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vlspltgen_loc.F @ 5020

Last change on this file since 5020 was 4996, checked in by evignon, 2 months ago
ajout d'un flag pour le calcul de qsat dans la condtion de "francis" pour l'advection de l'humidite (q<qsat_aval). En activant ce flag, on calcule qsat /liquide quelque soit la temperature et on peut donc ainsi autoriser l'advection de sursaturations / glace à T<0oC.
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: 14.6 KB

Line
1
2	!
3	! $Header$
4	!
5	SUBROUTINE vlspltgen_loc( q,pente_max,masse,w,pbaru,pbarv,
6	& pdt, p,pk,teta )
7
8	c
9	c Auteurs: P.Le Van, F.Hourdin, F.Forget, F.Codron
10	c
11	c ********************************************************************
12	c Schema d'advection " pseudo amont " .
13	c + test sur humidite specifique: Q advecte< Qsat aval
14	c (F. Codron, 10/99)
15	c ********************************************************************
16	c q,pbaru,pbarv,w sont des arguments d'entree pour le s-pg ....
17	c
18	c pente_max facteur de limitation des pentes: 2 en general
19	c 0 pour un schema amont
20	c pbaru,pbarv,w flux de masse en u ,v ,w
21	c pdt pas de temps
22	c
23	c teta temperature potentielle, p pression aux interfaces,
24	c pk exner au milieu des couches necessaire pour calculer Qsat
25	c --------------------------------------------------------------------
26	USE parallel_lmdz
27	USE mod_hallo
28	USE Write_Field_loc
29	USE VAMPIR
30	! CRisi: on rajoute variables utiles d'infotrac
31	USE infotrac, ONLY : nqtot, tracers, isoCheck
32	USE vlspltgen_mod
33	USE comconst_mod, ONLY: cpp
34	USE logic_mod, ONLY: adv_qsat_liq
35	IMPLICIT NONE
36
37	c
38	include "dimensions.h"
39	include "paramet.h"
40
41	c
42	c Arguments:
43	c ----------
44	REAL masse(ijb_u:ije_u,llm),pente_max
45	REAL pbaru( ijb_u:ije_u,llm ),pbarv( ijb_v:ije_v,llm)
46	REAL q(ijb_u:ije_u,llm,nqtot)
47	REAL w(ijb_u:ije_u,llm),pdt
48	REAL p(ijb_u:ije_u,llmp1),teta(ijb_u:ije_u,llm)
49	REAL pk(ijb_u:ije_u,llm)
50	c
51	c Local
52	c ---------
53	c
54	INTEGER ij,l
55	c
56	REAL zzpbar, zzw
57
58	REAL qmin,qmax
59	DATA qmin,qmax/0.,1.e33/
60
61	c--pour rapport de melange saturant--
62
63	REAL rtt,retv,r2es,r3les,r3ies,r4les,r4ies,play
64	REAL ptarg,pdelarg,foeew,zdelta
65	REAL tempe(ijb_u:ije_u)
66	INTEGER ijb,ije,iq,iq2,ifils
67	LOGICAL, SAVE :: firstcall=.TRUE.
68	!$OMP THREADPRIVATE(firstcall)
69	type(request),SAVE :: MyRequest1
70	!$OMP THREADPRIVATE(MyRequest1)
71	type(request),SAVE :: MyRequest2
72	!$OMP THREADPRIVATE(MyRequest2)
73	c fonction psat(T)
74
75	FOEEW ( PTARG,PDELARG ) = EXP (
76	* (R3LES(1.-PDELARG)+R3IESPDELARG) * (PTARG-RTT)
77	* / (PTARG-(R4LES(1.-PDELARG)+R4IESPDELARG)) )
78
79	r2es = 380.11733
80	r3les = 17.269
81	r3ies = 21.875
82	r4les = 35.86
83	r4ies = 7.66
84	retv = 0.6077667
85	rtt = 273.16
86
87	c Allocate variables depending on dynamic variable nqtot
88
89	IF (firstcall) THEN
90	firstcall=.FALSE.
91	END IF
92	c-- Calcul de Qsat en chaque point
93	c-- approximation: au milieu des couches play(l)=(p(l)+p(l+1))/2
94	c pour eviter une exponentielle.
95
96	call SetTag(MyRequest1,100)
97	call SetTag(MyRequest2,101)
98
99
100	ijb=ij_begin-iip1
101	ije=ij_end+iip1
102	if (pole_nord) ijb=ij_begin
103	if (pole_sud) ije=ij_end
104
105	c$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
106	DO l = 1, llm
107	DO ij = ijb, ije
108	tempe(ij) = teta(ij,l) * pk(ij,l) /cpp
109	ENDDO
110	DO ij = ijb, ije
111	IF (adv_qsat_liq) THEN
112	zdelta = 0.
113	ELSE
114	zdelta = MAX( 0., SIGN(1., rtt - tempe(ij)) )
115	ENDIF
116	play = 0.5*(p(ij,l)+p(ij,l+1))
117	qsat(ij,l) = MIN(0.5, r2es* FOEEW(tempe(ij),zdelta) / play )
118	qsat(ij,l) = qsat(ij,l) / ( 1. - retv * qsat(ij,l) )
119	ENDDO
120	ENDDO
121	c$OMP END DO NOWAIT
122	c PRINT*,'Debut vlsplt version debug sans vlyqs'
123
124	zzpbar = 0.5 * pdt
125	zzw = pdt
126
127	ijb=ij_begin
128	ije=ij_end
129	if (pole_nord) ijb=ijb+iip1
130	if (pole_sud) ije=ije-iip1
131
132	c$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
133	DO l=1,llm
134	DO ij = ijb,ije
135	mu(ij,l)=pbaru(ij,l) * zzpbar
136	ENDDO
137	ENDDO
138	c$OMP END DO NOWAIT
139
140	ijb=ij_begin-iip1
141	ije=ij_end
142	if (pole_nord) ijb=ij_begin
143	if (pole_sud) ije=ij_end-iip1
144
145	c$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
146	DO l=1,llm
147	DO ij=ijb,ije
148	mv(ij,l)=pbarv(ij,l) * zzpbar
149	ENDDO
150	ENDDO
151	c$OMP END DO NOWAIT
152
153	ijb=ij_begin
154	ije=ij_end
155
156	DO iq=1,nqtot
157	c$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
158	DO l=1,llm
159	DO ij=ijb,ije
160	mw(ij,l,iq)=w(ij,l) * zzw
161	ENDDO
162	ENDDO
163	c$OMP END DO NOWAIT
164	ENDDO
165
166	DO iq=1,nqtot
167	c$OMP MASTER
168	DO ij=ijb,ije
169	mw(ij,llm+1,iq)=0.
170	ENDDO
171	c$OMP END MASTER
172	ENDDO
173
174	c CALL SCOPY(ijp1llm,q,1,zq,1)
175	c CALL SCOPY(ijp1llm,masse,1,zm,1)
176
177	ijb=ij_begin
178	ije=ij_end
179
180	DO iq=1,nqtot
181	c$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
182	DO l=1,llm
183	zq(ijb:ije,l,iq)=q(ijb:ije,l,iq)
184	zm(ijb:ije,l,iq)=masse(ijb:ije,l)
185	ENDDO
186	c$OMP END DO NOWAIT
187	ENDDO
188
189	#ifdef DEBUG_IO
190	CALL WriteField_u('mu',mu)
191	CALL WriteField_v('mv',mv)
192	CALL WriteField_u('mw',mw)
193	CALL WriteField_u('qsat',qsat)
194	#endif
195
196	! verif temporaire
197	ijb=ij_begin
198	ije=ij_end
199	call check_isotopes(zq,ijb,ije,'vlspltgen_loc 191')
200
201	c$OMP BARRIER
202	DO iq=1,nqtot
203	! CRisi: on ne boucle que sur les pères= ceux qui sont transportés directement par l'air
204	IF(tracers(iq)%parent /= 'air') CYCLE
205	!write(,) 'vlspltgen 192: iq,iadv=',iq,tracers(iq)%iadv
206	#ifdef DEBUG_IO
207	CALL WriteField_u('zq',zq(:,:,iq))
208	CALL WriteField_u('zm',zm(:,:,iq))
209	#endif
210	SELECT CASE(tracers(iq)%iadv)
211	CASE(0); CYCLE
212	CASE(10)
213	#ifdef _ADV_HALO
214	! CRisi: on ajoute les nombres de fils et tableaux des fils
215	! On suppose qu'on ne peut advecter les fils que par le schéma 10.
216	call vlx_loc(zq,pente_max,zm,mu,
217	& ij_begin,ij_begin+2*iip1-1,iq)
218	call vlx_loc(zq,pente_max,zm,mu,
219	& ij_end-2*iip1+1,ij_end,iq)
220	#else
221	call vlx_loc(zq,pente_max,zm,mu,
222	& ij_begin,ij_end,iq)
223	#endif
224
225	c$OMP MASTER
226	call VTb(VTHallo)
227	c$OMP END MASTER
228	call Register_Hallo_u(zq(:,:,iq),llm,2,2,2,2,MyRequest1)
229	call Register_Hallo_u(zm(:,:,iq),llm,1,1,1,1,MyRequest1)
230	! CRisi
231	do ifils=1,tracers(iq)%nqDescen
232	iq2=tracers(iq)%iqDescen(ifils)
233	call Register_Hallo_u(zq(:,:,iq2),llm,2,2,2,2,MyRequest1)
234	call Register_Hallo_u(zm(:,:,iq2),llm,1,1,1,1,MyRequest1)
235	enddo
236
237	c$OMP MASTER
238	call VTe(VTHallo)
239	c$OMP END MASTER
240	CASE(14)
241	#ifdef _ADV_HALO
242	call vlxqs_loc(zq,pente_max,zm,mu,
243	& qsat,ij_begin,ij_begin+2*iip1-1,iq)
244	call vlxqs_loc(zq,pente_max,zm,mu,
245	& qsat,ij_end-2*iip1+1,ij_end,iq)
246	#else
247	call vlxqs_loc(zq,pente_max,zm,mu,
248	& qsat,ij_begin,ij_end,iq)
249	#endif
250
251	c$OMP MASTER
252	call VTb(VTHallo)
253	c$OMP END MASTER
254
255	call Register_Hallo_u(zq(:,:,iq),llm,2,2,2,2,MyRequest1)
256	call Register_Hallo_u(zm(:,:,iq),llm,1,1,1,1,MyRequest1)
257	do ifils=1,tracers(iq)%nqDescen
258	iq2=tracers(iq)%iqDescen(ifils)
259	call Register_Hallo_u(zq(:,:,iq2),llm,2,2,2,2,MyRequest1)
260	call Register_Hallo_u(zm(:,:,iq2),llm,1,1,1,1,MyRequest1)
261	enddo
262
263	c$OMP MASTER
264	call VTe(VTHallo)
265	c$OMP END MASTER
266	CASE DEFAULT
267	CALL abort_gcm("vlspltgen_loc","schema non parallelise",1)
268	END SELECT
269
270	enddo !DO iq=1,nqtot
271
272
273	c$OMP BARRIER
274	c$OMP MASTER
275	call VTb(VTHallo)
276	c$OMP END MASTER
277
278	call SendRequest(MyRequest1)
279
280	c$OMP MASTER
281	call VTe(VTHallo)
282	c$OMP END MASTER
283	c$OMP BARRIER
284
285	! verif temporaire
286	ijb=ij_begin-2*iip1
287	ije=ij_end+2*iip1
288	if (pole_nord) ijb=ij_begin
289	if (pole_sud) ije=ij_end
290	call check_isotopes(zq,ij_begin,ij_end,'vlspltgen_loc 280')
291
292	do iq=1,nqtot
293	IF(tracers(iq)%parent /= 'air') CYCLE
294	!write(,) 'vlspltgen 279: iq=',iq
295
296	SELECT CASE(tracers(iq)%iadv)
297	CASE(0); CYCLE
298	CASE(10)
299	#ifdef _ADV_HALLO
300	call vlx_loc(zq,pente_max,zm,mu,
301	& ij_begin+2iip1,ij_end-2iip1,iq)
302	#endif
303	CASE(14)
304	#ifdef _ADV_HALLO
305	call vlxqs_loc(zq,pente_max,zm,mu,
306	& qsat,ij_begin+2iip1,ij_end-2iip1,iq)
307	#endif
308	CASE DEFAULT
309	CALL abort_gcm("vlspltgen_p","schema non parallelise",1)
310	END SELECT
311
312	enddo
313	c$OMP BARRIER
314	c$OMP MASTER
315	call VTb(VTHallo)
316	c$OMP END MASTER
317
318	! call WaitRecvRequest(MyRequest1)
319	! call WaitSendRequest(MyRequest1)
320	c$OMP BARRIER
321	call WaitRequest(MyRequest1)
322
323
324	c$OMP MASTER
325	call VTe(VTHallo)
326	c$OMP END MASTER
327	c$OMP BARRIER
328
329
330	IF(isoCheck) THEN
331	call check_isotopes(zq,ij_begin,ij_end,'vlspltgen_loc 326')
332	ijb=ij_begin-2*iip1
333	ije=ij_end+2*iip1
334	if (pole_nord) ijb=ij_begin
335	if (pole_sud) ije=ij_end
336	call check_isotopes(zq,ijb,ije,'vlspltgen_loc 336')
337	END IF
338
339	do iq = 1, nqtot
340	IF(tracers(iq)%parent /= 'air') CYCLE
341	!write(,) 'vlspltgen 321: iq=',iq
342	#ifdef DEBUG_IO
343	CALL WriteField_u('zq',zq(:,:,iq))
344	CALL WriteField_u('zm',zm(:,:,iq))
345	#endif
346
347	SELECT CASE(tracers(iq)%iadv)
348	CASE(0); CYCLE
349	CASE(10); call vly_loc(zq,pente_max,zm,mv, iq)
350	CASE(14); call vlyqs_loc(zq,pente_max,zm,mv,qsat,iq)
351	CASE DEFAULT
352	CALL abort_gcm("vlspltgen_p","schema non parallelise",1)
353	END SELECT
354
355	enddo
356
357	call check_isotopes(zq,ij_begin,ij_end,'vlspltgen_loc 357')
358
359	do iq = 1, nqtot
360	IF(tracers(iq)%parent /= 'air') CYCLE
361	!write(,) 'vlspltgen 349: iq=',iq
362	#ifdef DEBUG_IO
363	CALL WriteField_u('zq',zq(:,:,iq))
364	CALL WriteField_u('zm',zm(:,:,iq))
365	#endif
366	SELECT CASE(tracers(iq)%iadv)
367	CASE(0); CYCLE
368	CASE(10,14)
369	c$OMP BARRIER
370	#ifdef _ADV_HALLO
371	call vlz_loc(zq,pente_max,zm,mw,
372	& ij_begin,ij_begin+2*iip1-1,iq)
373	call vlz_loc(zq,pente_max,zm,mw,
374	& ij_end-2*iip1+1,ij_end,iq)
375	#else
376	call vlz_loc(zq,pente_max,zm,mw,
377	& ij_begin,ij_end,iq)
378	#endif
379	c$OMP BARRIER
380
381	c$OMP MASTER
382	call VTb(VTHallo)
383	c$OMP END MASTER
384
385	call Register_Hallo_u(zq(:,:,iq),llm,2,2,2,2,MyRequest2)
386	call Register_Hallo_u(zm(:,:,iq),llm,1,1,1,1,MyRequest2)
387	! CRisi
388	do ifils=1,tracers(iq)%nqDescen
389	iq2=tracers(iq)%iqDescen(ifils)
390	call Register_Hallo_u(zq(:,:,iq2),llm,2,2,2,2,MyRequest2)
391	call Register_Hallo_u(zm(:,:,iq2),llm,1,1,1,1,MyRequest2)
392	enddo
393	c$OMP MASTER
394	call VTe(VTHallo)
395	c$OMP END MASTER
396	c$OMP BARRIER
397	CASE DEFAULT
398
399	CALL abort_gcm("vlspltgen_p","schema non parallelise",1)
400	END SELECT
401
402	enddo
403	c$OMP BARRIER
404
405	c$OMP MASTER
406	call VTb(VTHallo)
407	c$OMP END MASTER
408
409	call SendRequest(MyRequest2)
410
411	c$OMP MASTER
412	call VTe(VTHallo)
413	c$OMP END MASTER
414
415
416	call check_isotopes(zq,ij_begin,ij_end,'vlspltgen_loc 429')
417
418	c$OMP BARRIER
419	do iq=1,nqtot
420	IF(tracers(iq)%parent /= 'air') CYCLE
421	!write(,) 'vlspltgen 409: iq=',iq
422
423	SELECT CASE(tracers(iq)%iadv)
424	CASE(0); CYCLE
425	CASE(10,14)
426	c$OMP BARRIER
427
428	#ifdef _ADV_HALLO
429	call vlz_loc(zq,pente_max,zm,mw,
430	& ij_begin+2iip1,ij_end-2iip1,iq)
431	#endif
432
433	c$OMP BARRIER
434	CASE DEFAULT
435	CALL abort_gcm("vlspltgen_p","schema non parallelise",1)
436	END SELECT
437
438	enddo
439	!write(,) 'vlspltgen_loc 476'
440
441	c$OMP BARRIER
442	!write(,) 'vlspltgen_loc 477'
443	c$OMP MASTER
444	call VTb(VTHallo)
445	c$OMP END MASTER
446
447	! call WaitRecvRequest(MyRequest2)
448	! call WaitSendRequest(MyRequest2)
449	c$OMP BARRIER
450	CALL WaitRequest(MyRequest2)
451
452	c$OMP MASTER
453	call VTe(VTHallo)
454	c$OMP END MASTER
455	c$OMP BARRIER
456
457
458	!write(,) 'vlspltgen_loc 494'
459	call check_isotopes(zq,ij_begin,ij_end,'vlspltgen_loc 461')
460
461	do iq=1,nqtot
462	IF(tracers(iq)%parent /= 'air') CYCLE
463	!write(,) 'vlspltgen 449: iq=',iq
464	#ifdef DEBUG_IO
465	CALL WriteField_u('zq',zq(:,:,iq))
466	CALL WriteField_u('zm',zm(:,:,iq))
467	#endif
468	SELECT CASE(tracers(iq)%iadv)
469	CASE(0); CYCLE
470	CASE(10); call vly_loc(zq,pente_max,zm,mv, iq)
471	CASE(14); call vlyqs_loc(zq,pente_max,zm,mv,qsat,iq)
472	CASE DEFAULT
473	CALL abort_gcm("vlspltgen_p","schema non parallelise",1)
474	END SELECT
475
476	enddo !do iq=1,nqtot
477
478	call check_isotopes(zq,ij_begin,ij_end,'vlspltgen_loc 493')
479
480	do iq=1,nqtot
481	IF(tracers(iq)%parent /= 'air') CYCLE
482	!write(,) 'vlspltgen 477: iq=',iq
483	#ifdef DEBUG_IO
484	CALL WriteField_u('zq',zq(:,:,iq))
485	CALL WriteField_u('zm',zm(:,:,iq))
486	#endif
487	SELECT CASE(tracers(iq)%iadv)
488	CASE(0); CYCLE
489	CASE(10); call vlx_loc(zq,pente_max,zm,mu,
490	& ij_begin,ij_end,iq)
491	CASE(14); call vlxqs_loc(zq,pente_max,zm,mu,
492	& qsat, ij_begin,ij_end,iq)
493	CASE DEFAULT
494	CALL abort_gcm("vlspltgen_p","schema non parallelise",1)
495	END SELECT
496
497	enddo !do iq=1,nqtot
498
499	!write(,) 'vlspltgen 550: apres derniere serie de call vlx'
500	call check_isotopes(zq,ij_begin,ij_end,'vlspltgen_loc 521')
501
502	ijb=ij_begin
503	ije=ij_end
504	!write(,) 'vlspltgen_loc 557'
505	c$OMP BARRIER
506
507	!write(,) 'vlspltgen_loc 559'
508	DO iq=1,nqtot
509	!write(,) 'vlspltgen_loc 561, iq=',iq
510	#ifdef DEBUG_IO
511	CALL WriteField_u('zq',zq(:,:,iq))
512	CALL WriteField_u('zm',zm(:,:,iq))
513	#endif
514	c$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
515	DO l=1,llm
516	DO ij=ijb,ije
517	c print *,'zq-->',ij,l,iq,zq(ij,l,iq)
518	c print *,'q-->',ij,l,iq,q(ij,l,iq)
519	q(ij,l,iq)=zq(ij,l,iq)
520	ENDDO
521	ENDDO
522	c$OMP END DO NOWAIT
523	!write(,) 'vlspltgen_loc 575'
524
525	c$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
526	DO l=1,llm
527	DO ij=ijb,ije-iip1+1,iip1
528	q(ij+iim,l,iq)=q(ij,l,iq)
529	ENDDO
530	ENDDO
531	c$OMP END DO NOWAIT
532	!write(,) 'vlspltgen_loc 583'
533	ENDDO !DO iq=1,nqtot
534
535	call check_isotopes(q,ij_begin,ij_end,'vlspltgen_loc 557')
536
537	c$OMP BARRIER
538
539	cc$OMP MASTER
540	c call WaitSendRequest(MyRequest1)
541	c call WaitSendRequest(MyRequest2)
542	cc$OMP END MASTER
543	cc$OMP BARRIER
544
545	!write(,) 'vlspltgen 597: sortie'
546	RETURN
547	END

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