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cltrac.F90 @ 3627

Last change on this file since 3627 was 1907, checked in by lguez, 10 years ago

Added a copyright property to every file of the distribution, except
for the fcm files (which have their own copyright). Use svn propget on
a file to see the copyright. For instance:

$ svn propget copyright libf/phylmd/physiq.F90
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

Also added the files defining the CeCILL version 2 license, in French
and English, at the top of the LMDZ tree.

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
Property svn:eol-style set to native
Property svn:keywords set to Author Date Id Revision

File size: 4.9 KB

Line
1	!
2	! $Id $
3	!
4	SUBROUTINE cltrac(dtime,coef,t,tr,flux,paprs,pplay,delp, &
5	d_tr,d_tr_dry,flux_tr_dry) !jyg
6
7	USE dimphy
8	IMPLICIT NONE
9	!======================================================================
10	! Auteur(s): O. Boucher (LOA/LMD) date: 19961127
11	! inspire de clvent
12	! Objet: diffusion verticale de traceurs avec flux fixe a la surface
13	! ou/et flux du type c-drag
14	!
15	! Arguments:
16	!-----------
17	! dtime.......input-R- intervalle du temps (en secondes)
18	! coef........input-R- le coefficient d'echange (m**2/s) l>1
19	! t...........input-R- temperature (K)
20	! tr..........input-R- la q. de traceurs
21	! flux........input-R- le flux de traceurs a la surface
22	! paprs.......input-R- pression a inter-couche (Pa)
23	! pplay.......input-R- pression au milieu de couche (Pa)
24	! delp........input-R- epaisseur de couche (Pa)
25	! cdrag.......input-R- cdrag pour le flux de surface (non active)
26	! tr0.........input-R- traceurs a la surface ou dans l'ocean (non active)
27	! d_tr........output-R- le changement de tr
28	! d_tr_dry....output-R- le changement de tr du au depot sec (1st layer)
29	! flux_tr_dry.output-R- depot sec
30	!!! flux_tr..output-R- flux de tr
31	!======================================================================
32	include "YOMCST.h"
33	!
34	! Entree
35	!
36	REAL,INTENT(IN) :: dtime
37	REAL,DIMENSION(klon,klev),INTENT(IN) :: coef
38	REAL,DIMENSION(klon,klev),INTENT(IN) :: t, tr
39	REAL,DIMENSION(klon),INTENT(IN) :: flux !(at/s/m2)
40	REAL,DIMENSION(klon,klev+1),INTENT(IN) :: paprs
41	REAL,DIMENSION(klon,klev),INTENT(IN) :: pplay, delp
42	!
43	! Sorties
44	!
45	REAL ,DIMENSION(klon,klev),INTENT(OUT) :: d_tr
46	REAL ,DIMENSION(klon),INTENT(OUT) :: d_tr_dry !jyg
47	REAL ,DIMENSION(klon),INTENT(OUT) :: flux_tr_dry !jyg
48	! REAL ,DIMENSION(klon,klev),INTENT(OUT) :: flux_tr
49	!
50	! Local
51	!
52	INTEGER :: i, k
53	REAL,DIMENSION(klon) :: cdrag, tr0
54	REAL,DIMENSION(klon,klev) :: zx_ctr
55	REAL,DIMENSION(klon,klev) :: zx_dtr
56	REAL,DIMENSION(klon) :: zx_buf
57	REAL,DIMENSION(klon,klev) :: zx_coef
58	REAL,DIMENSION(klon,klev) :: local_tr
59	REAL,DIMENSION(klon) :: zx_alf1,zx_alf2,zx_flux
60
61	!======================================================================
62
63	DO k = 1, klev
64	DO i = 1, klon
65	local_tr(i,k) = tr(i,k)
66	ENDDO
67	ENDDO
68
69	!======================================================================
70
71	DO i = 1, klon
72	zx_alf1(i) = (paprs(i,1)-pplay(i,2))/(pplay(i,1)-pplay(i,2))
73	zx_alf2(i) = 1.0 - zx_alf1(i)
74	flux_tr_dry(i) = -flux(i)*dtime !jyg
75	zx_flux(i) = flux_tr_dry(i)*RG !jyg
76	!! zx_flux(i) = -flux(i)dtimeRG !jyg
77	! Pour le moment le flux est prescrit cdrag et zx_coef(1) vaut 0
78	cdrag(i) = 0.0
79	tr0(i) = 0.0
80	zx_coef(i,1) = cdrag(i)dtimeRG
81	zx_ctr(i,1)=0.
82	zx_dtr(i,1)=0.
83	ENDDO
84
85	!======================================================================
86
87	DO k = 2, klev
88	DO i = 1, klon
89	zx_coef(i,k) = coef(i,k)*RG/(pplay(i,k-1)-pplay(i,k)) &
90	(paprs(i,k)2/(t(i,k)+t(i,k-1))/RD)**2
91	zx_coef(i,k) = zx_coef(i,k)dtimeRG
92	ENDDO
93	ENDDO
94
95	!======================================================================
96
97	DO i = 1, klon
98	zx_buf(i) = delp(i,1) + zx_coef(i,1)*zx_alf1(i) + zx_coef(i,2)
99	!
100	zx_ctr(i,2) = (local_tr(i,1)*delp(i,1)+ &
101	zx_coef(i,1)*tr0(i)-zx_flux(i))/zx_buf(i)
102	!
103	zx_dtr(i,2) = (zx_coef(i,2)-zx_alf2(i)*zx_coef(i,1)) / &
104	zx_buf(i)
105	d_tr_dry(i) = -zx_flux(i)/zx_buf(i) !jyg
106	ENDDO
107
108	DO k = 3, klev
109	DO i = 1, klon
110	zx_buf(i) = delp(i,k-1) + zx_coef(i,k) &
111	+ zx_coef(i,k-1)*(1.-zx_dtr(i,k-1))
112	zx_ctr(i,k) = (local_tr(i,k-1)*delp(i,k-1) &
113	+zx_coef(i,k-1)*zx_ctr(i,k-1) )/zx_buf(i)
114	zx_dtr(i,k) = zx_coef(i,k)/zx_buf(i)
115	ENDDO
116	ENDDO
117
118	DO i = 1, klon
119	local_tr(i,klev) = ( local_tr(i,klev)*delp(i,klev) &
120	+zx_coef(i,klev)*zx_ctr(i,klev) ) &
121	/ ( delp(i,klev) + zx_coef(i,klev) &
122	-zx_coef(i,klev)*zx_dtr(i,klev) )
123	ENDDO
124
125	DO k = klev-1, 1, -1
126	DO i = 1, klon
127	local_tr(i,k) = zx_ctr(i,k+1) + zx_dtr(i,k+1)*local_tr(i,k+1)
128	ENDDO
129	ENDDO
130
131	!======================================================================
132	!== flux_tr est le flux de traceur (positif vers bas)
133	! DO i = 1, klon
134	! flux_tr(i,1) = zx_coef(i,1)/(RG*dtime)
135	! ENDDO
136	! DO k = 2, klev
137	! DO i = 1, klon
138	! flux_tr(i,k) = zx_coef(i,k)/(RG*dtime)
139	! . * (local_tr(i,k)-local_tr(i,k-1))
140	! ENDDO
141	! ENDDO
142	!======================================================================
143	DO k = 1, klev
144	DO i = 1, klon
145	d_tr(i,k) = local_tr(i,k) - tr(i,k)
146	ENDDO
147	ENDDO
148
149	END SUBROUTINE cltrac

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