| 6 |
|
|
| 7 |
SUBROUTINE leapfrog(ucov, vcov, teta, ps, masse, phis, q, time_0) |
SUBROUTINE leapfrog(ucov, vcov, teta, ps, masse, phis, q, time_0) |
| 8 |
|
|
| 9 |
! From dyn3d/leapfrog.F, version 1.6, 2005/04/13 08:58:34 |
! From dyn3d/leapfrog.F, version 1.6, 2005/04/13 08:58:34 revision 616 |
| 10 |
! Authors: P. Le Van, L. Fairhead, F. Hourdin |
! Authors: P. Le Van, L. Fairhead, F. Hourdin |
| 11 |
! Matsuno-leapfrog scheme. |
! Matsuno-leapfrog scheme. |
| 12 |
|
|
| 15 |
use caladvtrac_m, only: caladvtrac |
use caladvtrac_m, only: caladvtrac |
| 16 |
use caldyn_m, only: caldyn |
use caldyn_m, only: caldyn |
| 17 |
USE calfis_m, ONLY: calfis |
USE calfis_m, ONLY: calfis |
|
USE com_io_dyn, ONLY: histaveid |
|
| 18 |
USE comconst, ONLY: daysec, dtphys, dtvr |
USE comconst, ONLY: daysec, dtphys, dtvr |
| 19 |
USE comgeom, ONLY: aire_2d, apoln, apols |
USE comgeom, ONLY: aire_2d, apoln, apols |
| 20 |
USE comvert, ONLY: ap, bp |
USE disvert_m, ONLY: ap, bp |
| 21 |
USE conf_gcm_m, ONLY: day_step, iconser, iperiod, iphysiq, nday, offline, & |
USE conf_gcm_m, ONLY: day_step, iconser, iperiod, iphysiq, nday, offline, & |
| 22 |
periodav |
iflag_phys, ok_guide, iecri |
| 23 |
USE dimens_m, ONLY: iim, jjm, llm, nqmx |
USE dimens_m, ONLY: iim, jjm, llm, nqmx |
| 24 |
use dissip_m, only: dissip |
use dissip_m, only: dissip |
| 25 |
USE dynetat0_m, ONLY: day_ini |
USE dynetat0_m, ONLY: day_ini |
| 26 |
use dynredem1_m, only: dynredem1 |
use dynredem1_m, only: dynredem1 |
| 27 |
USE exner_hyb_m, ONLY: exner_hyb |
USE exner_hyb_m, ONLY: exner_hyb |
| 28 |
use filtreg_m, only: filtreg |
use filtreg_m, only: filtreg |
| 29 |
|
use fluxstokenc_m, only: fluxstokenc |
| 30 |
use geopot_m, only: geopot |
use geopot_m, only: geopot |
| 31 |
USE guide_m, ONLY: guide |
USE guide_m, ONLY: guide |
| 32 |
use inidissip_m, only: idissip |
use inidissip_m, only: idissip |
| 33 |
use integrd_m, only: integrd |
use integrd_m, only: integrd |
| 34 |
USE logic, ONLY: iflag_phys, ok_guide |
use nr_util, only: assert |
|
USE paramet_m, ONLY: ip1jmp1 |
|
| 35 |
USE pressure_var, ONLY: p3d |
USE pressure_var, ONLY: p3d |
| 36 |
USE temps, ONLY: itau_dyn |
USE temps, ONLY: itau_dyn |
| 37 |
|
use writedynav_m, only: writedynav |
| 38 |
|
use writehist_m, only: writehist |
| 39 |
|
|
| 40 |
! Variables dynamiques: |
! Variables dynamiques: |
| 41 |
REAL, intent(inout):: ucov(ip1jmp1, llm) ! vent covariant |
REAL, intent(inout):: ucov(:, :, :) ! (iim + 1, jjm + 1, llm) vent covariant |
| 42 |
REAL, intent(inout):: vcov((iim + 1) * jjm, llm) ! vent covariant |
REAL, intent(inout):: vcov(:, :, :) ! (iim + 1, jjm, llm) ! vent covariant |
| 43 |
|
|
| 44 |
REAL, intent(inout):: teta(:, :, :) ! (iim + 1, jjm + 1, llm) |
REAL, intent(inout):: teta(:, :, :) ! (iim + 1, jjm + 1, llm) |
| 45 |
! potential temperature |
! potential temperature |
| 46 |
|
|
| 47 |
REAL, intent(inout):: ps(:, :) ! (iim + 1, jjm + 1) pression au sol, en Pa |
REAL, intent(inout):: ps(:, :) ! (iim + 1, jjm + 1) pression au sol, en Pa |
| 48 |
REAL masse(ip1jmp1, llm) ! masse d'air |
REAL, intent(inout):: masse(:, :, :) ! (iim + 1, jjm + 1, llm) masse d'air |
| 49 |
REAL phis(ip1jmp1) ! geopotentiel au sol |
REAL, intent(in):: phis(:, :) ! (iim + 1, jjm + 1) surface geopotential |
| 50 |
|
|
| 51 |
REAL, intent(inout):: q(:, :, :, :) ! (iim + 1, jjm + 1, llm, nqmx) |
REAL, intent(inout):: q(:, :, :, :) ! (iim + 1, jjm + 1, llm, nqmx) |
| 52 |
! mass fractions of advected fields |
! mass fractions of advected fields |
| 53 |
|
|
| 54 |
REAL, intent(in):: time_0 |
REAL, intent(in):: time_0 |
| 55 |
|
|
| 56 |
! Variables local to the procedure: |
! Local: |
| 57 |
|
|
| 58 |
! Variables dynamiques: |
! Variables dynamiques: |
| 59 |
|
|
| 60 |
REAL pks(ip1jmp1) ! exner au sol |
REAL pks(iim + 1, jjm + 1) ! exner au sol |
| 61 |
REAL pk(iim + 1, jjm + 1, llm) ! exner au milieu des couches |
REAL pk(iim + 1, jjm + 1, llm) ! exner au milieu des couches |
| 62 |
REAL pkf(ip1jmp1, llm) ! exner filt.au milieu des couches |
REAL pkf(iim + 1, jjm + 1, llm) ! exner filtr\'e au milieu des couches |
| 63 |
REAL phi(iim + 1, jjm + 1, llm) ! geopotential |
REAL phi(iim + 1, jjm + 1, llm) ! geopotential |
| 64 |
REAL w(ip1jmp1, llm) ! vitesse verticale |
REAL w(iim + 1, jjm + 1, llm) ! vitesse verticale |
| 65 |
|
|
| 66 |
! variables dynamiques intermediaire pour le transport |
! Variables dynamiques intermediaire pour le transport |
| 67 |
REAL pbaru(ip1jmp1, llm), pbarv((iim + 1) * jjm, llm) !flux de masse |
! Flux de masse : |
| 68 |
|
REAL pbaru(iim + 1, jjm + 1, llm), pbarv(iim + 1, jjm, llm) |
| 69 |
|
|
| 70 |
! variables dynamiques au pas - 1 |
! Variables dynamiques au pas - 1 |
| 71 |
REAL vcovm1((iim + 1) * jjm, llm), ucovm1(ip1jmp1, llm) |
REAL vcovm1(iim + 1, jjm, llm), ucovm1(iim + 1, jjm + 1, llm) |
| 72 |
REAL tetam1(iim + 1, jjm + 1, llm), psm1(iim + 1, jjm + 1) |
REAL tetam1(iim + 1, jjm + 1, llm), psm1(iim + 1, jjm + 1) |
| 73 |
REAL massem1(ip1jmp1, llm) |
REAL massem1(iim + 1, jjm + 1, llm) |
| 74 |
|
|
| 75 |
! tendances dynamiques |
! Tendances dynamiques |
| 76 |
REAL dv((iim + 1) * jjm, llm), dudyn(ip1jmp1, llm) |
REAL dv((iim + 1) * jjm, llm), dudyn(iim + 1, jjm + 1, llm) |
| 77 |
REAL dteta(iim + 1, jjm + 1, llm), dq(ip1jmp1, llm, nqmx), dp(ip1jmp1) |
REAL dteta(iim + 1, jjm + 1, llm) |
| 78 |
|
real dp((iim + 1) * (jjm + 1)) |
| 79 |
|
|
| 80 |
! tendances de la dissipation |
! Tendances de la dissipation : |
| 81 |
REAL dvdis((iim + 1) * jjm, llm), dudis(ip1jmp1, llm) |
REAL dvdis(iim + 1, jjm, llm), dudis(iim + 1, jjm + 1, llm) |
| 82 |
REAL dtetadis(iim + 1, jjm + 1, llm) |
REAL dtetadis(iim + 1, jjm + 1, llm) |
| 83 |
|
|
| 84 |
! tendances physiques |
! Tendances physiques |
| 85 |
REAL dvfi((iim + 1) * jjm, llm), dufi(ip1jmp1, llm) |
REAL dvfi(iim + 1, jjm, llm), dufi(iim + 1, jjm + 1, llm) |
| 86 |
REAL dtetafi(iim + 1, jjm + 1, llm), dqfi(ip1jmp1, llm, nqmx), dpfi(ip1jmp1) |
REAL dtetafi(iim + 1, jjm + 1, llm), dqfi(iim + 1, jjm + 1, llm, nqmx) |
| 87 |
|
|
| 88 |
! variables pour le fichier histoire |
! Variables pour le fichier histoire |
| 89 |
|
|
| 90 |
INTEGER itau ! index of the time step of the dynamics, starts at 0 |
INTEGER itau ! index of the time step of the dynamics, starts at 0 |
| 91 |
INTEGER itaufin |
INTEGER itaufin |
| 92 |
REAL time ! time of day, as a fraction of day length |
REAL time ! time of day, as a fraction of day length |
| 93 |
real finvmaold(ip1jmp1, llm) |
real finvmaold(iim + 1, jjm + 1, llm) |
| 94 |
INTEGER l |
INTEGER l |
| 95 |
REAL rdayvrai, rdaym_ini |
REAL rdayvrai, rdaym_ini |
| 96 |
|
|
| 97 |
! Variables test conservation energie |
! Variables test conservation \'energie |
| 98 |
REAL ecin(iim + 1, jjm + 1, llm), ecin0(iim + 1, jjm + 1, llm) |
REAL ecin(iim + 1, jjm + 1, llm), ecin0(iim + 1, jjm + 1, llm) |
| 99 |
|
|
| 100 |
REAL dtetaecdt(iim + 1, jjm + 1, llm) |
REAL vcont((iim + 1) * jjm, llm), ucont((iim + 1) * (jjm + 1), llm) |
|
! tendance de la température potentielle due à la tansformation |
|
|
! d'énergie cinétique en énergie thermique créée par la dissipation |
|
|
|
|
|
REAL vcont((iim + 1) * jjm, llm), ucont(ip1jmp1, llm) |
|
| 101 |
logical leapf |
logical leapf |
| 102 |
real dt |
real dt ! time step, in s |
| 103 |
|
|
| 104 |
!--------------------------------------------------- |
!--------------------------------------------------- |
| 105 |
|
|
| 106 |
print *, "Call sequence information: leapfrog" |
print *, "Call sequence information: leapfrog" |
| 107 |
|
call assert(shape(ucov) == (/iim + 1, jjm + 1, llm/), "leapfrog") |
| 108 |
|
|
| 109 |
itaufin = nday * day_step |
itaufin = nday * day_step |
| 110 |
! "day_step" is a multiple of "iperiod", therefore "itaufin" is one too |
! "day_step" is a multiple of "iperiod", therefore so is "itaufin". |
|
|
|
|
dq = 0. |
|
| 111 |
|
|
| 112 |
! On initialise la pression et la fonction d'Exner : |
! On initialise la pression et la fonction d'Exner : |
| 113 |
forall (l = 1: llm + 1) p3d(:, :, l) = ap(l) + bp(l) * ps |
forall (l = 1: llm + 1) p3d(:, :, l) = ap(l) + bp(l) * ps |
| 128 |
massem1 = masse |
massem1 = masse |
| 129 |
psm1 = ps |
psm1 = ps |
| 130 |
finvmaold = masse |
finvmaold = masse |
| 131 |
CALL filtreg(finvmaold, jjm + 1, llm, - 2, 2, .TRUE., 1) |
CALL filtreg(finvmaold, jjm + 1, llm, - 2, 2, .TRUE.) |
| 132 |
end if |
end if |
| 133 |
|
|
| 134 |
! Calcul des tendances dynamiques: |
! Calcul des tendances dynamiques: |
| 135 |
CALL geopot(ip1jmp1, teta, pk, pks, phis, phi) |
CALL geopot(teta, pk, pks, phis, phi) |
| 136 |
CALL caldyn(itau, ucov, vcov, teta, ps, masse, pk, pkf, phis, phi, & |
CALL caldyn(itau, ucov, vcov, teta, ps, masse, pk, pkf, phis, phi, & |
| 137 |
dudyn, dv, dteta, dp, w, pbaru, pbarv, time_0, & |
dudyn, dv, dteta, dp, w, pbaru, pbarv, time_0, & |
| 138 |
conser=MOD(itau, iconser)==0) |
conser = MOD(itau, iconser) == 0) |
| 139 |
|
|
| 140 |
! Calcul des tendances advection des traceurs (dont l'humidité) |
CALL caladvtrac(q, pbaru, pbarv, p3d, masse, teta, pk) |
|
CALL caladvtrac(q, pbaru, pbarv, p3d, masse, dq, teta, pk) |
|
| 141 |
|
|
| 142 |
! Stokage du flux de masse pour traceurs offline: |
! Stokage du flux de masse pour traceurs offline: |
| 143 |
IF (offline) CALL fluxstokenc(pbaru, pbarv, masse, teta, phi, phis, & |
IF (offline) CALL fluxstokenc(pbaru, pbarv, masse, teta, phi, phis, & |
| 144 |
dtvr, itau) |
dtvr, itau) |
| 145 |
|
|
| 146 |
! Integrations dynamique et traceurs: |
! Int\'egrations dynamique et traceurs: |
| 147 |
CALL integrd(vcovm1, ucovm1, tetam1, psm1, massem1, dv, dudyn, dteta, & |
CALL integrd(vcovm1, ucovm1, tetam1, psm1, massem1, dv, dudyn, dteta, & |
| 148 |
dp, vcov, ucov, teta, q(:, :, :, :2), ps, masse, finvmaold, dt, & |
dp, vcov, ucov, teta, q(:, :, :, :2), ps, masse, finvmaold, dt, & |
| 149 |
leapf) |
leapf) |
| 154 |
CALL exner_hyb(ps, p3d, pks, pk, pkf) |
CALL exner_hyb(ps, p3d, pks, pk, pkf) |
| 155 |
|
|
| 156 |
! Calcul des tendances dynamiques: |
! Calcul des tendances dynamiques: |
| 157 |
CALL geopot(ip1jmp1, teta, pk, pks, phis, phi) |
CALL geopot(teta, pk, pks, phis, phi) |
| 158 |
CALL caldyn(itau + 1, ucov, vcov, teta, ps, masse, pk, pkf, phis, & |
CALL caldyn(itau + 1, ucov, vcov, teta, ps, masse, pk, pkf, phis, & |
| 159 |
phi, dudyn, dv, dteta, dp, w, pbaru, pbarv, time_0, & |
phi, dudyn, dv, dteta, dp, w, pbaru, pbarv, time_0, & |
| 160 |
conser=.false.) |
conser = .false.) |
| 161 |
|
|
| 162 |
! integrations dynamique et traceurs: |
! integrations dynamique et traceurs: |
| 163 |
CALL integrd(vcovm1, ucovm1, tetam1, psm1, massem1, dv, dudyn, & |
CALL integrd(vcovm1, ucovm1, tetam1, psm1, massem1, dv, dudyn, & |
| 165 |
finvmaold, dtvr, leapf=.false.) |
finvmaold, dtvr, leapf=.false.) |
| 166 |
end if |
end if |
| 167 |
|
|
| 168 |
IF (MOD(itau + 1, iphysiq) == 0 .AND. iflag_phys /= 0) THEN |
forall (l = 1: llm + 1) p3d(:, :, l) = ap(l) + bp(l) * ps |
| 169 |
! calcul des tendances physiques: |
CALL exner_hyb(ps, p3d, pks, pk, pkf) |
| 170 |
|
|
| 171 |
forall (l = 1: llm + 1) p3d(:, :, l) = ap(l) + bp(l) * ps |
IF (MOD(itau + 1, iphysiq) == 0 .AND. iflag_phys /= 0) THEN |
| 172 |
CALL exner_hyb(ps, p3d, pks, pk, pkf) |
! Calcul des tendances physiques: |
| 173 |
|
|
| 174 |
rdaym_ini = itau * dtvr / daysec |
rdaym_ini = itau * dtvr / daysec |
| 175 |
rdayvrai = rdaym_ini + day_ini |
rdayvrai = rdaym_ini + day_ini |
| 176 |
time = REAL(mod(itau, day_step)) / day_step + time_0 |
time = REAL(mod(itau, day_step)) / day_step + time_0 |
| 177 |
IF (time > 1.) time = time - 1. |
IF (time > 1.) time = time - 1. |
| 178 |
|
|
| 179 |
CALL calfis(rdayvrai, time, ucov, vcov, teta, q, masse, ps, pk, & |
CALL calfis(rdayvrai, time, ucov, vcov, teta, q, pk, phis, phi, w, & |
| 180 |
phis, phi, dudyn, dv, dq, w, dufi, dvfi, dtetafi, dqfi, dpfi, & |
dufi, dvfi, dtetafi, dqfi, lafin = itau + 1 == itaufin) |
|
lafin=itau+1==itaufin) |
|
|
|
|
|
! ajout des tendances physiques: |
|
|
CALL addfi(nqmx, dtphys, ucov, vcov, teta, q, ps, dufi, dvfi, & |
|
|
dtetafi, dqfi, dpfi) |
|
|
ENDIF |
|
| 181 |
|
|
| 182 |
forall (l = 1: llm + 1) p3d(:, :, l) = ap(l) + bp(l) * ps |
! Ajout des tendances physiques: |
| 183 |
CALL exner_hyb(ps, p3d, pks, pk, pkf) |
CALL addfi(ucov, vcov, teta, q, dufi, dvfi, dtetafi, dqfi) |
| 184 |
|
ENDIF |
| 185 |
|
|
| 186 |
IF (MOD(itau + 1, idissip) == 0) THEN |
IF (MOD(itau + 1, idissip) == 0) THEN |
| 187 |
! dissipation horizontale et verticale des petites echelles: |
! Dissipation horizontale et verticale des petites \'echelles |
| 188 |
|
|
| 189 |
! calcul de l'energie cinetique avant dissipation |
! calcul de l'\'energie cin\'etique avant dissipation |
| 190 |
call covcont(llm, ucov, vcov, ucont, vcont) |
call covcont(llm, ucov, vcov, ucont, vcont) |
| 191 |
call enercin(vcov, ucov, vcont, ucont, ecin0) |
call enercin(vcov, ucov, vcont, ucont, ecin0) |
| 192 |
|
|
| 193 |
! dissipation |
! dissipation |
| 194 |
CALL dissip(vcov, ucov, teta, p3d, dvdis, dudis, dtetadis) |
CALL dissip(vcov, ucov, teta, p3d, dvdis, dudis, dtetadis) |
| 195 |
ucov=ucov + dudis |
ucov = ucov + dudis |
| 196 |
vcov=vcov + dvdis |
vcov = vcov + dvdis |
| 197 |
|
|
| 198 |
! On rajoute la tendance due à la transformation Ec -> E |
! On ajoute la tendance due \`a la transformation \'energie |
| 199 |
! thermique créée lors de la dissipation |
! cin\'etique en \'energie thermique par la dissipation |
| 200 |
call covcont(llm, ucov, vcov, ucont, vcont) |
call covcont(llm, ucov, vcov, ucont, vcont) |
| 201 |
call enercin(vcov, ucov, vcont, ucont, ecin) |
call enercin(vcov, ucov, vcont, ucont, ecin) |
| 202 |
dtetaecdt= (ecin0 - ecin) / pk |
dtetadis = dtetadis + (ecin0 - ecin) / pk |
| 203 |
dtetadis=dtetadis + dtetaecdt |
teta = teta + dtetadis |
|
teta=teta + dtetadis |
|
| 204 |
|
|
| 205 |
! Calcul de la valeur moyenne aux pôles : |
! Calcul de la valeur moyenne aux p\^oles : |
| 206 |
forall (l = 1: llm) |
forall (l = 1: llm) |
| 207 |
teta(:, 1, l) = SUM(aire_2d(:iim, 1) * teta(:iim, 1, l)) & |
teta(:, 1, l) = SUM(aire_2d(:iim, 1) * teta(:iim, 1, l)) & |
| 208 |
/ apoln |
/ apoln |
| 209 |
teta(:, jjm + 1, l) = SUM(aire_2d(:iim, jjm+1) & |
teta(:, jjm + 1, l) = SUM(aire_2d(:iim, jjm+1) & |
| 210 |
* teta(:iim, jjm + 1, l)) / apols |
* teta(:iim, jjm + 1, l)) / apols |
| 211 |
END forall |
END forall |
|
|
|
|
ps(:, 1) = SUM(aire_2d(:iim, 1) * ps(:iim, 1)) / apoln |
|
|
ps(:, jjm + 1) = SUM(aire_2d(:iim, jjm+1) * ps(:iim, jjm + 1)) & |
|
|
/ apols |
|
| 212 |
END IF |
END IF |
| 213 |
|
|
| 214 |
IF (MOD(itau + 1, iperiod) == 0) THEN |
IF (MOD(itau + 1, iperiod) == 0) THEN |
| 215 |
! Écriture du fichier histoire moyenne: |
! \'Ecriture du fichier histoire moyenne: |
| 216 |
CALL writedynav(histaveid, nqmx, itau + 1, vcov, ucov, teta, pk, & |
CALL writedynav(vcov, ucov, teta, pk, phi, q, masse, ps, phis, & |
| 217 |
phi, q, masse, ps, phis) |
time = itau + 1) |
| 218 |
call bilan_dyn(ps, masse, pk, pbaru, pbarv, teta, phi, ucov, vcov, & |
call bilan_dyn(ps, masse, pk, pbaru, pbarv, teta, phi, ucov, vcov, & |
| 219 |
q(:, :, :, 1), dt_app = dtvr * iperiod, & |
q(:, :, :, 1)) |
|
dt_cum = dtvr * day_step * periodav) |
|
| 220 |
ENDIF |
ENDIF |
| 221 |
|
|
| 222 |
|
IF (MOD(itau + 1, iecri * day_step) == 0) THEN |
| 223 |
|
CALL geopot(teta, pk, pks, phis, phi) |
| 224 |
|
CALL writehist(itau, vcov, ucov, teta, phi, q, masse, ps) |
| 225 |
|
END IF |
| 226 |
end do time_integration |
end do time_integration |
| 227 |
|
|
| 228 |
CALL dynredem1("restart.nc", vcov, ucov, teta, q, masse, ps, & |
CALL dynredem1("restart.nc", vcov, ucov, teta, q, masse, ps, & |
| 229 |
itau=itau_dyn+itaufin) |
itau = itau_dyn + itaufin) |
| 230 |
|
|
| 231 |
! Calcul des tendances dynamiques: |
! Calcul des tendances dynamiques: |
| 232 |
CALL geopot(ip1jmp1, teta, pk, pks, phis, phi) |
CALL geopot(teta, pk, pks, phis, phi) |
| 233 |
CALL caldyn(itaufin, ucov, vcov, teta, ps, masse, pk, pkf, phis, phi, & |
CALL caldyn(itaufin, ucov, vcov, teta, ps, masse, pk, pkf, phis, phi, & |
| 234 |
dudyn, dv, dteta, dp, w, pbaru, pbarv, time_0, & |
dudyn, dv, dteta, dp, w, pbaru, pbarv, time_0, & |
| 235 |
conser=MOD(itaufin, iconser)==0) |
conser = MOD(itaufin, iconser) == 0) |
| 236 |
|
|
| 237 |
END SUBROUTINE leapfrog |
END SUBROUTINE leapfrog |
| 238 |
|
|
| 239 |
end module leapfrog_m |
end module leapfrog_m |
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