/[lmdze]/trunk/Sources/phylmd/physiq.f

Diff of /trunk/Sources/phylmd/physiq.f

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-revision 217 by guez,
Thu Mar 30 14:25:18 2017 UTC
+revision 224 by guez,
Fri Apr 28 13:40:59 2017 UTC
 Line 26 
 contains
      use comconst, only: dtphys
      USE comgeomphy, ONLY: airephy
      USE concvl_m, ONLY: concvl
-     USE conf_gcm_m, ONLY: offline, lmt_pas
+     USE conf_gcm_m, ONLY: lmt_pas
      USE conf_phys_m, ONLY: conf_phys
      use conflx_m, only: conflx
      USE ctherm, ONLY: iflag_thermals, nsplit_thermals
 Line 36 
 contains
      USE dimsoil, ONLY: nsoilmx
      use drag_noro_m, only: drag_noro
      use dynetat0_m, only: day_ref, annee_ref
-     USE fcttre, ONLY: foeew, qsatl, qsats
+     USE fcttre, ONLY: foeew
      use fisrtilp_m, only: fisrtilp
      USE hgardfou_m, ONLY: hgardfou
      USE histsync_m, ONLY: histsync
 Line 53 
 contains
      USE phyetat0_m, ONLY: phyetat0, rlat, rlon
      USE phyredem_m, ONLY: phyredem
      USE phyredem0_m, ONLY: phyredem0
-     USE phystokenc_m, ONLY: phystokenc
      USE phytrac_m, ONLY: phytrac
      use radlwsw_m, only: radlwsw
      use yoegwd, only: sugwd
-Line 219 
 contains
+Line 218 
 contains
      real devap(klon) ! derivative of the evaporation flux at the surface
      REAL sens(klon) ! flux de chaleur sensible au sol
      real dsens(klon) ! derivee du flux de chaleur sensible au sol
-     REAL, save:: dlw(klon) ! derivee infra rouge
+     REAL, save:: dlw(klon) ! derivative of infra-red flux
      REAL bils(klon) ! bilan de chaleur au sol
-     REAL, save:: fder(klon) ! Derive de flux (sensible et latente)
+     REAL fder(klon) ! Derive de flux (sensible et latente)
      REAL ve(klon) ! integr. verticale du transport meri. de l'energie
      REAL vq(klon) ! integr. verticale du transport meri. de l'eau
      REAL ue(klon) ! integr. verticale du transport zonal de l'energie
-Line 274 
 contains
+Line 273 
 contains
      REAL cldl(klon), cldm(klon), cldh(klon) ! nuages bas, moyen et haut
      REAL cldt(klon), cldq(klon) ! nuage total, eau liquide integree
-     REAL zxqsurf(klon), zxfluxlat(klon)
+     REAL zxfluxlat(klon)
      REAL dist, mu0(klon), fract(klon)
      real longi
      REAL z_avant(klon), z_apres(klon), z_factor(klon)
-Line 339 
 contains
+Line 337 
 contains
      real rain_lsc(klon)
      REAL, save:: snow_con(klon) ! neige (mm / s)
      real snow_lsc(klon)
-     REAL d_ts(klon, nbsrf)
+     REAL d_ts(klon, nbsrf) ! variation of ftsol
      REAL d_u_vdf(klon, llm), d_v_vdf(klon, llm)
      REAL d_t_vdf(klon, llm), d_q_vdf(klon, llm)
-Line 382 
 contains
+Line 380 
 contains
      REAL uq_lay(klon, llm) ! transport zonal de l'eau a chaque niveau vert.
      real date0
-     REAL ztsol(klon)
+     REAL tsol(klon)
      REAL d_t_ec(klon, llm)
      ! tendance due \`a la conversion d'\'energie cin\'etique en
-Line 502 
 contains
+Line 500 
 contains
      ql_seri = qx(:, :, iliq)
      tr_seri = qx(:, :, 3:nqmx)
-     ztsol = sum(ftsol * pctsrf, dim = 2)
+     tsol = sum(ftsol * pctsrf, dim = 2)
      ! Diagnostic de la tendance dynamique :
      IF (ancien_ok) THEN
-Line 563 
 contains
+Line 561 
 contains
      ! R\'epartition du longwave par sous-surface lin\'earis\'ee
      forall (nsrf = 1: nbsrf)
-        fsollw(:, nsrf) = sollw + 4. * RSIGMA * ztsol**3 &
+        fsollw(:, nsrf) = sollw + 4. * RSIGMA * tsol**3 &
-             * (ztsol - ftsol(:, nsrf))
+             * (tsol - ftsol(:, nsrf))
         fsolsw(:, nsrf) = solsw * (1. - falbe(:, nsrf)) / (1. - albsol)
      END forall
-     fder = dlw
      CALL clmain(dtphys, pctsrf, t_seri, q_seri, u_seri, v_seri, julien, mu0, &
           ftsol, cdmmax, cdhmax, ksta, ksta_ter, ok_kzmin, ftsoil, qsol, &
           paprs, play, fsnow, fqsurf, fevap, falbe, fluxlat, rain_fall, &
-          snow_fall, fsolsw, fsollw, fder, frugs, agesno, rugoro, d_t_vdf, &
+          snow_fall, fsolsw, fsollw, frugs, agesno, rugoro, d_t_vdf, d_q_vdf, &
-          d_q_vdf, d_u_vdf, d_v_vdf, d_ts, flux_t, flux_q, flux_u, flux_v, &
+          d_u_vdf, d_v_vdf, d_ts, flux_t, flux_q, flux_u, flux_v, cdragh, &
-          cdragh, cdragm, q2, dsens, devap, ycoefh, yu1, yv1, t2m, q2m, u10m, &
+          cdragm, q2, dsens, devap, ycoefh, yu1, yv1, t2m, q2m, u10m, v10m, &
-          v10m, pblh, capCL, oliqCL, cteiCL, pblT, therm, trmb1, trmb2, trmb3, &
+          pblh, capCL, oliqCL, cteiCL, pblT, therm, trmb1, trmb2, trmb3, plcl, &
-          plcl, fqcalving, ffonte, run_off_lic_0)
+          fqcalving, ffonte, run_off_lic_0)
      ! Incr\'ementation des flux
-Line 598 
 contains
+Line 594 
 contains
      call assert(abs(sum(pctsrf, dim = 2) - 1.) <= EPSFRA, 'physiq: pctsrf')
      ftsol = ftsol + d_ts
-     ztsol = sum(ftsol * pctsrf, dim = 2)
+     tsol = sum(ftsol * pctsrf, dim = 2)
      zxfluxlat = sum(fluxlat * pctsrf, dim = 2)
      zt2m = sum(t2m * pctsrf, dim = 2)
      zq2m = sum(q2m * pctsrf, dim = 2)
-Line 621 
 contains
+Line 617 
 contains
      DO nsrf = 1, nbsrf
         DO i = 1, klon
            IF (pctsrf(i, nsrf) < epsfra) then
-              ftsol(i, nsrf) = ztsol(i)
+              ftsol(i, nsrf) = tsol(i)
               t2m(i, nsrf) = zt2m(i)
               q2m(i, nsrf) = zq2m(i)
               u10m(i, nsrf) = zu10m(i)
-Line 642 
 contains
+Line 638 
 contains
         ENDDO
      ENDDO
-     ! Calculer la dérive du flux infrarouge
+     dlw = - 4. * RSIGMA * tsol**3
-     DO i = 1, klon
-        dlw(i) = - 4. * RSIGMA * ztsol(i)**3
-     ENDDO
      ! Appeler la convection
-Line 881 
 contains
+Line 873 
 contains
      IF (MOD(itap - 1, radpas) == 0) THEN
         wo = ozonecm(REAL(julien), paprs)
         albsol = sum(falbe * pctsrf, dim = 2)
-        CALL radlwsw(dist, mu0, fract, paprs, play, ztsol, albsol, t_seri, &
+        CALL radlwsw(dist, mu0, fract, paprs, play, tsol, albsol, t_seri, &
              q_seri, wo, cldfra, cldemi, cldtau, heat, heat0, cool, cool0, &
              radsol, albpla, topsw, toplw, solsw, sollw, sollwdown, topsw0, &
              toplw0, solsw0, sollw0, lwdn0, lwdn, lwup0, lwup, swdn0, swdn, &
-Line 896 
 contains
+Line 888 
 contains
         ENDDO
      ENDDO
-     ! Calculer l'hydrologie de la surface
-     zxqsurf = sum(fqsurf * pctsrf, dim = 2)
      ! Calculer le bilan du sol et la d\'erive de temp\'erature (couplage)
      DO i = 1, klon
         bils(i) = radsol(i) - sens(i) + zxfluxlat(i)
-Line 980 
 contains
+Line 969 
 contains
           pctsrf, frac_impa, frac_nucl, da, phi, mp, upwd, dnwd, tr_seri, &
           zmasse, ncid_startphy)
-     IF (offline) call phystokenc(dtphys, t, mfu, mfd, pen_u, pde_u, pen_d, &
-          pde_d, fm_therm, entr_therm, ycoefh, yu1, yv1, ftsol, pctsrf, &
-          frac_impa, frac_nucl, pphis, airephy, dtphys)
      ! Calculer le transport de l'eau et de l'energie (diagnostique)
      CALL transp(paprs, t_seri, q_seri, u_seri, v_seri, zphi, ve, vq, ue, uq)
-Line 1048 
 contains
+Line 1033 
 contains
      CALL histwrite_phy("precip", rain_fall + snow_fall)
      CALL histwrite_phy("plul", rain_lsc + snow_lsc)
      CALL histwrite_phy("pluc", rain_con + snow_con)
-     CALL histwrite_phy("tsol", ztsol)
+     CALL histwrite_phy("tsol", tsol)
      CALL histwrite_phy("t2m", zt2m)
      CALL histwrite_phy("q2m", zq2m)
      CALL histwrite_phy("u10m", zu10m)
-Line 1112 
 contains
+Line 1097 
 contains
      CALL histwrite_phy("dtsw0", heat0 / 86400.)
      CALL histwrite_phy("dtlw0", - cool0 / 86400.)
      CALL histwrite_phy("msnow", sum(fsnow * pctsrf, dim = 2))
+     call histwrite_phy("qsurf", sum(fqsurf * pctsrf, dim = 2))
      if (ok_instan) call histsync(nid_ins)

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+Added in v.224

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