1 | c |
---|
2 | c $Id: calcul_simulISCCP.h 1403 2010-07-01 09:02:53Z jyg $ |
---|
3 | c |
---|
4 | c on appelle le simulateur ISCCP toutes les 3h |
---|
5 | c et on fait des sorties 1 fois par jour |
---|
6 | c |
---|
7 | c ATTENTION : le temps de calcul peut augmenter considerablement ! |
---|
8 | c =============================================================== c |
---|
9 | DO n=1, napisccp |
---|
10 | c |
---|
11 | nbapp_isccp=30 !appel toutes les 15h |
---|
12 | cIM 170107 isccppas=NINT((itap*dtime)/3600.) !Nb. d'heures de la physique |
---|
13 | freqin_pdt(n)=ifreq_isccp(n) |
---|
14 | c |
---|
15 | cIM initialisation nbsunlit pour calculs simulateur ISCCP pdt la journee |
---|
16 | c |
---|
17 | DO i=1, klon |
---|
18 | sunlit(i)=1 |
---|
19 | IF(rmu0(i).EQ.0.) sunlit(i)=0 |
---|
20 | nbsunlit(1,i,n)=REAL(sunlit(i)) |
---|
21 | ENDDO |
---|
22 | c |
---|
23 | cIM calcul tau, emissivite nuages convectifs |
---|
24 | c |
---|
25 | convfra(:,:)=rnebcon(:,:) |
---|
26 | convliq(:,:)=rnebcon(:,:)*clwcon(:,:) |
---|
27 | c |
---|
28 | CALL newmicro (paprs, pplay,ok_newmicro, |
---|
29 | . t_seri, convliq, convfra, dtau_c, dem_c, |
---|
30 | . cldh_c, cldl_c, cldm_c, cldt_c, cldq_c, |
---|
31 | . flwp_c, fiwp_c, flwc_c, fiwc_c, |
---|
32 | e ok_aie, |
---|
33 | e mass_solu_aero, mass_solu_aero_pi, |
---|
34 | e bl95_b0, bl95_b1, |
---|
35 | s cldtaupi, re, fl) |
---|
36 | c |
---|
37 | cIM calcul tau, emissivite nuages startiformes |
---|
38 | c |
---|
39 | CALL newmicro (paprs, pplay,ok_newmicro, |
---|
40 | . t_seri, cldliq, cldfra, dtau_s, dem_s, |
---|
41 | . cldh_s, cldl_s, cldm_s, cldt_s, cldq_s, |
---|
42 | . flwp_s, fiwp_s, flwc_s, fiwc_s, |
---|
43 | e ok_aie, |
---|
44 | e mass_solu_aero, mass_solu_aero_pi, |
---|
45 | e bl95_b0, bl95_b1, |
---|
46 | s cldtaupi, re, fl) |
---|
47 | c |
---|
48 | cldtot(:,:)=min(max(cldfra(:,:),rnebcon(:,:)),1.) |
---|
49 | c |
---|
50 | cIM inversion des niveaux de pression ==> de haut en bas |
---|
51 | c |
---|
52 | CALL haut2bas(klon, klev, pplay, pfull) |
---|
53 | CALL haut2bas(klon, klev, q_seri, qv) |
---|
54 | CALL haut2bas(klon, klev, cldtot, cc) |
---|
55 | CALL haut2bas(klon, klev, rnebcon, conv) |
---|
56 | CALL haut2bas(klon, klev, dtau_s, dtau_sH2B) |
---|
57 | CALL haut2bas(klon, klev, dtau_c, dtau_cH2B) |
---|
58 | CALL haut2bas(klon, klev, t_seri, at) |
---|
59 | CALL haut2bas(klon, klev, dem_s, dem_sH2B) |
---|
60 | CALL haut2bas(klon, klev, dem_c, dem_cH2B) |
---|
61 | CALL haut2bas(klon, klevp1, paprs, phalf) |
---|
62 | c |
---|
63 | cIM: initialisation de seed |
---|
64 | c |
---|
65 | DO i=1, klon |
---|
66 | c |
---|
67 | aa=ABS(paprs(i,2)-NINT(paprs(i,2))) |
---|
68 | seed_re(i,n)=1000.*aa+1. |
---|
69 | seed(i,n)=NINT(seed_re(i,n)) |
---|
70 | c |
---|
71 | IF(seed(i,n).LT.50) THEN |
---|
72 | c print*,'seed<50 avant i seed itap paprs',i, |
---|
73 | c . seed(i,n),itap,paprs(i,2) |
---|
74 | seed(i,n)=50+seed(i,n)+i+itap |
---|
75 | seed_old(i,n)=seed(i,n) |
---|
76 | c |
---|
77 | IF(itap.GT.1) then |
---|
78 | IF(seed(i,n).EQ.seed_old(i,n)) THEN |
---|
79 | seed(i,n)=seed(i,n)+10 |
---|
80 | seed_old(i,n)=seed(i,n) |
---|
81 | ENDIF |
---|
82 | ENDIF |
---|
83 | c |
---|
84 | c print*,'seed<50 apres i seed itap paprs',i, |
---|
85 | c . seed(i,n),itap,paprs(i,2) |
---|
86 | c |
---|
87 | ELSE IF(seed(i,n).EQ.0) THEN |
---|
88 | print*,'seed=0 i paprs aa seed_re', |
---|
89 | . i,paprs(i,2),aa,seed_re(i,n) |
---|
90 | abort_message = '' |
---|
91 | CALL abort_gcm (modname,abort_message,1) |
---|
92 | ELSE IF(seed(i,n).LT.0) THEN |
---|
93 | print*,'seed < 0, i seed itap paprs',i, |
---|
94 | . seed(i,n),itap,paprs(i,2) |
---|
95 | abort_message = '' |
---|
96 | CALL abort_gcm (modname,abort_message,1) |
---|
97 | ENDIF |
---|
98 | c |
---|
99 | ENDDO |
---|
100 | c |
---|
101 | cIM: pas de debug, debugcol |
---|
102 | debug=0 |
---|
103 | debugcol=0 |
---|
104 | c |
---|
105 | cIM o500 ==> distribution nuage ftion du regime dynamique (vit. verticale a 500 hPa) |
---|
106 | c |
---|
107 | DO k=1, klevm1 |
---|
108 | kp1=k+1 |
---|
109 | c PRINT*,'k, presnivs',k,presnivs(k), presnivs(kp1) |
---|
110 | if(presnivs(k).GT.50000.AND.presnivs(kp1).LT.50000.) THEN |
---|
111 | DO i=1, klon |
---|
112 | o500(i)=omega(i,k)*RDAY/100. |
---|
113 | c if(i.EQ.1) print*,' 500hPa lev',k,presnivs(k),presnivs(kp1) |
---|
114 | ENDDO |
---|
115 | GOTO 1000 |
---|
116 | endif |
---|
117 | 1000 continue |
---|
118 | ENDDO |
---|
119 | c |
---|
120 | cIM recalcule les nuages vus par satellite, via le simulateur ISCCP |
---|
121 | c |
---|
122 | CALL ISCCP_CLOUD_TYPES( |
---|
123 | & debug, |
---|
124 | & debugcol, |
---|
125 | & klon, |
---|
126 | & sunlit, |
---|
127 | & klev, |
---|
128 | & ncol(n), |
---|
129 | & seed(:,n), |
---|
130 | & pfull, |
---|
131 | & phalf, |
---|
132 | & qv, cc, conv, dtau_sH2B, dtau_cH2B, |
---|
133 | & top_height, |
---|
134 | & overlap, |
---|
135 | & tautab, |
---|
136 | & invtau, |
---|
137 | & ztsol, |
---|
138 | & emsfc_lw, |
---|
139 | & at, dem_sH2B, dem_cH2B, |
---|
140 | & fq_isccp(:,:,:,n), |
---|
141 | & totalcldarea(:,n), |
---|
142 | & meanptop(:,n), |
---|
143 | & meantaucld(:,n), |
---|
144 | & boxtau(:,:,n), |
---|
145 | & boxptop(:,:,n)) |
---|
146 | c |
---|
147 | ENDDO !n=1, napisccp |
---|
148 | |
---|