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massdair.F @ 5083

Last change on this file since 5083 was 2597, checked in by Ehouarn Millour, 8 years ago
Cleanup in the dynamics: get rid of comconst.h, make it a module comconst_mod. EM
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: 3.0 KB

Line
1	!
2	! $Header$
3	!
4	SUBROUTINE massdair( p, masse )
5	c
6	c *********************************************************************
7	c .... Calcule la masse d'air dans chaque maille ....
8	c *********************************************************************
9	c
10	c Auteurs : P. Le Van , Fr. Hourdin .
11	c ..........
12	c
13	c .. p est un argum. d'entree pour le s-pg ...
14	c .. masse est un argum.de sortie pour le s-pg ...
15	c
16	c .... p est defini aux interfaces des llm couches .....
17	c
18	IMPLICIT NONE
19	c
20	include "dimensions.h"
21	include "paramet.h"
22	include "comgeom.h"
23	c
24	c ..... arguments ....
25	c
26	REAL p(ip1jmp1,llmp1), masse(ip1jmp1,llm)
27
28	c .... Variables locales .....
29
30	INTEGER l,ij
31	REAL massemoyn, massemoys
32
33	REAL SSUM
34	c
35	c
36	c Methode pour calculer massebx et masseby .
37	c ----------------------------------------
38	c
39	c A chaque point scalaire P (i,j) est affecte 4 coefficients d'aires
40	c alpha1(i,j) calcule au point ( i+1/4,j-1/4 )
41	c alpha2(i,j) calcule au point ( i+1/4,j+1/4 )
42	c alpha3(i,j) calcule au point ( i-1/4,j+1/4 )
43	c alpha4(i,j) calcule au point ( i-1/4,j-1/4 )
44	c
45	c Avec alpha1(i,j) = aire(i+1/4,j-1/4)/ aire(i,j)
46	c
47	c N.B . Pour plus de details, voir s-pg ... iniconst ...
48	c
49	c
50	c
51	c alpha4 . . alpha1 . alpha4
52	c (i,j) (i,j) (i+1,j)
53	c
54	c P . U . . P
55	c (i,j) (i,j) (i+1,j)
56	c
57	c alpha3 . . alpha2 .alpha3
58	c (i,j) (i,j) (i+1,j)
59	c
60	c V . Z . . V
61	c (i,j)
62	c
63	c alpha4 . . alpha1 .alpha4
64	c (i,j+1) (i,j+1) (i+1,j+1)
65	c
66	c P . U . . P
67	c (i,j+1) (i+1,j+1)
68	c
69	c
70	c
71	c On a :
72	c
73	c massebx(i,j) = masse(i ,j) * ( alpha1(i ,j) + alpha2(i,j)) +
74	c masse(i+1,j) * ( alpha3(i+1,j) + alpha4(i+1,j) )
75	c localise au point ... U (i,j) ...
76	c
77	c masseby(i,j) = masse(i,j ) * ( alpha2(i,j ) + alpha3(i,j ) +
78	c masse(i,j+1) * ( alpha1(i,j+1) + alpha4(i,j+1)
79	c localise au point ... V (i,j) ...
80	c
81	c
82	c=======================================================================
83
84	DO 100 l = 1 , llm
85	c
86	DO ij = 1, ip1jmp1
87	masse(ij,l) = airesurg(ij) * ( p(ij,l) - p(ij,l+1) )
88	ENDDO
89	c
90	DO ij = 1, ip1jmp1,iip1
91	masse(ij+ iim,l) = masse(ij,l)
92	ENDDO
93	c
94	c DO ij = 1, iim
95	c masse( ij ,l) = masse( ij ,l) * aire( ij )
96	c masse(ij+ip1jm,l) = masse(ij+ip1jm,l) * aire(ij+ip1jm)
97	c ENDDO
98	c massemoyn = SSUM(iim,masse( 1 ,l),1)/ apoln
99	c massemoys = SSUM(iim,masse(ip1jm+1,l),1)/ apols
100	c DO ij = 1, iip1
101	c masse( ij ,l ) = massemoyn
102	c masse(ij+ip1jm,l ) = massemoys
103	c ENDDO
104
105	100 CONTINUE
106	c
107	RETURN
108	END

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