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

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

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-revision 231 by guez,
Mon Nov  6 18:00:54 2017 UTC
+revision 246 by guez,
Wed Nov 15 13:56:45 2017 UTC
 Line 8 
 contains
         cdhmax, ksta, ksta_ter, ok_kzmin, ftsoil, qsol, paprs, pplay, fsnow, &
         qsurf, evap, falbe, fluxlat, rain_fall, snow_f, fsolsw, fsollw, frugs, &
         agesno, rugoro, d_t, d_q, d_u, d_v, d_ts, flux_t, flux_q, flux_u, &
-        flux_v, cdragh, cdragm, q2, dflux_t, dflux_q, ycoefh, t2m, q2m, &
+        flux_v, cdragh, cdragm, q2, dflux_t, dflux_q, coefh, t2m, q2m, &
         u10m_srf, v10m_srf, pblh, capcl, oliqcl, cteicl, pblt, therm, trmb1, &
         trmb2, trmb3, plcl, fqcalving, ffonte, run_off_lic_0)
 Line 25 
 contains
      use clvent_m, only: clvent
      use coefkz_m, only: coefkz
      use coefkzmin_m, only: coefkzmin
+     use coefkz2_m, only: coefkz2
      USE conf_gcm_m, ONLY: lmt_pas
      USE conf_phys_m, ONLY: iflag_pbl
      USE dimphy, ONLY: klev, klon, zmasq
-Line 105 
 contains
+Line 106 
 contains
      ! dflux_q derive du flux latent
      ! IM "slab" ocean
-     REAL, intent(out):: ycoefh(klon, klev)
+     REAL, intent(out):: coefh(:, 2:) ! (klon, 2:klev)
      ! Pour pouvoir extraire les coefficients d'\'echange, le champ
-     ! "ycoefh" a \'et\'e cr\'e\'e. Nous avons moyenn\'e les valeurs de
+     ! "coefh" a \'et\'e cr\'e\'e. Nous avons moyenn\'e les valeurs de
      ! ce champ sur les quatre sous-surfaces du mod\`ele.
      REAL, INTENT(inout):: t2m(klon, nbsrf), q2m(klon, nbsrf)
-Line 163 
 contains
+Line 164 
 contains
      REAL y_flux_t(klon), y_flux_q(klon)
      REAL y_flux_u(klon), y_flux_v(klon)
      REAL y_dflux_t(klon), y_dflux_q(klon)
-     REAL coefh(klon, klev), coefm(klon, klev)
+     REAL ycoefh(klon, 2:klev), ycoefm(klon, 2:klev)
+     real ycdragh(klon), ycdragm(klon)
      REAL yu(klon, klev), yv(klon, klev)
      REAL yt(klon, klev), yq(klon, klev)
      REAL ypaprs(klon, klev + 1), ypplay(klon, klev), ydelp(klon, klev)
-     REAL ycoefm0(klon, klev), ycoefh0(klon, klev)
+     REAL ycoefm0(klon, 2:klev), ycoefh0(klon, 2:klev)
      REAL yzlay(klon, klev), zlev(klon, klev + 1), yteta(klon, klev)
-     REAL ykmm(klon, klev + 1), ykmn(klon, klev + 1)
-     REAL ykmq(klon, klev + 1)
      REAL yq2(klon, klev + 1)
      REAL delp(klon, klev)
      INTEGER i, k, nsrf
 Line 242 
 contains
      d_q = 0.
      d_u = 0.
      d_v = 0.
-     ycoefh = 0.
+     coefh = 0.
      ! Initialisation des "pourcentages potentiels". On consid\`ere ici qu'on
      ! peut avoir potentiellement de la glace sur tout le domaine oc\'eanique
 Line 309 
 contains
               END DO
            END DO
-           ! calculer Cdrag et les coefficients d'echange
            CALL coefkz(nsrf, ypaprs, ypplay, ksta, ksta_ter, yts(:knon), &
-                yrugos, yu, yv, yt, yq, yqsurf(:knon), coefm(:knon, :), &
+                yrugos, yu, yv, yt, yq, yqsurf(:knon), ycoefm(:knon, :), &
-                coefh(:knon, :))
+                ycoefh(:knon, :), ycdragm(:knon), ycdragh(:knon))
            IF (iflag_pbl == 1) THEN
-              CALL coefkz2(nsrf, knon, ypaprs, ypplay, yt, ycoefm0, ycoefh0)
+              CALL coefkz2(nsrf, knon, ypaprs, ypplay, yt, ycoefm0(:knon, :), &
-              coefm(:knon, :) = max(coefm(:knon, :), ycoefm0(:knon, :))
+                   ycoefh0(:knon, :))
-              coefh(:knon, :) = max(coefh(:knon, :), ycoefh0(:knon, :))
+              ycoefm(:knon, :) = max(ycoefm(:knon, :), ycoefm0(:knon, :))
+              ycoefh(:knon, :) = max(ycoefh(:knon, :), ycoefh0(:knon, :))
+              ycdragm(:knon) = max(ycdragm(:knon), 0.)
+              ycdragh(:knon) = max(ycdragh(:knon), 0.)
            END IF
-           ! on met un seuil pour coefm et coefh
+           ! on met un seuil pour ycdragm et ycdragh
            IF (nsrf == is_oce) THEN
-              coefm(:knon, 1) = min(coefm(:knon, 1), cdmmax)
+              ycdragm(:knon) = min(ycdragm(:knon), cdmmax)
-              coefh(:knon, 1) = min(coefh(:knon, 1), cdhmax)
+              ycdragh(:knon) = min(ycdragh(:knon), cdhmax)
            END IF
            IF (ok_kzmin) THEN
               ! Calcul d'une diffusion minimale pour les conditions tres stables
               CALL coefkzmin(knon, ypaprs, ypplay, yu, yv, yt, yq, &
-                   coefm(:knon, 1), ycoefm0, ycoefh0)
+                   ycdragm(:knon), ycoefh0(:knon, :))
-              coefm(:knon, :) = max(coefm(:knon, :), ycoefm0(:knon, :))
+              ycoefm0(:knon, :) = ycoefh0(:knon, :)
-              coefh(:knon, :) = max(coefh(:knon, :), ycoefh0(:knon, :))
+              ycoefm(:knon, :) = max(ycoefm(:knon, :), ycoefm0(:knon, :))
+              ycoefh(:knon, :) = max(ycoefh(:knon, :), ycoefh0(:knon, :))
            END IF
            IF (iflag_pbl >= 6) THEN
-Line 368 
 contains
+Line 371 
 contains
                  END DO
               END DO
-              ustar(:knon) = ustarhb(yu(:knon, 1), yv(:knon, 1), coefm(:knon, 1))
+              ustar(:knon) = ustarhb(yu(:knon, 1), yv(:knon, 1), ycdragm(:knon))
               CALL yamada4(dtime, rg, zlev(:knon, :), yzlay(:knon, :), &
-                   yu(:knon, :), yv(:knon, :), yteta(:knon, :), &
+                   yu(:knon, :), yv(:knon, :), yteta(:knon, :), yq2(:knon, :), &
-                   coefm(:knon, 1), yq2(:knon, :), ykmm(:knon, :), &
+                   ycoefm(:knon, :), ycoefh(:knon, :), ustar(:knon))
-                   ykmn(:knon, :), ykmq(:knon, :), ustar(:knon))
-              coefm(:knon, 2:) = ykmm(:knon, 2:klev)
-              coefh(:knon, 2:) = ykmn(:knon, 2:klev)
            END IF
-           CALL clvent(dtime, yu(:knon, 1), yv(:knon, 1), coefm(:knon, 2:), &
+           CALL clvent(dtime, yu(:knon, 1), yv(:knon, 1), ycoefm(:knon, :), &
-                coefm(:knon, 1), yt(:knon, :), yu(:knon, :), ypaprs(:knon, :), &
+                ycdragm(:knon), yt(:knon, :), yu(:knon, :), ypaprs(:knon, :), &
                 ypplay(:knon, :), ydelp(:knon, :), y_d_u(:knon, :), &
                 y_flux_u(:knon))
-           CALL clvent(dtime, yu(:knon, 1), yv(:knon, 1), coefm(:knon, 2:), &
+           CALL clvent(dtime, yu(:knon, 1), yv(:knon, 1), ycoefm(:knon, :), &
-                coefm(:knon, 1), yt(:knon, :), yv(:knon, :), ypaprs(:knon, :), &
+                ycdragm(:knon), yt(:knon, :), yv(:knon, :), ypaprs(:knon, :), &
                 ypplay(:knon, :), ydelp(:knon, :), y_d_v(:knon, :), &
                 y_flux_v(:knon))
            ! calculer la diffusion de "q" et de "h"
            CALL clqh(dtime, julien, firstcal, nsrf, ni(:knon), &
                 ytsoil(:knon, :), yqsol(:knon), mu0, yrugos, yrugoro, &
-                yu(:knon, 1), yv(:knon, 1), coefh(:knon, :), yt, yq, &
+                yu(:knon, 1), yv(:knon, 1), ycoefh(:knon, :), ycdragh(:knon), &
-                yts(:knon), ypaprs, ypplay, ydelp, yrads(:knon), yalb(:knon), &
+                yt, yq, yts(:knon), ypaprs, ypplay, ydelp, yrads(:knon), &
-                snow(:knon), yqsurf, yrain_f, ysnow_f, yfluxlat(:knon), &
+                yalb(:knon), snow(:knon), yqsurf, yrain_f, ysnow_f, &
-                pctsrf_new_sic, yagesno(:knon), y_d_t, y_d_q, y_d_ts(:knon), &
+                yfluxlat(:knon), pctsrf_new_sic, yagesno(:knon), y_d_t, y_d_q, &
-                yz0_new, y_flux_t(:knon), y_flux_q(:knon), y_dflux_t(:knon), &
+                y_d_ts(:knon), yz0_new, y_flux_t(:knon), y_flux_q(:knon), &
-                y_dflux_q(:knon), y_fqcalving, y_ffonte, y_run_off_lic_0)
+                y_dflux_t(:knon), y_dflux_q(:knon), y_fqcalving, y_ffonte, &
+                y_run_off_lic_0)
            ! calculer la longueur de rugosite sur ocean
            yrugm = 0.
            IF (nsrf == is_oce) THEN
               DO j = 1, knon
-                 yrugm(j) = 0.018 * coefm(j, 1) * (yu(j, 1)**2 + yv(j, 1)**2) &
+                 yrugm(j) = 0.018 * ycdragm(j) * (yu(j, 1)**2 + yv(j, 1)**2) &
                       / rg + 0.11 * 14E-6 &
-                      / sqrt(coefm(j, 1) * (yu(j, 1)**2 + yv(j, 1)**2))
+                      / sqrt(ycdragm(j) * (yu(j, 1)**2 + yv(j, 1)**2))
                  yrugm(j) = max(1.5E-05, yrugm(j))
               END DO
            END IF
-Line 414 
 contains
+Line 415 
 contains
            DO k = 1, klev
               DO j = 1, knon
                  i = ni(j)
-                 coefh(j, k) = coefh(j, k) * ypct(j)
-                 coefm(j, k) = coefm(j, k) * ypct(j)
                  y_d_t(j, k) = y_d_t(j, k) * ypct(j)
                  y_d_q(j, k) = y_d_q(j, k) * ypct(j)
                  y_d_u(j, k) = y_d_u(j, k) * ypct(j)
-Line 449 
 contains
+Line 448 
 contains
               agesno(i, nsrf) = yagesno(j)
               fqcalving(i, nsrf) = y_fqcalving(j)
               ffonte(i, nsrf) = y_ffonte(j)
-              cdragh(i) = cdragh(i) + coefh(j, 1)
+              cdragh(i) = cdragh(i) + ycdragh(j) * ypct(j)
-              cdragm(i) = cdragm(i) + coefm(j, 1)
+              cdragm(i) = cdragm(i) + ycdragm(j) * ypct(j)
               dflux_t(i) = dflux_t(i) + y_dflux_t(j)
               dflux_q(i) = dflux_q(i) + y_dflux_q(j)
            END DO
-Line 473 
 contains
+Line 472 
 contains
                  d_q(i, k) = d_q(i, k) + y_d_q(j, k)
                  d_u(i, k) = d_u(i, k) + y_d_u(j, k)
                  d_v(i, k) = d_v(i, k) + y_d_v(j, k)
-                 ycoefh(i, k) = ycoefh(i, k) + coefh(j, k)
               END DO
            END DO
+           forall (k = 2:klev) coefh(ni(:knon), k) &
+                = coefh(ni(:knon), k) + ycoefh(:knon, k) * ypct(:knon)
            ! diagnostic t, q a 2m et u, v a 10m
            DO j = 1, knon
-Line 500 
 contains
+Line 501 
 contains
            CALL stdlevvar(klon, knon, nsrf, u1(:knon), v1(:knon), tair1(:knon), &
                 qair1, zgeo1, tairsol, qairsol, rugo1, psfce, patm, yt2m, &
-                yq2m, yt10m, yq10m, wind10m(:knon), ustar)
+                yq2m, yt10m, yq10m, wind10m(:knon), ustar(:knon))
            DO j = 1, knon
               i = ni(j)

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