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phytrac_relax.F @ 3461

Last change on this file since 3461 was 1621, checked in by emillour, 8 years ago

Further work on full dynamics/physics separation.

LMDZ.COMMON:

added phy_common/vertical_layers_mod.F90 to store information on vertical grid. This is where routines in the physics should get the information.
The contents of vertical_layers_mod intialized via dynphy_lonlat/inigeomphy_mod.F90.

LMDZ.MARS:

physics now completely decoupled from dynamics; the physics package may now be compiled as a library (-libphy option of makelmdz_fcm).
created an "ini_tracer_mod" routine in module "tracer_mod" for a cleaner initialization of the later.
removed some purely dynamics-related outputs (etot0, zoom parameters, etc.) from diagfi.nc and stats.nc outputs as these informations are not available in the physics.

LMDZ.GENERIC:

physics now completely decoupled from dynamics; the physics package may now be compiled as a library (-libphy option of makelmdz_fcm).
added nqtot to tracer_h.F90.
removed some purely dynamics-related outputs (etot0, zoom parameters, etc.) from diagfi.nc and stats.nc outputs as these informations are not available in the physics.

LMDZ.VENUS:

physics now completely decoupled from dynamics; the physics package may now be compiled as a library (-libphy option of makelmdz_fcm).
added infotrac_phy.F90 to store information on tracers in the physics. Initialized via iniphysiq.
added cpdet_phy_mod.F90 to store t2tpot etc. functions to be used in the physics. Initialized via iniphysiq. IMPORTANT: there are some hard-coded constants! These should match what is in cpdet_mod.F90 in the dynamics.
got rid of references to moyzon_mod module within the physics. The required variables (tmoy, plevmoy) are passed to the physics as arguments to physiq.

LMDZ.TITAN:

added infotrac_phy.F90 to store information on tracers in the physics. Initialized via iniphysiq.
added cpdet_phy_mod.F90 to store t2tpot etc. functions to be used in the physics.
Extra work required to completely decouple physics and dynamics: moyzon_mod should be cleaned up and information passed from dynamics to physics as as arguments. Likewise moyzon_ch and moyzon_mu should not be queried from logic_mod (which is in the dynamics).

File size: 8.5 KB

Line
1	!
2	! $Header: /home/cvsroot/LMDZ4/libf/phylmd/phytrac.F,v 1.16 2006/03/24 15:06:23 lmdzadmin Exp $
3	!
4	c
5	c
6	SUBROUTINE phytrac_relax (debutphy,lafin,
7	I nqmax,
8	I nlon,
9	I nlev,
10	I pdtphys,
11	I pplay,
12	O tr_seri)
13
14	c======================================================================
15	c Auteur(s) FH
16	c Objet: Moniteur general des tendances traceurs
17	c
18	cAA Remarques en vrac:
19	cAA--------------------
20	cAA 1/ le call phytrac se fait avec nqmax
21	c
22	c SL: Janvier 2014
23	c Version developed by E. Marcq for pseudo-chemistry relaxation
24	c See Marcq&Lebonnois 2013.
25	c
26	c======================================================================
27	USE infotrac_phy, ONLY: nqtot, tname
28	use dimphy
29	USE chemparam_mod,only:M_tr
30	IMPLICIT none
31	#include "YOMCST.h"
32	#include "clesphys.h"
33	c======================================================================
34
35	c Arguments:
36
37	c EN ENTREE:
38	c ==========
39
40	logical debutphy ! le flag de l'initialisation de la physique
41	logical lafin ! le flag de la fin de la physique
42	integer nqmax ! nombre de traceurs auxquels on applique la physique
43	integer nlon ! nombre de points horizontaux
44	integer nlev ! nombre de couches verticales
45	real pdtphys ! pas d'integration pour la physique (seconde)
46	real pplay(nlon,nlev) ! pression pour le mileu de chaque couche (en Pa)
47
48	c EN ENTREE/SORTIE:
49	c =================
50
51	real tr_seri(nlon,nlev,nqmax) ! traceur
52
53	cAA ----------------------------
54	cAA VARIABLES LOCALES TRACEURS
55	cAA ----------------------------
56
57	C les traceurs
58
59	c===================
60	c it--------indice de traceur
61	c k,i---------indices long, vert
62	c===================
63	c Variables deja declarees dont on a besoin pour traceurs
64	c k,i,it,tr_seri(nlon,nlev,nqmax),pplay(nlon,nlev),
65	integer nqCO_OCS
66	c real pzero,gamma
67	c parameter (pzero=85000.)
68	c parameter (gamma=5000.)
69	REAL alpha
70	real deltatr(nlon,nlev,nqtot) ! ecart au profil de ref zprof
71	real,save,allocatable :: zprof(:,:)
72	real,save,allocatable :: tau(:,:) ! temps de relaxation vers le profil (s)
73	c======================================================================
74
75	INTEGER i, k, it
76
77	c Variables liees a l'ecriture de la bande histoire physique
78
79	c Variables locales pour effectuer les appels en serie
80	c----------------------------------------------------
81
82	REAL d_tr(nlon,nlev) ! tendances de traceurs
83
84	character*20 modname
85	character*80 abort_message
86
87	c======================================================================
88
89	modname = 'phytrac_relax'
90	c TRACEURS TYPE CO ET OCS
91	nqCO_OCS = 6
92
93	c !!!!!! ATTENTION: A REVOIR / A VERIFIER
94	c les traceurs sont en mass mixing ratio dans la dyn
95	c et convertis en frac mol avec M_tr dans les sorties...
96	c Mettre le profil de rappel en mass mixing ratio !!
97
98	print*,"METTRE A JOUR phytrac_relax"
99	stop
100
101	c---------
102	c debutphy
103	c---------
104	if (debutphy) then
105	print*,"DEBUT PHYTRAC"
106	print*,"PHYTRAC: RELAXATION"
107	allocate(zprof(nlev,nqtot),tau(nlev,nqtot))
108
109	ALLOCATE(M_tr(nqtot))
110
111	c=============================================================
112	c=============================================================
113	c=============================================================
114	c Initialisation des traceurs
115	c=============================================================
116	c=============================================================
117	c=============================================================
118
119	C=========================================================================
120	C=========================================================================
121
122	c II) Declaration d'un profil vertical de traceur OK
123	c
124	c zprof = profil de rappel
125	c
126	c 1 -> CO ; 2 -> OCS
127	c def des profils en log(a) = a * log(P) + b par morceaux, cf. pollack et al
128	c tr_seri en ppm
129	c (initialisation seulement si ceux-ci sont nuls)
130
131	c ICI, ON UTILISE 3 CONSTANTES DE TEMPS DIFFERENTES POUR CHAQUE,
132	c DONC TRACEURS 1 A 3 POUR CO ET 4 A 6 POUR OCS
133	C=========================================================================
134
135
136	c Constantes de rappel:
137
138	print*,"INIT TAU"
139	do k=1,nlev
140	tau(k,1)=1.e6
141	tau(k,2)=1.e7
142	tau(k,3)=1.e8
143	tau(k,4)=1.e6
144	tau(k,5)=1.e7
145	tau(k,6)=1.e8
146	enddo
147
148	c CO
149
150	do it=1,3
151	print*,"INIT ZPROF ",tname(it)
152	M_tr(it)=28. ! CO
153	do k=1,nlev
154	zprof(k,it)=0.
155	c pour l'instant, tau fixe, mais possibilite de le faire varier avec z
156	if (pplay(nlon/2,k) >= 4.8e6) then
157	zprof(k,it)=14.
158	endif
159	if ((pplay(nlon/2,k)<=4.8e6).and.(pplay(nlon/2,k)>=1.9e6)) then
160	alpha=(log(pplay(nlon/2,k))-log(1.9e6))/
161	. (log(4.8e6)-log(1.9e6))
162	zprof(k,it)=20.(14./20.)*alpha
163	endif
164	if ((pplay(nlon/2,k)<=1.9e6).and.(pplay(nlon/2,k)>=1.5e5)) then
165	alpha=(log(pplay(nlon/2,k))-log(1.5e5))/
166	. (log(1.9e6)-log(1.5e5))
167	zprof(k,it)=39.(20./39.)*alpha
168	endif
169	if ((pplay(nlon/2,k)<=1.5e5).and.(pplay(nlon/2,k)>=1.1e4)) then
170	alpha=(log(pplay(nlon/2,k))-log(1.1e4))/
171	. (log(2.73e5)-log(1.1e4))
172	zprof(k,it)=50.(39./50.)*alpha
173	endif
174	if ((pplay(nlon/2,k)<=1.1e4).and.(pplay(nlon/2,k)>=1.3e3)) then
175	alpha=(log(pplay(nlon/2,k))-log(1.3e3))/
176	. (log(1.1e4)-log(1.3e3))
177	zprof(k,it)=2.(50./2.)*alpha
178	endif
179	if ((pplay(nlon/2,k)<=1.3e3).and.(pplay(nlon/2,k)>=2.4)) then
180	alpha=(log(pplay(nlon/2,k))-log(2.4))/
181	. (log(1.3e3)-log(2.4))
182	zprof(k,it)=1000.(2./1000.)*alpha
183	endif
184	if (pplay(nlon/2,k) <= 2.4) then
185	zprof(k,it)=1000.
186	endif
187	enddo
188	print*,zprof(:,it)
189
190	c OCS
191	print*,"INIT ZPROF ",tname(it+3)
192	M_tr(it+3)=60. ! OCS
193	do k=1,nlev
194	zprof(k,it+3)=0.
195	if (pplay(nlon/2,k) >= 4.8e6) then
196	zprof(k,it+3)=30.
197	endif
198	if ((pplay(nlon/2,k)<=4.8e6).and.(pplay(nlon/2,k)>=9.4e5))
199	* then
200	alpha=(log(pplay(nlon/2,k))-log(9.4e5))/
201	* (log(4.8e6)-log(9.4e5))
202	zprof(k,it+3)=20.(30/20.)*alpha
203	endif
204	if ((pplay(nlon/2,k)<=9.4e5).and.(pplay(nlon/2,k)>=4.724e5))
205	* then
206	alpha=(log(pplay(nlon/2,k))-log(4.724e5))/
207	* (log(9.4e5)-log(4.724e5))
208	zprof(k,it+3)=0.5(20/0.5)*alpha
209	endif
210	if ((pplay(nlon/2,k)<=4.724e5).and.(pplay(nlon/2,k)>=1.1e4))
211	* then
212	alpha=(log(pplay(nlon/2,k))-log(1.1e4))/
213	* (log(4.724e5)-log(1.1e4))
214	zprof(k,it+3)=0.005(0.5/0.005)*alpha
215	endif
216	if (pplay(nlon/2,k)<=1.1e4) then
217	zprof(k,it+3)=0.
218	endif
219	end do
220	print*,zprof(:,it+3)
221	enddo
222
223	c Initialisation du traceur s'il est nul:
224	do it=1,nqCO_OCS
225	if ((tr_seri(nlon/2,1,it).eq.0.).and.
226	. (tr_seri(nlon/2,nlev/2,it).eq.0.).and.
227	. (tr_seri(nlon/2,nlev,it).eq.0.)) then
228	print*,"INITIALISATION DE ",tname(it)
229	do k=1,nlev
230	do i=1,nlon
231	tr_seri(i,k,it) = zprof(k,it)
232	enddo
233	enddo
234	endif
235	enddo
236
237	C=========================================================================
238	C=========================================================================
239
240	c-------------
241	c fin debutphy
242	c-------------
243	ENDIF ! fin debutphy
244
245	c======================================================================
246	c Rappel vers un profil
247	c======================================================================
248	do it=1,nqCO_OCS
249	do k=1,nlev
250	do i=1,nlon
251	c VERIF
252	if (tr_seri(i,k,it).lt.0) then
253	print*,"Traceur negatif AVANT rappel:",i,k,it
254	stop
255	endif
256	c FIN VERIF
257
258	deltatr(i,k,it) = (-tr_seri(i,k,it)+zprof(k,it))/tau(k,it)
259	tr_seri(i,k,it) = tr_seri(i,k,it) + deltatr(i,k,it)*pdtphys
260
261	c VERIF
262	if (tr_seri(i,k,it).lt.0) then
263	print*,"APRES rappel:",i,k,it,
264	. deltatr(i,k,it),zprof(k,it),tr_seri(i,k,it),pdtphys/tau(k,it)
265	stop
266	endif
267	c FIN VERIF
268	enddo
269	enddo
270	enddo
271
272	c======================================================================
273	c======================================================================
274
275
276	RETURN
277	END
278
279

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