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ajsec.F @ 1723

Last change on this file since 1723 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: 6.1 KB

Line
1	!
2	! $Header: /home/cvsroot/LMDZ4/libf/phylmd/ajsec.F,v 1.1.1.1 2004/05/19 12:53:08 lmdzadmin Exp $
3	!
4	! ADAPTATION GCM POUR CP(T)
5	SUBROUTINE ajsec(paprs, pplay, ppk, tfi, ufi, vfi, nq, qfi,
6	. d_tfi, d_ufi, d_vfi, d_qfi)
7
8	use dimphy
9	use mod_grid_phy_lmdz, only: nbp_lev
10	use cpdet_phy_mod, only: t2tpot, tpot2t
11	IMPLICIT none
12	c======================================================================
13	c Auteur(s): Z.X. Li (LMD/CNRS) date: 19930818
14	c Objet: ajustement sec (adaptation du GCM du LMD)
15	c S. Lebonnois, 10/2007:
16	c melange u et v comme dans convadj (MARS)
17	c======================================================================
18	c Arguments:
19	c tfi-------input-R- Temperature
20	c ufi-------input-R- vent zonal
21	c vfi-------input-R- vent meridien
22	c nq--------input-R- nombre de traceurs
23	c qfi-------input-R- traceurs
24	c
25	c d_tfi-----output-R-Incrementation de la temperature
26	c d_ufi-----output-R-Incrementation du vent zonal
27	c d_vfi-----output-R-Incrementation du vent meridien
28	c d_qfi-----output-R-Incrementation des traceurs
29	c======================================================================
30	#include "YOMCST.h"
31	REAL paprs(klon,klev+1), pplay(klon,klev)
32	REAL ppk(klon,klev)
33	INTEGER nq
34	REAL tfi(klon,klev), d_tfi(klon,klev)
35	REAL ufi(klon,klev), d_ufi(klon,klev)
36	REAL vfi(klon,klev), d_vfi(klon,klev)
37	REAL qfi(klon,klev,nq), d_qfi(klon,klev,nq)
38	c
39	INTEGER,save :: limbas, limhau ! les couches a ajuster
40	c
41	REAL zh(klon,klev)
42	REAL zu(klon,klev),zv(klon,klev)
43	REAL zt(klon,klev),zq(klon,klev,nq)
44	REAL zdp(klon,klev)
45	REAL zpkdp(klon,klev)
46	REAL hm,sm,zum,zvm,zalpha,zqm(nq)
47	LOGICAL modif(klon), down
48	INTEGER i, k, k1, k2, iq
49	c
50	c Initialisation:
51	c
52	limbas=1
53	limhau=klev
54
55	DO k = 1, klev
56	DO i = 1, klon
57	d_tfi(i,k) = 0.0
58	d_ufi(i,k) = 0.0
59	d_vfi(i,k) = 0.0
60	d_qfi(i,k,:) = 0.0
61	zu(i,k) = ufi(i,k)
62	zv(i,k) = vfi(i,k)
63	zq(i,k,:) = qfi(i,k,:)
64	ENDDO
65	ENDDO
66	c------------------------------------- passage en temperature potentielle
67	! ADAPTATION GCM POUR CP(T)
68	call t2tpot(klon*nbp_lev,tfi,zh,ppk)
69	c
70	DO k = limbas, limhau
71	DO i = 1, klon
72	zdp(i,k) = paprs(i,k)-paprs(i,k+1)
73	zpkdp(i,k) = ppk(i,k) * zdp(i,k)
74	ENDDO
75	ENDDO
76	c
77	c------------------------------------- detection des profils a modifier
78	DO i = 1, klon
79	modif(i) = .FALSE.
80	ENDDO
81	DO k = limbas+1, limhau
82	DO i = 1, klon
83	IF (.NOT.modif(i)) THEN
84	IF ( zh(i,k).LT.zh(i,k-1) ) modif(i) = .TRUE.
85	ENDIF
86	ENDDO
87	ENDDO
88	c------------------------------------- correction des profils instables
89	DO 1080 i = 1, klon
90	IF (modif(i)) THEN
91	k2 = limbas
92	8000 CONTINUE
93	k2 = k2 + 1
94	IF (k2 .GT. limhau) goto 8001
95	IF (zh(i,k2) .LT. zh(i,k2-1)) THEN
96	k1 = k2 - 1
97	k = k1
98	sm = zpkdp(i,k2)
99	hm = zh(i,k2)
100	8020 CONTINUE
101	sm = sm +zpkdp(i,k)
102	hm = hm +zpkdp(i,k) * (zh(i,k)-hm) / sm
103	down = .FALSE.
104	IF (k1 .ne. limbas) THEN
105	IF (hm .LT. zh(i,k1-1)) down = .TRUE.
106	ENDIF
107	IF (down) THEN
108	k1 = k1 - 1
109	k = k1
110	ELSE
111	IF ((k2 .EQ. limhau)) GOTO 8021
112	IF ((zh(i,k2+1).GE.hm)) GOTO 8021
113	k2 = k2 + 1
114	k = k2
115	ENDIF
116	GOTO 8020
117	8021 CONTINUE
118	c------------ nouveau profil : constant (valeur moyenne)
119	c------------ et melange partiel des vents
120	zalpha=0.
121	zum=0.
122	zvm=0.
123	zqm=0.
124	DO k = k1, k2
125	zalpha=zalpha+ABS(zh(i,k)-hm)*zdp(i,k)
126	zh(i,k) = hm
127	zum=zum+ufi(i,k)*zdp(i,k)
128	zvm=zvm+vfi(i,k)*zdp(i,k)
129	do iq=1,nq
130	zqm(iq)=zqm(iq)+qfi(i,k,iq)*zdp(i,k)
131	enddo
132	ENDDO
133	zalpha=zalpha/(hm*(paprs(i,k1)-paprs(i,k2+1)))
134	zum=zum/(paprs(i,k1)-paprs(i,k2+1))
135	zvm=zvm/(paprs(i,k1)-paprs(i,k2+1))
136	do iq=1,nq
137	zqm(iq)=zqm(iq)/(paprs(i,k1)-paprs(i,k2+1))
138	enddo
139
140	IF(zalpha.GT.1.) THEN
141	PRINT*,'WARNING dans ajsec zalpha=',zalpha
142	c STOP
143	zalpha=1.
144	ELSE
145	c IF(zalpha.LT.0.) STOP
146	IF(zalpha.LT.1.e-5) zalpha=1.e-4
147	ENDIF
148	c ----------------------------
149	c TEST --- PAS DE MELANGE DE U ni Q
150	c zalpha=0.
151	c ----------------------------
152
153	DO k=k1,k2
154	zu(i,k)=ufi(i,k)+zalpha*(zum-ufi(i,k))
155	zv(i,k)=vfi(i,k)+zalpha*(zvm-vfi(i,k))
156	do iq=1,nq
157	zq(i,k,iq)=qfi(i,k,iq)+zalpha*(zqm(iq)-qfi(i,k,iq))
158	enddo
159	ENDDO
160	k2 = k2 + 1
161	ENDIF
162	GOTO 8000
163	8001 CONTINUE
164	ENDIF
165	1080 CONTINUE
166	c
167	c------------------------------------- passage en temperature
168	c------------------------------------- et calcul du d_t
169	! ADAPTATION GCM POUR CP(T)
170	call tpot2t(klon*nbp_lev,zh,zt,ppk)
171
172	DO k = limbas, limhau
173	DO i = 1, klon
174	d_tfi(i,k) = zt(i,k) - tfi(i,k)
175	d_ufi(i,k) = zu(i,k) - ufi(i,k)
176	d_vfi(i,k) = zv(i,k) - vfi(i,k)
177	do iq=1,nq
178	d_qfi(i,k,iq) = zq(i,k,iq) - qfi(i,k,iq)
179	enddo
180	ENDDO
181	ENDDO
182	c
183	IF (limbas.GT.1) THEN
184	DO k = 1, limbas-1
185	DO i = 1, klon
186	d_tfi(i,k) = 0.0
187	d_ufi(i,k) = 0.0
188	d_vfi(i,k) = 0.0
189	do iq=1,nq
190	d_qfi(i,k,iq) = 0.0
191	enddo
192	ENDDO
193	ENDDO
194	ENDIF
195	c
196	IF (limhau.LT.klev) THEN
197	DO k = limhau+1, klev
198	DO i = 1, klon
199	d_tfi(i,k) = 0.0
200	d_ufi(i,k) = 0.0
201	d_vfi(i,k) = 0.0
202	do iq=1,nq
203	d_qfi(i,k,iq) = 0.0
204	enddo
205	ENDDO
206	ENDDO
207	ENDIF
208	c
209	RETURN
210	END
211

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