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calcul_STDlev.h @ 1398

Last change on this file since 1398 was 1398, checked in by musat, 14 years ago

Last corrections for CMIP5:

Add O3 at standard level files histmthNMC.nc
Add positive attribute "down" for vertical axes for all output files
Replace "inst" by "ave" for hist*NMC.nc files to have time_counter and bounds for time axis (Marie-Alice's hint)
Correct units for vertical axes : mb instead of hPa
Add mass flux at the bottom of clouds
Comment non initialized variables (s_capCL, s_oliqCL, s_cteiCL, s_trmb1, s_trmb2, s_trmb3) for the output files
Geopotential field phy850, phi700, phi500, etc are modified to "geopotential height and are called z850, z700, z500, etc
Meaning of specific humidity outputs - ovapinit and ovap - were interchanged
Fields albs, albslw become alb1, alb2 in output files
Correct title for rugs_* fields
Correct units for pbase and ptop are Pa (not mb)
Correct ndayrain field

FH/JLD/JYG/MAF/IM

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

File size: 4.9 KB

Line
1	c
2	c $Header$
3	c
4	c
5	cIM on initialise les variables
6	c
7	CALL ini_undefSTD(itap,freq_outNMC)
8	c
9	cIM on interpole les champs sur les niveaux STD de pression
10	cIM a chaque pas de temps de la physique
11	c
12	c-------------------------------------------------------c
13	c positionnement de l'argument logique a .false. c
14	c pour ne pas recalculer deux fois la meme chose ! c
15	c a cet effet un appel a plevel_new a ete deplace c
16	c a la fin de la serie d'appels c
17	c la boucle 'DO k=1, nlevSTD' a ete internalisee c
18	c dans plevel_new, d'ou la creation de cette routine... c
19	c-------------------------------------------------------c
20	c
21	CALL plevel_new(klon,klev,nlevSTD,.true.,pplay,rlevSTD,
22	& t_seri,tlevSTD)
23	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
24	& u_seri,ulevSTD)
25	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
26	& v_seri,vlevSTD)
27	c
28
29	c
30	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
31	& zphi/RG,philevSTD)
32	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
33	& qx(:,:,ivap),qlevSTD)
34	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
35	& zx_rh*100.,rhlevSTD)
36	c
37	DO l=1, klev
38	DO i=1, klon
39	zx_tmp_fi3d(i,l)=u_seri(i,l)*v_seri(i,l)
40	ENDDO !i
41	ENDDO !l
42	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
43	& zx_tmp_fi3d,uvSTD)
44	c
45	DO l=1, klev
46	DO i=1, klon
47	zx_tmp_fi3d(i,l)=v_seri(i,l)*q_seri(i,l)
48	ENDDO !i
49	ENDDO !l
50	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
51	& zx_tmp_fi3d,vqSTD)
52	c
53	DO l=1, klev
54	DO i=1, klon
55	zx_tmp_fi3d(i,l)=v_seri(i,l)*t_seri(i,l)
56	ENDDO !i
57	ENDDO !l
58	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
59	& zx_tmp_fi3d,vTSTD)
60	c
61	DO l=1, klev
62	DO i=1, klon
63	zx_tmp_fi3d(i,l)=omega(i,l)*qx(i,l,ivap)
64	ENDDO !i
65	ENDDO !l
66	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
67	& zx_tmp_fi3d,wqSTD)
68	c
69	DO l=1, klev
70	DO i=1, klon
71	zx_tmp_fi3d(i,l)=v_seri(i,l)*zphi(i,l)/RG
72	ENDDO !i
73	ENDDO !l
74	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
75	& zx_tmp_fi3d,vphiSTD)
76	c
77	DO l=1, klev
78	DO i=1, klon
79	zx_tmp_fi3d(i,l)=omega(i,l)*t_seri(i,l)
80	ENDDO !i
81	ENDDO !l
82	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
83	& zx_tmp_fi3d,wTSTD)
84	c
85	DO l=1, klev
86	DO i=1, klon
87	zx_tmp_fi3d(i,l)=u_seri(i,l)*u_seri(i,l)
88	ENDDO !i
89	ENDDO !l
90	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
91	& zx_tmp_fi3d,u2STD)
92	c
93	DO l=1, klev
94	DO i=1, klon
95	zx_tmp_fi3d(i,l)=v_seri(i,l)*v_seri(i,l)
96	ENDDO !i
97	ENDDO !l
98	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
99	& zx_tmp_fi3d,v2STD)
100	c
101	DO l=1, klev
102	DO i=1, klon
103	zx_tmp_fi3d(i,l)=t_seri(i,l)*t_seri(i,l)
104	ENDDO !i
105	ENDDO !l
106	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
107	& zx_tmp_fi3d,T2STD)
108
109	c
110	zx_tmp_fi3d(:,:)=wo(:,:,1) * dobson_u * 1e3 / zmasse / rmo3 * rmd
111	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
112	& zx_tmp_fi3d,O3STD)
113	c
114	if (read_climoz == 2) THEN
115	zx_tmp_fi3d(:,:)=wo(:,:,2) * dobson_u * 1e3 / zmasse / rmo3 * rmd
116	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
117	& zx_tmp_fi3d,O3daySTD)
118	endif
119	c
120	DO l=1, klev
121	DO i=1, klon
122	zx_tmp_fi3d(i,l)=paprs(i,l)
123	ENDDO !i
124	ENDDO !l
125	CALL plevel_new(klon,klev,nlevSTD,.true.,zx_tmp_fi3d,rlevSTD,
126	& omega,wlevSTD)
127	c
128	cIM on somme les valeurs toutes les freq_calNMC secondes
129	c
130	CALL undefSTD(itap,freq_calNMC)
131	c
132	cIM on moyenne a la fin du mois ou du jour (toutes les freq_outNMC secondes)
133	c
134	CALL moy_undefSTD(itap,freq_outNMC,freq_moyNMC)
135	c
136	CALL plevel(klon,klev,.true.,pplay,50000.,
137	& zphi/RG,geo500)
138
139	cIM on interpole a chaque pas de temps le SWup(clr) et SWdn(clr) a 200 hPa
140	c
141	CALL plevel(klon,klevp1,.true.,paprs,20000.,
142	$ swdn0,SWdn200clr)
143	CALL plevel(klon,klevp1,.false.,paprs,20000.,
144	$ swdn,SWdn200)
145	CALL plevel(klon,klevp1,.false.,paprs,20000.,
146	$ swup0,SWup200clr)
147	CALL plevel(klon,klevp1,.false.,paprs,20000.,
148	$ swup,SWup200)
149	c
150	CALL plevel(klon,klevp1,.false.,paprs,20000.,
151	$ lwdn0,LWdn200clr)
152	CALL plevel(klon,klevp1,.false.,paprs,20000.,
153	$ lwdn,LWdn200)
154	CALL plevel(klon,klevp1,.false.,paprs,20000.,
155	$ lwup0,LWup200clr)
156	CALL plevel(klon,klevp1,.false.,paprs,20000.,
157	$ lwup,LWup200)
158	c

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source: LMDZ4/trunk/libf/phylmd/calcul_STDlev.h @ 1398

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