCLD  ,LNEBCO   ,LNEBR    ,LECT     ,LNEBGR   ,LCVRAV3 ,LPIL
115USE YOMPHY0  , ONLY : TYM      ,NPCLO1   ,NPCLO2   ,AERCS1   ,AERCS3   ,&
116 & AERCS5   ,ALMAV    ,BEDIFV   ,ECMNP    ,EDB      ,EDC      ,&
117 & EDD      ,EVAP     ,FONT     ,GALP     ,GCCSV    ,GCOMOD   ,&
118 & GCVADS   ,GCVALFA  ,GCVBETA  ,GCVPSI   ,GDDEVA   ,GDDSDE   ,&
119 & GRCVPP   ,GWDAMP   ,GWDBC    ,GWDCCO   ,GWDCD    ,GWDLT    ,&
120 & AHCLPV   ,GWDSE    ,HOBST    ,HUCOE    ,HUCOE2   ,HUTIL    ,&
121 & HUTIL1   ,HUTIL2   ,&
122 & QSSC     ,QSMIN    ,QSNEBC   ,QSNEBS   ,QSSUSC   ,QSSUSS   ,&
123 & QXRAL    ,QXRDEL   ,QXRR     ,REVGSL   ,RTCAPE   ,SCO      ,&
124 & SENSL    ,SNNBCO   ,SPNBCO   ,SXNBCO   ,TCA      ,TCT      ,&
125 & TCW      ,TENTR    ,TENTRX   ,TDDGP    ,TUDGP    ,TURB     ,&
126 & TVF      ,UHDIFV   ,USDMLT   ,USUPRC   ,USURIC   ,USURID   ,&
127 & USURIDE  ,USURICE  ,USURICL  ,VCHRNK   ,VKARMN   ,VZ0CM    ,&
128 & XNBMAX   ,RICRLM   ,XBLM     ,XMINLM   ,XMAXLM   ,XWSALM   ,&
129 & XWSBLM   ,GCVNU    ,GCVMLT   ,RCVEVAP  ,GPBLHK0  ,GPBLHRA  ,&
130 & UTILGUST ,RRGAMMA  ,RRSCALE  ,GCVPSIE  ,QSUSXC   ,QSUSXS   ,&
131 & ETACUT   ,RNEGAT   ,RNLCURV  ,QSSUSV   ,QXRHX    ,GCISMIN  ,&
132 & GWDPROF  ,GWDVALI  ,RCIN     ,EDK      ,XKLM     ,RPHI0    ,&
133 & RPHIR    ,QXRTGH   ,ADISE    ,ADISI    ,AECLS3   ,AECLS4   ,&
134 & AKN      ,ALD      ,ALPHAE   ,ALPHAT   ,ECTMIN   ,UCWSTAR  ,&
135 & UDECT    ,USHEARM  ,UPRETMIN ,UPRETMAX ,ARSCH    ,ARSCQ    ,&
136 & ARSC1    ,ARSB2    ,ACBRPHIM ,ALMAVE   ,RICRET   ,STTBMIN  ,&
137 & AGREKE   ,RDTFAC   ,RAUTEFS  ,RNINTR   ,RNINTS   ,RQLCR    ,&
138 & RQICRMAX ,RQICRMIN ,RACCEF   ,RRIMEF   ,RHCRIT1  ,RHCRIT2  ,&
139 & RETAMIN  ,TFVR     ,TFVS     ,RAUTEFR  ,RAUTSBET ,GRHCMOD  ,&
140 & RQICRT1  ,RQICRT2  ,RQICRSN  ,RQCRNS   ,RFACNSM  ,RAGGEF   ,&
141 & RQLCV    ,RQICVMAX ,RQICVMIN ,RHEVAP   ,&
142 & AGRE1    ,AGRERICR ,AJBUMIN  ,RCOFLM   ,&
143 & A0ML_AU  ,A0ML_AT  ,A0ML_BU  ,A0ML_BT  ,VZIUSTAR0,&
144 & TENTRVL  ,TRENTRV  ,UETEPS   ,UPRECLP  ,&
145 & ARSC2    ,ARSCT    ,AGRE2    ,AGREF    ,&
146 & AJ1PEPS  ,AJ1MEPS  ,NAJITER  ,&
147 & ALFX     ,TCTC     ,TVFC     ,GAMAP1   ,RKDN      ,&
148 & VVN      ,VVX      ,FENTRT   ,HCMIN    ,FQLIC    ,FNEBC    ,&
149 & NUPTKE   ,GAMTKE   ,RCOLL    ,RFALLL   ,TDDBU    ,&
150 & TDDFR    ,TUDBU    ,TUDFR    ,GCVACHI  ,GCVALMX  ,GCVADMW  ,&
151 & GCVBEE   ,GCVEEX   ,ECMNPI   ,GFRIC    ,GCVSQDN  ,GCVSQDR  ,&
152 & GCVSQDCX ,GRRINTE  ,GRRMINA  ,GDDBETA  ,GDDEVF   ,GDDWPF   ,&
153 & TENTRD   ,RDPHIC   ,GWBFAUT  ,RWBF1    ,RWBF2    ,RAUITN   ,&
154 & RAUITX   ,RAUIUSTE ,RSMDNEBX ,RSMDTX   ,NSMTPA   ,NSMTPB   ,&
155 & FEVAPC
156
157
158IMPLICIT NONE
159
160INTEGER(KIND=JPIM),INTENT(IN)    :: KULOUT
161REAL(KIND=JPRB) :: ZHOOK_HANDLE
162
163#include "abor1.intfb.h"
164#include "posnam.intfb.h"
165#include "surhcri.intfb.h"
166
167#include "namphy0.h"
168
169!     ------------------------------------------------------------------
170
171!*       1.    Set default values.
172!              -------------------
173
174!        1.1 Set implicit default values
175
176IF (LHOOK) CALL DR_HOOK('SUPHY0',0,ZHOOK_HANDLE)
177A0ML_AU=4.5_JPRB
178A0ML_AT=5.0_JPRB
179A0ML_BU=3.0_JPRB
180A0ML_BT=0.8_JPRB
181AERCS1=0.2726_JPRB
182AERCS3=-0.4239_JPRB
183AERCS5=0.3595_JPRB
184ALMAV=300._JPRB
185BEDIFV=0.05_JPRB
186ECMNP=3000._JPRB
187EDB=5._JPRB
188EDC=5._JPRB
189EDD=5._JPRB
190EDK=1.0_JPRB
191ETACUT=1.0_JPRB
192EVAP=4.8E+06_JPRB
193FONT=2.4E+04_JPRB
194GALP=0.53_JPRB
195GCISMIN=6.7E-05_JPRB
196GCCSV=0._JPRB
197GCOMOD=1._JPRB
198GCVADS=0.8_JPRB
199GCVALFA=4.5E-05_JPRB
200GCVBETA=0.2_JPRB
201GCVMLT=0.00016_JPRB
202GCVNU=2.5E-05_JPRB
203GCVPSI=0.5_JPRB
204GCVPSIE=0.0_JPRB
205GDDEVA=0.25_JPRB
206GDDSDE=0.5_JPRB
207GPBLHK0=0.25_JPRB
208GPBLHRA=4._JPRB
209GRCVPP=1._JPRB
210GWDAMP=0.6_JPRB
211GWDBC=2._JPRB
212GWDCCO=1._JPRB
213GWDCD=6._JPRB
214GWDLT=0._JPRB
215GWDSE=3.5E-03_JPRB
216GWDPROF=1._JPRB
217GWDVALI=0._JPRB
218HOBST=3._JPRB
219HUCOE=2._JPRB
220HUCOE2=0.4_JPRB
221HUTIL=1.8_JPRB
222HUTIL1=-0.6_JPRB
223HUTIL2=1.1_JPRB
224NPCLO1=1
225NPCLO2=1
226QSSC=1600._JPRB
227QSMIN=1.E-4_JPRB
228QSNEBC=26000._JPRB
229QSNEBS=0.7_JPRB
230QSSUSC=1._JPRB
231QSSUSS=0.25_JPRB
232QSSUSV=0._JPRB
233QSUSXC=3.3E-05_JPRB
234QSUSXS=3.3E-05_JPRB
235RPHI0=0._JPRB
236RPHIR=1750._JPRB
237QXRAL=10000._JPRB
238QXRDEL=0._JPRB
239QXRHX=1._JPRB
240QXRR=0.5_JPRB
241QXRTGH=3.5_JPRB
242RCIN=0._JPRB
243RCVEVAP=0._JPRB
244REVGSL=80._JPRB
245RTCAPE=10800._JPRB
246SCO=-20._JPRB
247SENSL=1._JPRB
248SNNBCO=0._JPRB
249SPNBCO=3000._JPRB
250SXNBCO=0.5_JPRB
251TCA=1._JPRB
252TCT=1.E-4_JPRB
253TCW=8.E-4_JPRB
254TENTR=2.5E-06_JPRB
255TENTRX=8.E-05_JPRB
256TDDGP=0.8_JPRB
257TUDGP=0.8_JPRB
258TURB=1._JPRB
259TVF=1._JPRB
260TYM(1)=0.92_JPRB
261TYM(2)=0.74_JPRB
262TYM(3)=16.6_JPRB
263TYM(4)=10.1_JPRB
264TYM(5)=0.08_JPRB
265UHDIFV=8.E-04_JPRB
266USDMLT=1.25E+04_JPRB
267USUPRC=0.0_JPRB
268USURIC=1.0_JPRB
269USURID=0.035_JPRB
270USURIDE=1.0_JPRB
271USURICE=0.5_JPRB
272USURICL=4._JPRB
273UTILGUST=0.125_JPRB
274VCHRNK=0.021_JPRB
275VKARMN=0.4_JPRB
276VZ0CM=1.5E-04_JPRB
277VZIUSTAR0=0._JPRB
278XNBMAX=1._JPRB
279AHCLPV=1000._JPRB
280RICRLM=0.5_JPRB
281RRGAMMA=0.8_JPRB
282RRSCALE=1.15E-4_JPRB
283XBLM=6.5_JPRB
284XKLM=1.0_JPRB
285XMAXLM=3000._JPRB
286XMINLM=500._JPRB
287XWSALM=0.1_JPRB
288XWSBLM=7.0_JPRB
289RNEGAT = -7.E-05_JPRB
290RNLCURV = 7.E+04_JPRB
291
292!     - - - - - - - - - - - - - -
293!     The old Convective scheme :
294!     - - - - - - - - - - - - - -
295TRENTRV=1._JPRB
296TENTRVL=-1.0_JPRB
297
298IF ( LCONDWT.AND.LPROCLD ) THEN
299  RDTFAC=0.5_JPRB
300ELSE
301  RDTFAC=1.0_JPRB
302ENDIF
303
304!        - - - - - - - - - -
305!        Lopez Microphysics :
306!        - - - - - - - - - -
307RAUTEFR=1.E-03_JPRB
308RAUTEFS=1.E-03_JPRB
309RAUTSBET=0.025_JPRB
310RNINTR=8.E+06_JPRB
311RNINTS=2.E+06_JPRB
312RQLCR=2.E-04_JPRB
313RQICRMAX=0.3E-04_JPRB
314RQICRMIN=0.2E-06_JPRB
315RQLCV=2.E-04_JPRB
316RQICVMAX=0.3E-04_JPRB
317RQICVMIN=0.2E-06_JPRB
318RQICRT1=-80._JPRB
319RQICRT2=30._JPRB
320RQICRSN=0.5_JPRB
321RQCRNS=0.03_JPRB
322RACCEF=1._JPRB
323RAGGEF=0.2_JPRB
324RRIMEF=1._JPRB
325RHEVAP=0.0_JPRB
326RHCRIT1=0.5_JPRB
327RHCRIT2=0.91_JPRB
328RETAMIN=0.4_JPRB
329RFACNSM=1.4_JPRB
330TFVR=5.0_JPRB
331TFVS=0.6_JPRB
332GRHCMOD=0.3_JPRB
333
334
335!--------------------------
336! PIL MICROPHYSICS
337!--------------------------
338RDPHIC=10000._JPRB
339GWBFAUT=15._JPRB
340! two constants for ACPLUIE_PROG:
341RWBF1=300._JPRB
342RWBF2=4._JPRB
343!
344RAUITN=233.15_JPRB
345RAUITX=263.15_JPRB
346RAUIUSTE=0.025_JPRB
347RSMDNEBX=0.2_JPRB
348RSMDTX=1.0_JPRB
349NSMTPA=2
350NSMTPB=3
351RCOLL=6.9E-03_JPRB
352RFALLL=1.0_JPRB
353!--------------------------
354! Prognostic convection physical parameters
355!--------------------------
356TUDBU=0.5_JPRB
357TDDBU=0.5_JPRB
358TUDFR=0.0012_JPRB
359TDDFR=0.0006_JPRB
360GCVALMX=0.95_JPRB
361! Pas d'activite historique: defaut tres haut,
362! pour que KUO joue tout seul:
363GCVACHI=1.E9_JPRB
364GCVADMW =0
365! Explicit entrainment:
366GCVBEE=0._JPRB ! 0.2_JPRB
367GCVEEX=1._JPRB
368ECMNPI=3000._JPRB
369GFRIC=-1.0_JPRB !1.E-3_JPRB
370! Sqeezing:
371GCVSQDN=0.01_JPRB
372GCVSQDR=0.8_JPRB
373GCVSQDCX=1.0_JPRB ! No squeezing
374! PRECIPITATING AREA PARAMETERS (aplpar):
375GRRINTE=2._JPRB
376GRRMINA=1.E-5_JPRB
377! DD explicit detrainment:
378GDDBETA=0.2_JPRB
379! ACMODO DD PARAMETERS:
380GDDEVF=0.5_JPRB
381GDDWPF=0._JPRB
382! DD ENTRAINMENT RATE:
383TENTRD=1.E-4_JPRB
384
385!     - - - - - - - -
386!     For TKE scheme :
387!     - - - - - - - -
388ADISE=-0.5_JPRB
389ADISI=1.5_JPRB
390AECLS3=3.75_JPRB
391AECLS4=0.3_JPRB
392AKN=0.2_JPRB
393ALD=1.4_JPRB
394ALPHAE=1.0_JPRB
395ALPHAT=1.0_JPRB
396ECTMIN=1.E-10_JPRB
397
398UCWSTAR=1.0_JPRB/3._JPRB
399UDECT=5._JPRB
400USHEARM=1.E-04_JPRB
401UPRETMIN=60000._JPRB
402UPRETMAX=97500._JPRB
403ARSCH=4._JPRB
404ARSCQ=1.2_JPRB
405ARSC1=2.0_JPRB/(3._JPRB*ARSCH*ARSCQ)
406ARSB2=3._JPRB*ARSCH*ARSC1/2.0_JPRB
407ACBRPHIM=2.2_JPRB
408ALMAVE=0._JPRB
409RICRET=0.195_JPRB
410
411STTBMIN=SQRT(3._JPRB)
412! A minimum value for the adimentional jump in boyancy : d(Theta)/Theta
413AJBUMIN=0.005_JPRB
414! The "Master Length" is equal to "RCOFLM*Z_PBL"
415RCOFLM=0.085_JPRB
416
417
418! TKE (P.Marquet)
419UETEPS=1.0_JPRB
420
421!     - - - - - - - - - - - - - - - -
422!     For dry conv. adjustment scheme :
423!     - - - - - - - - - - - - - - - -
424AJ1MEPS=0.99_JPRB
425AJ1PEPS=10.0_JPRB
426NAJITER=30
427
428!     - - - - - - - - - - - - - - - - - - - - - - -
429!     For Grenier (2000) top-PBL entrainment scheme :
430!     - - - - - - - - - - - - - - - - - - - - - - -
431AGRE1=0.16_JPRB
432AGRE2=15._JPRB
433AGREF=0.8_JPRB
434AGREKE=5.0_JPRB
435AGRERICR=50._JPRB
436
437! Pseudo prognostic TKE scheme
438NUPTKE=0.52_JPRB
439GAMTKE=0.5_JPRB
440
441
442
443!     - - - - - - -
444!     For ACCVIMPGY :
445!     - - - - - - -
446ALFX=10.E-02_JPRB
447TCTC=1.60E-04_JPRB
448TVFC=1._JPRB
449GAMAP1=1.5_JPRB
450RKDN=30.E-06_JPRB
451VVN=0.0_JPRB
452VVX=-45._JPRB
453FENTRT=2.5_JPRB
454HCMIN=0.0_JPRB
455FQLIC=2.5_JPRB
456FNEBC=25.0_JPRB
457FEVAPC=3.5_JPRB
458
459!        1.2 Modify default values according to LECMWF
460
461IF (LECMWF) THEN
462ELSE
463ENDIF
464
465!     ------------------------------------------------------------------
466
467!*       2.    Modify default values.
468!              ----------------------
469
470! Ce qui concerne NAMPHY0 commente par MPL le 15.04.09
471!CALL POSNAM(NULNAM,'NAMPHY0')
472!READ(NULNAM,NAMPHY0)
473
474IF(.NOT.(LNEBCO.AND.(LNEBR.OR.LNEBGR.OR.LECT)) .AND.LCVRAV3) THEN
475  WRITE(UNIT=KULOUT,FMT='(A)') ' '
476  WRITE(UNIT=KULOUT,FMT='(A)') ' !'
477  WRITE(UNIT=KULOUT,FMT='(A)') ' ! TENTRVL is set to 0. in SUPHY0  !!'
478  WRITE(UNIT=KULOUT,FMT='(A)') ' !'
479  WRITE(UNIT=KULOUT,FMT='(A)') ' '
480  TENTRVL = 0.0_JPRB
481ENDIF
482!     ------------------------------------------------------------------
483
484!*       3.    Print final values.
485!              -------------------
486
487WRITE(UNIT=KULOUT,FMT='('' COMMON YOMPHY0 '')')
488WRITE(UNIT=KULOUT,FMT='('' AERCS1 = '',E11.4,'' AERCS3 = '',E11.4 &
489 & ,'' AERCS5 = '',E11.4,'' ALMAV = '',E11.4,'' ECMNP = '',E11.4 &
490 & ,'' EDB = '',E11.4,/,'' EDC = '',E11.4,'' EDD = '',E11.4 &
491 & ,'' EDK = '',E11.4,'' ETACUT = '',E11.4 &
492 & ,'' EVAP = '',E11.4,'' FONT = '',E11.4,'' GWDAMP = '',E11.4 &
493 & ,'' GWDSE = '',E11.4,'' GWDBC = '',E11.4,/&
494 & ,'' GWDCD = '',E11.4,/&
495 & ,'' GWDPROF = '',E11.4,'' GWDVALI = '',E11.4,/&
496 & ,'' HUCOE = '',E11.4,'' HUTIL = '',E11.4 ,'' HUTIL1 = '',E11.4 ,'' HUTIL2 = '',E11.4 &
497 & ,'' VCHRNK = '',E11.4,'' VKARMN = '',E11.4 &
498 & ,'' SNNBCO = '',E11.4,/,'' SPNBCO = '',E11.4 &
499 & ,'' SXNBCO = '',E11.4,'' HOBST = '',E11.4,'' NPCLO1 = '',I4 &
500 & ,'' NPCLO2 = '',I4,'' RCIN = '',E11.4,'' RCVEVAP = '',E11.4 &
501 & ,'' REVGSL = '',E11.4,/&
502 & ,'' RTCAPE= '',E11.4,'' GCOMOD= '',E11.4,/&
503 & ,'' UHDIFV = '',E11.4,'' VZ0CM = '',E11.4,'' VZIUSTAR0 = '',E11.4 &
504 & ,'' XNBMAX = '',E11.4,'' GALP = '',E11.4,'' SENSL = '',E11.4 &
505 & ,'' TCA = '',E11.4,/,'' TCT = '',E11.4,'' TCW = '',E11.4 &
506 & ,'' TURB = '',E11.4,'' TVF = '',E11.4,/&
507 & ,'' TYM = '',5E11.4,'' QSMIN = '',E11.4,/&
508 & ,'' QSSC = '',E11.4,'' RPHI0 = '',E11.4,'' RPHIR = '',E11.4 &
509 & ,'' BEDIFV = '',E11.4,'' SCO = '',E11.4 &
510 & ,'' USDMLT = '',E11.4,/&
511 & ,'' GDDEVA = '',E11.4,'' GDDSDE = '',E11.4,/&
512 & ,'' GWDCCO = '',E11.4 &
513 & ,'' HUCOE2 = '',E11.4,/&
514 & ,'' TENTR = '',E11.4,'' TENTRX = '',E11.4 &
515 & ,'' TUDGP = '',E11.4,'' TDDGP = '',E11.4 &
516 & ,'' GRCVPP = '',E11.4 &
517 & )')&
518 & AERCS1,AERCS3,AERCS5,ALMAV,ECMNP,EDB,EDC,EDD,EDK,ETACUT,EVAP,FONT,&
519 & GWDAMP,GWDSE,GWDBC,GWDCD,GWDPROF,GWDVALI,&
520 & HUCOE,HUTIL,HUTIL1,HUTIL2,VCHRNK,VKARMN,SNNBCO,SPNBCO,SXNBCO,HOBST,&
521 & NPCLO1,NPCLO2,RCIN,RCVEVAP,REVGSL,RTCAPE,GCOMOD,&
522 & UHDIFV,VZ0CM,VZIUSTAR0,XNBMAX,GALP,SENSL,TCA,TCT,TCW,&
523 & TURB,TVF,TYM,QSMIN,QSSC,RPHI0,RPHIR,BEDIFV,SCO,USDMLT,&
524 & GDDEVA,GDDSDE,GWDCCO,&
525 & HUCOE2,&
526 & TENTR,TENTRX,TUDGP,TDDGP,GRCVPP 
527WRITE(UNIT=KULOUT,FMT='('' USUPRC = '',E11.4,'' USURIC = '',E11.4 &
528 & ,'' QSNEBC = '',E11.4,'' QSNEBS = '',E11.4 &
529 & ,'' QSSUSC = '',E11.4,'' QSSUSS = '',E11.4,'' QSSUSV = '',E11.4 &
530 & ,'' QSUSXC = '',E11.4,'' QSUSXS = '',E11.4 &
531 & ,'' GCCSV  = '',E11.4,/&
532 & ,'' QXRAL  = '',E11.4,'' QXRDEL = '',E11.4 &
533 & ,'' QXRHX  = '',E11.4,'' QXRR   = '',E11.4,'' QXRTGH = '',E11.4,/&
534 & ,'' GWDLT  = '',E11.4,'' AHCLPV = '',E11.4,/&
535 & ,'' GCVADS = '',E11.4,'' GCVBETA= '',E11.4 &
536 & ,'' RICRLM = '',E11.4,'' XBLM   = '',E11.4,'' XKLM = '',E11.4 &
537 & ,'' XMINLM = '',E11.4,'' XMAXLM = '',E11.4 &
538 & )')&
539 & USUPRC,USURIC,QSNEBC,QSNEBS,QSSUSC,QSSUSS,QSSUSV,QSUSXC,QSUSXS,GCCSV,QXRAL &
540 & ,QXRDEL,QXRHX,QXRR,QXRTGH,GWDLT,AHCLPV,GCVADS,GCVBETA,RICRLM,XBLM,XKLM,XMINLM &
541 & ,XMAXLM 
542WRITE(UNIT=KULOUT,FMT='('' XWSALM = '',E11.4,'' XWSBLM = '',E11.4 &
543 & ,'' GCVALFA= '',E11.4,'' GCVPSI = '',E11.4,'' GCVPSIE = '',E11.4 &
544 & ,'' USURICL= '',E11.4,'' USURICE= '',E11.4,/ &
545 & ,'' USURID= '',E11.4,'' USURIDE= '',E11.4,'' GCVNU= '',E11.4 &
546 & ,'' GCVMLT= '',E11.4,'' GPBLHK0= '',E11.4,'' GPBLHRA = '',E11.4 &
547 & ,'' UTILGUST= '',E11.4,'' RRGAMMA= '',E11.4,'' RRSCALE = '',E11.4 &
548 & )')&
549 & XWSALM,XWSBLM,GCVALFA,GCVPSI,GCVPSIE,USURICL,USURICE,USURID,USURIDE,GCVNU,GCVMLT,GPBLHK0 &
550 & ,GPBLHRA,UTILGUST,RRGAMMA,RRSCALE 
551WRITE(UNIT=KULOUT,FMT='('' RNEGAT == '',E11.4,'' RNLCURV = '',E11.4 &
552 & )') RNEGAT,RNLCURV 
553WRITE(UNIT=KULOUT,FMT='('' RDTFAC == '',E11.4 )') RDTFAC
554WRITE(UNIT=KULOUT,FMT='(9(5(A,E11.4),/))') 'GCISMIN=',GCISMIN
555WRITE(UNIT=KULOUT,FMT='('' A0ML_AU == '',E11.4,'' A0ML_AT == '',E11.4 &
556 &,'' A0ML_BU == '',E11.4,'' A0ML_BT == '',E11.4 )') A0ML_AU,A0ML_AT&
557 &,A0ML_BU,A0ML_BT
558
559!     - - - - - - - -
560!     For TKE scheme :
561!     - - - - - - - -
562! WRITE(UNIT=KULOUT,FMT='( '' ADISE   = '',E11.4,'' ADISI   = '',E11.4,/ &
563!  &,'' AECLS3  = '',E11.4,'' AECLS4  = '',E11.4,'' AKN     = '',E11.4,/ &
564!  &,'' ALD     = '',E11.4,'' ALPHAE  = '',E11.4,'' ALPHAT  = '',E11.4,/ &
565!  &,'' ECTMIN  = '',E11.4,'' UCWSTAR = '',E11.4,'' UDECT   = '',E11.4,/ &
566!  &,'' USHEARM = '',E11.4,/ &
567!  &,'' UPRETMIN= '',E11.4,'' UPRETMAX= '',E11.4,'' ARSCH   = '',E11.4,/ &
568!  &,'' ARSCQ   = '',E11.4,'' ARSC1   = '',E11.4,/ &
569!  &,'' ARSB2   = '',E11.4,'' STTBMIN = '',E11.4,/ &
570!  &,'' ACBRPHIM= '',E11.4,'' ALMAVE  = '',E11.4,'' RICRET  = '',E11.4,/ &
571!  &,'' UETEPS  = '',E11.4,/ &
572!  &,'' ABJUMIN = '',E11.4,'' RCOFLM  = '',E11.4,&
573!      &)')&
574   WRITE(UNIT=KULOUT,FMT=*) &
575  &ADISE,ADISI,AECLS3,AECLS4,AKN,ALD,ALPHAE,ALPHAT,ECTMIN,UCWSTAR,UDECT,&
576  &USHEARM,UPRETMIN,UPRETMAX,ARSCH,ARSCQ,ARSC1,ARSB2,STTBMIN,&
577  &ACBRPHIM,ALMAVE,RICRET,UETEPS,AJBUMIN,RCOFLM
578
579
580!       - - - - - - - - - -
581!       Lopez Microphysics :
582!       - - - - - - - - - -
583WRITE(UNIT=KULOUT,FMT='('' - - - - - - - - - - - '')')
584WRITE(UNIT=KULOUT,FMT='(''  Microphysics scheme  '')')
585WRITE(UNIT=KULOUT,FMT='('' - - - - - - - - - - - '')')
586WRITE(UNIT=KULOUT,FMT='( '' RAUTEFR = '',E11.4   &
587 &,'' RAUTEFS = '',E11.4,'' RAUTSBET= '',E11.4,/ &
588 &,'' RNINTR  = '',E11.4,'' RNINTS  = '',E11.4,/ &
589 &,'' RQLCR   = '',E11.4,'' RQCRNS  = '',E11.4,/ &
590 &,'' RQICRMIN= '',E11.4,'' RQICRMAX= '',E11.4,/ &
591 &,'' RQLCV   = '',E11.4 &
592 &,'' RQICVMIN= '',E11.4,'' RQICVMAX= '',E11.4,/ &
593 &,'' RQICRT1 = '',E11.4,'' RQICRT2 = '',E11.4,/ &
594 &,'' RQICRSN = '',E11.4,'' RACCEF  = '',F11.4,/ &
595 &,'' RAGGEF  = '',F11.4,'' RRIMEF  = '',F11.4,/ &
596 &,'' RHCRIT1 = '',F11.6,'' RHCRIT2 = '',F11.6,/ &
597 &,'' RETAMIN = '',F11.6,'' RFACNSM = '',F11.6,/ &
598 &,'' TFVR    = '',F11.6,'' TFVS    = '',F11.6,/ &
599 &,'' GRHCMOD = '',F11.6,'' RHEVAP  = '',F11.6,/ &
600 &    )') &
601 &RAUTEFR,RAUTEFS,RAUTSBET,RNINTR,RNINTS,RQLCR,RQCRNS,RQICRMIN,RQICRMAX, &
602 &RQLCV,RQICVMIN,RQICVMAX,RQICRT1,RQICRT2,RQICRSN,RACCEF,RAGGEF,RRIMEF, &
603 &RHCRIT1,RHCRIT2,RETAMIN,RFACNSM,TFVR,TFVS,GRHCMOD,RHEVAP
604
605!     - - - - - - - - - - -
606!     For Grenier scheme :
607!     - - - - - - - - - - -
608!WRITE(UNIT=KULOUT,FMT='('' AGRE1   = '',E11.4,'' AGRE2   = '',E11.4,'' AGREF   = '',E11.4,/ &
609! & ,'' AGRERICR= '',E11.4,'' AGREKE  = '',E11.4, &
610! & )')&
611WRITE(UNIT=KULOUT,FMT=*) &
612 & AGRE1,    AGRE2,   AGREF,      AGRERICR, AGREKE
613
614!     - - - - - - - - - - - - - - - -
615!     For dry conv. adjustment scheme :                                -
616!     - - - - - - - - - - - - - - - -
617WRITE(UNIT=KULOUT,FMT='(&
618 & '' AJ1PEPS = '',E11.4,'' AJ1MEPS = '',E11.4,'' NAJITER = '',I3,8X &
619 & )')&
620 & AJ1PEPS, AJ1MEPS, NAJITER
621
622!     - - - - - - -
623!     For ACCVIMPGY :
624!     - - - - - - -
625WRITE(UNIT=KULOUT,FMT='( '' ALFX    = '',E11.4  &
626 &,'' TCTC    = '',E11.4,'' TVFC    = '',F11.6,/ &
627 &,'' GAMAP1  = '',F11.6,'' RKDN    = '',E11.4,/ &
628 &,'' VVN     = '',F11.6,'' VVX     = '',F11.6,/ &
629 &,'' FENTRT  = '',F11.6,'' HCMIN   = '',F11.6  &
630 &,'' FQLIC   = '',F11.6,'' FNEBC   = '',F11.6,/ &
631 &,'' FEVAPC  = '',F11.6)')&
632 & ALFX, TCTC, TVFC, GAMAP1, RKDN, VVN, VVX, FENTRT, &
633 & HCMIN, FQLIC, FNEBC, FEVAPC
634
635
636WRITE(UNIT=KULOUT,FMT='(''  Pseudo prognostic TKE scheme  '')')
637WRITE(UNIT=KULOUT,FMT='( '' NUPTKE = '',E11.4  &
638 &'' GAMTKE = '',E11.4)') NUPTKE,GAMTKE
639
640WRITE(KULOUT,'(/'' PIL MICROPHYSICS : '')')
641WRITE(UNIT=KULOUT,FMT='('' RAUIUSTE = '',E10.4  &
642 &,'' RAUITN = '',F8.3,'' RAUITX = '',F8.3  &
643 &,'' RDPHIC = '',F8.2   &
644 &,'' GWBFAUT = '',F5.2 &
645 &,'' RWBF1 = '',F6.2,'' RWBF2 = '',F5.2 &
646 &,'' RSMDNEBX = '',F5.2 &
647 &,'' RSMDTX = '',F5.2 &
648 &,'' NSMTPA = '',I2 &
649 &,'' NSMTPB = '',I2 &
650 &,'' RCOLL = '',E11.4 &
651 &,'' RFALLL = '',E11.4 &
652 &    )') &
653 &RAUIUSTE,RAUITN,RAUITX,RDPHIC,GWBFAUT,RWBF1,RWBF2,&
654 &RSMDNEBX, RSMDTX, NSMTPA, NSMTPB, RCOLL, RFALLL
655!----------------------------------------
656WRITE(KULOUT,'(/'' PROGNOSTIC CONVECTION '')')
657if (1==0) then     !!!!! A REVOIR (MPL)
658WRITE(KULOUT,&
659 &'('' TUDBU='',E16.6,'' TUDFR='',E16.6,'' TDDBU='',E16.6,'' TDDFR='', &
660 & E16.6,&
661 & '' GCVALMX='',G10.4,'' GCVACHI='',E16.6,&
662 & '' GCVADMW='',G10.4,&
663 & '' GCVEEX ='',G10.4,&
664 & '' GCVBEE ='',G10.4,&
665 & '' GCVSQDN ='',G10.4,&
666 & '' GCVSQDR ='',G10.4,&
667 & '' GCVSQDCX ='',G10.4,&
668 & '' ECMNPI ='',G10.4,&
669 & '' GFRIC ='',G10.4&
670 & )')TUDBU,TUDFR,TDDBU,TDDFR,GCVALMX,GCVACHI,&
671 &    GCVADMW,GCVEEX,GCVBEE, &
672 &    GCVSQDN, GCVSQDR, GCVSQDCX, ECMNPI,GFRIC
673else
674  print*,'>>>>> TOTO1 ', TUDBU,TUDFR,TDDBU,TDDFR,GCVALMX,GCVACHI,&
675 &    GCVADMW,GCVEEX,GCVBEE, &
676 &    GCVSQDN, GCVSQDR, GCVSQDCX, ECMNPI,GFRIC
677endif
678WRITE(KULOUT,&
679 &'('' GDDEVF='',G10.4,'' GDDWPF='',G10.4,'' GDDBETA='',G10.4)')&
680 & GDDEVF, GDDWPF, GDDBETA
681WRITE(KULOUT,&
682 & '('' GRRINTE ='',G10.4,'' GRRMINA ='',G10.4&
683 & )') GRRINTE, GRRMINA
684!     ------------------------------------------------------------------
685
686!*       4.    Check consistency between logical and real namelist inputs.
687!              -------------------
688
689IF (LMPHYS) THEN
690
691  IF(LCVRA.AND.((TUDGP /= 0.0_JPRB.OR.TDDGP /= 0.0_JPRB).AND..NOT.LCVCAS)) THEN
692    WRITE(UNIT=KULOUT,FMT='(A)') &
693     & 'INCONSISTENCY BETWEEN TUDGP, TDDGP AND LCVCAS!...' 
694    CALL ABOR1('TUDP<>0. OR TDDGP<>0. IMPLIES LCVCAS=T!...')
695  ENDIF
696
697  IF(.NOT.LCVLIS.AND.GCVPSI /= 0.0_JPRB) THEN
698    WRITE(UNIT=KULOUT,FMT='(A)') 'INCONSISTENCY BETWEEN LCVLIS AND GCVPSI!...'
699    CALL ABOR1('LCVLIS=F IMPLIES GCVPSI=0.!...')
700  ENDIF
701
702ENDIF
703
704!*  Consistency check for simplified physics keys
705
706IF ((LMPHYS.OR.LSIMPH).AND.(LSMOOTHD.OR.LSMOOTHA)) THEN
707
708  IF(RNLCURV == 0.0_JPRB) THEN
709    WRITE(UNIT=KULOUT,FMT='(A)') 'SMOOTHING IN SIM. PH. BUT RNLCURV = ZERO'
710    CALL ABOR1('PHYSICS AND SMOOTHING IMPLY RNLCURV /= ZERO')
711  ENDIF
712
713ENDIF
714IF (LPIL) THEN
715! Setup RHCRI profile(s)
716! (for LAM case... GAW set up by suecuv, called before suphy)
717! (For Not LAM, SULEG called by sugem called before suphy)
718  CALL SURHCRI(KULOUT)
719! CALL SULOCST(KULOUT)
720ENDIF
721
722IF (LHOOK) CALL DR_HOOK('SUPHY0',1,ZHOOK_HANDLE)
723END SUBROUTINE SUPHY0
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