11 |
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12 |
USE comconst, ONLY : dtvr |
USE comconst, ONLY : dtvr |
13 |
USE conf_gcm_m, ONLY : iapp_tracvl |
USE conf_gcm_m, ONLY : iapp_tracvl |
14 |
USE dimens_m, ONLY : iim, jjm, llm, nqmx |
USE dimens_m, ONLY : jjm, llm, nqmx |
15 |
USE iniadvtrac_m, ONLY : iadv |
USE iniadvtrac_m, ONLY : iadv |
16 |
USE paramet_m, ONLY : iip1, iip2, ijmllm, ijp1llm, ip1jm, ip1jmp1, jjp1, & |
use massbar_m, only: massbar |
17 |
llmp1 |
USE paramet_m, ONLY : iip1, iip2, ijmllm, ijp1llm, ip1jm, ip1jmp1, llmp1 |
18 |
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use vlsplt_m, only: vlsplt |
19 |
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use vlspltqs_m, only: vlspltqs |
20 |
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21 |
REAL, intent(in):: pbaru(ip1jmp1, llm), pbarv(ip1jm, llm) |
REAL, intent(in):: pbaru(ip1jmp1, llm), pbarv(ip1jm, llm) |
22 |
REAL, intent(in):: p(ip1jmp1, llmp1) |
REAL, intent(in):: p(ip1jmp1, llmp1) |
33 |
REAL, save:: massem(ip1jmp1, llm) |
REAL, save:: massem(ip1jmp1, llm) |
34 |
real zdp(ip1jmp1) |
real zdp(ip1jmp1) |
35 |
REAL pbarug(ip1jmp1, llm), pbarvg(ip1jm, llm), wg(ip1jmp1, llm) |
REAL pbarug(ip1jmp1, llm), pbarvg(ip1jm, llm), wg(ip1jmp1, llm) |
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REAL cpuadv(nqmx) |
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36 |
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37 |
INTEGER:: iadvtr = 0 |
INTEGER:: iadvtr = 0 |
38 |
INTEGER ij, l, iq |
INTEGER ij, l, iq |
39 |
REAL zdpmin, zdpmax |
REAL zdpmin, zdpmax |
40 |
EXTERNAL minmax |
EXTERNAL minmax |
41 |
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! Rajouts pour PPM |
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42 |
INTEGER indice, n |
INTEGER indice, n |
43 |
! Pas de temps adaptatif pour que CFL < 1 |
! Pas de temps adaptatif pour que CFL < 1 |
44 |
REAL dtbon |
REAL dtbon |
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REAL cflmaxz ! CFL maximum |
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real aaa, bbb |
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REAL psppm(iim, jjp1) ! pression au sol |
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REAL unatppm(iim, jjp1, llm), vnatppm(iim, jjp1, llm) |
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REAL qppm(iim*jjp1, llm, nqmx) |
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REAL fluxwppm(iim, jjp1, llm) |
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REAL apppm(llmp1), bpppm(llmp1) |
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LOGICAL:: dum = .TRUE., fill = .TRUE. |
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45 |
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46 |
!----------------------------------------------------------- |
!----------------------------------------------------------- |
47 |
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72 |
! 1. calcul de w |
! 1. calcul de w |
73 |
! 2. groupement des mailles pres du pole. |
! 2. groupement des mailles pres du pole. |
74 |
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75 |
CALL groupe(massem, pbaruc, pbarvc, pbarug, pbarvg, wg) |
CALL groupe(pbaruc, pbarvc, pbarug, pbarvg, wg) |
76 |
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77 |
! test sur l'eventuelle creation de valeurs negatives de la masse |
! test sur l'eventuelle creation de valeurs negatives de la masse |
78 |
DO l = 1, llm - 1 |
DO l = 1, llm - 1 |
94 |
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95 |
! Advection proprement dite |
! Advection proprement dite |
96 |
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97 |
! Calcul des moyennes basées sur la masse |
! Calcul des moyennes bas\'ees sur la masse |
98 |
CALL massbar(massem, massebx, masseby) |
CALL massbar(massem, massebx, masseby) |
99 |
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100 |
! Appel des sous programmes d'advection |
! Appel des sous programmes d'advection |
101 |
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102 |
DO iq = 1, nqmx |
DO iq = 1, nqmx |
103 |
IF (iadv(iq)==0) CYCLE |
select case (iadv(iq)) |
104 |
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case (10) |
105 |
! Schema de Van Leer I MUSCL |
! Schema de Van Leer I MUSCL |
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IF (iadv(iq)==10) THEN |
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106 |
CALL vlsplt(q(:, :, iq), 2., massem, wg, pbarug, pbarvg, dtvr) |
CALL vlsplt(q(:, :, iq), 2., massem, wg, pbarug, pbarvg, dtvr) |
107 |
! Schema "pseudo amont" + test sur humidite specifique |
case (12) |
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! pour la vapeur d'eau. F. Codron |
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ELSE IF (iadv(iq)==14) THEN |
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CALL vlspltqs(q(1, 1, 1), 2., massem, wg, pbarug, pbarvg, dtvr, & |
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p, pk, teta) |
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108 |
! Schema de Frederic Hourdin |
! Schema de Frederic Hourdin |
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ELSE IF (iadv(iq)==12) THEN |
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109 |
! Pas de temps adaptatif |
! Pas de temps adaptatif |
110 |
CALL adaptdt(iadv(iq), dtbon, n, pbarug, massem) |
CALL adaptdt(dtbon, n, pbarug, massem) |
111 |
IF (n>1) THEN |
IF (n>1) THEN |
112 |
WRITE (*, *) 'WARNING horizontal dt=', dtbon, 'dtvr=', dtvr, & |
WRITE (*, *) 'WARNING horizontal dt=', dtbon, 'dtvr=', dtvr, & |
113 |
'n=', n |
'n=', n |
115 |
DO indice = 1, n |
DO indice = 1, n |
116 |
CALL advn(q(1, 1, iq), massem, wg, pbarug, pbarvg, dtbon, 1) |
CALL advn(q(1, 1, iq), massem, wg, pbarug, pbarvg, dtbon, 1) |
117 |
END DO |
END DO |
118 |
ELSE IF (iadv(iq)==13) THEN |
case (13) |
119 |
! Pas de temps adaptatif |
! Pas de temps adaptatif |
120 |
CALL adaptdt(iadv(iq), dtbon, n, pbarug, massem) |
CALL adaptdt(dtbon, n, pbarug, massem) |
121 |
IF (n>1) THEN |
IF (n>1) THEN |
122 |
WRITE (*, *) 'WARNING horizontal dt=', dtbon, 'dtvr=', dtvr, & |
WRITE (*, *) 'WARNING horizontal dt=', dtbon, 'dtvr=', dtvr, & |
123 |
'n=', n |
'n=', n |
125 |
DO indice = 1, n |
DO indice = 1, n |
126 |
CALL advn(q(1, 1, iq), massem, wg, pbarug, pbarvg, dtbon, 2) |
CALL advn(q(1, 1, iq), massem, wg, pbarug, pbarvg, dtbon, 2) |
127 |
END DO |
END DO |
128 |
! Schema de pente SLOPES |
case (14) |
129 |
ELSE IF (iadv(iq)==20) THEN |
! Schema "pseudo amont" + test sur humidite specifique |
130 |
CALL pentes_ini(q(1, 1, iq), wg, massem, pbarug, pbarvg, 0) |
! pour la vapeur d'eau. F. Codron |
131 |
! Schema de Prather |
CALL vlspltqs(q(1, 1, 1), 2., massem, wg, pbarug, pbarvg, dtvr, & |
132 |
ELSE IF (iadv(iq)==30) THEN |
p, pk, teta) |
133 |
! Pas de temps adaptatif |
END select |
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CALL adaptdt(iadv(iq), dtbon, n, pbarug, massem) |
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IF (n>1) THEN |
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WRITE (*, *) 'WARNING horizontal dt=', dtbon, 'dtvr=', dtvr, & |
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'n=', n |
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END IF |
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CALL prather(q(1, 1, iq), wg, massem, pbarug, pbarvg, n, dtbon) |
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! Schemas PPM Lin et Rood |
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ELSE IF (iadv(iq)==11 .OR. (iadv(iq)>=16 .AND. iadv(iq)<=18)) THEN |
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! Test sur le flux horizontal |
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! Pas de temps adaptatif |
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CALL adaptdt(iadv(iq), dtbon, n, pbarug, massem) |
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IF (n>1) THEN |
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WRITE (*, *) 'WARNING horizontal dt=', dtbon, 'dtvr=', dtvr, & |
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'n=', n |
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END IF |
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! Test sur le flux vertical |
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cflmaxz = 0. |
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DO l = 2, llm |
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DO ij = iip2, ip1jm |
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aaa = wg(ij, l)*dtvr/massem(ij, l) |
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cflmaxz = max(cflmaxz, aaa) |
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bbb = -wg(ij, l)*dtvr/massem(ij, l-1) |
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cflmaxz = max(cflmaxz, bbb) |
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END DO |
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END DO |
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IF (cflmaxz>=1) THEN |
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WRITE (*, *) 'WARNING vertical', 'CFLmaxz=', cflmaxz |
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END IF |
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! Ss-prg interface LMDZ.4->PPM3d |
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CALL interpre(q(1, 1, iq), qppm(1, 1, iq), wg, fluxwppm, massem, & |
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apppm, bpppm, massebx, masseby, pbarug, pbarvg, unatppm, & |
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vnatppm, psppm) |
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DO indice = 1, n |
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! VL (version PPM) horiz. et PPM vert. |
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IF (iadv(iq)==11) THEN |
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! Ss-prg PPM3d de Lin |
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CALL ppm3d(1, qppm(1, 1, iq), psppm, psppm, unatppm, & |
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vnatppm, fluxwppm, dtbon, 2, 2, 2, 1, iim, jjp1, 2, & |
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llm, apppm, bpppm, 0.01, 6400000, fill, dum, 220.) |
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! Monotonic PPM |
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ELSE IF (iadv(iq)==16) THEN |
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! Ss-prg PPM3d de Lin |
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CALL ppm3d(1, qppm(1, 1, iq), psppm, psppm, unatppm, & |
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vnatppm, fluxwppm, dtbon, 3, 3, 3, 1, iim, jjp1, 2, & |
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llm, apppm, bpppm, 0.01, 6400000, fill, dum, 220.) |
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! Semi Monotonic PPM |
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ELSE IF (iadv(iq)==17) THEN |
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! Ss-prg PPM3d de Lin |
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CALL ppm3d(1, qppm(1, 1, iq), psppm, psppm, unatppm, & |
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vnatppm, fluxwppm, dtbon, 4, 4, 4, 1, iim, jjp1, 2, & |
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llm, apppm, bpppm, 0.01, 6400000, fill, dum, 220.) |
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! Positive Definite PPM |
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ELSE IF (iadv(iq)==18) THEN |
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! Ss-prg PPM3d de Lin |
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CALL ppm3d(1, qppm(1, 1, iq), psppm, psppm, unatppm, & |
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vnatppm, fluxwppm, dtbon, 5, 5, 5, 1, iim, jjp1, 2, & |
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llm, apppm, bpppm, 0.01, 6400000, fill, dum, 220.) |
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END IF |
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END DO |
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! Ss-prg interface PPM3d-LMDZ.4 |
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CALL interpost(q(1, 1, iq), qppm(1, 1, iq)) |
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END IF |
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134 |
END DO |
END DO |
135 |
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136 |
! on reinitialise a zero les flux de masse cumules |
! on reinitialise a zero les flux de masse cumules |