source: LMDZ6/branches/Amaury_dev/libf/phylmd/Dust/blcloud_scav.f90 @ 5208

! Subroutine that calculates the effect of precipitation in scavenging
! BELOW the cloud, for large scale as well as convective precipitation
SUBROUTINE blcloud_scav(lminmax, qmin, qmax, pdtphys, prfl, psfl, &
        pmflxr, pmflxs, zdz, alpha_r, alpha_s, masse, &
        his_dhbclsc, his_dhbccon, tr_seri)

  USE dimphy
  USE indice_sol_mod
  USE lmdz_infotrac
  USE lmdz_yomcst

  USE lmdz_dimensions, ONLY: iim, jjm, llm, ndm
  USE lmdz_paramet
  USE lmdz_chem, ONLY: idms, iso2, iso4, ih2s, idmso, imsa, ih2o2, &
          n_avogadro, masse_s, masse_so4, rho_water, rho_ice

  IMPLICIT NONE
  !============================= INPUT ===================================
  REAL :: qmin, qmax
  REAL :: pdtphys  ! pas d'integration pour la physique (seconde)
  ! REAL prfl(klon,klev),   psfl(klon,klev)     !--large-scale
  ! REAL pmflxr(klon,klev), pmflxs(klon,klev)   !--convection
  REAL :: alpha_r(nbtr)!--coefficient d'impaction pour la pluie
  REAL :: alpha_s(nbtr)!--coefficient d'impaction pour la neige
  REAL :: masse(nbtr)
  LOGICAL :: lminmax
  REAL :: zdz(klon, klev)
  REAL :: prfl(klon, klev + 1), psfl(klon, klev + 1)     !--large-scale  ! Titane
  REAL :: pmflxr(klon, klev + 1), pmflxs(klon, klev + 1)   !--convection   ! Titane
  !============================= OUTPUT ==================================
  REAL :: tr_seri(klon, klev, nbtr) ! traceur
  REAL :: aux_var1(klon, klev) ! traceur
  REAL :: aux_var2(klon, klev) ! traceur
  REAL :: his_dhbclsc(klon, nbtr), his_dhbccon(klon, nbtr)
  !========================= LOCAL VARIABLES =============================
  INTEGER :: it, k, i, j
  REAL :: d_tr(klon, klev, nbtr)

  EXTERNAL minmaxqfi, bcscav_spl

  DO it = 1, nbtr

    DO j = 1, klev
      DO i = 1, klon
        aux_var1(i, j) = tr_seri(i, j, it)
        aux_var2(i, j) = d_tr(i, j, it)
      ENDDO
    ENDDO

    !nhl      CALL bcscav_spl(pdtphys,prfl,psfl,alpha_r(it),alpha_s(it),
    !nhl     .                tr_seri(1,1,it),d_tr(1,1,it))
    CALL bcscav_spl(pdtphys, prfl, psfl, alpha_r(it), alpha_s(it), &
            aux_var1, aux_var2)

    DO j = 1, klev
      DO i = 1, klon
        tr_seri(i, j, it) = aux_var1(i, j)
        d_tr(i, j, it) = aux_var2(i, j)
      ENDDO
    ENDDO
    DO k = 1, klev
      DO i = 1, klon
        tr_seri(i, k, it) = tr_seri(i, k, it) + d_tr(i, k, it)
        his_dhbclsc(i, it) = his_dhbclsc(i, it) - d_tr(i, k, it) / RNAVO * &
                masse(it) * 1.e3 * 1.e6 * zdz(i, k) / pdtphys  !--mgS/m2/s

      ENDDO
    ENDDO

    DO i = 1, klon
      DO j = 1, klev
        aux_var1(i, j) = tr_seri(i, j, it)
        aux_var2(i, j) = d_tr(i, j, it)
      ENDDO
    ENDDO

    IF (lminmax) THEN
      CALL minmaxqfi(aux_var1, qmin, qmax, 'depot humide bc lsc')
      !nhl      CALL minmaxqfi(tr_seri(1,1,it),qmin,qmax,'depot humide bc lsc')
    ENDIF

    !-scheme for convective scavenging

    !nhl      CALL bcscav_spl(pdtphys,pmflxr,pmflxs,alpha_r(it),alpha_s(it),
    !nhl     .                tr_seri(1,1,it),d_tr(1,1,it))

    CALL bcscav_spl(pdtphys, pmflxr, pmflxs, alpha_r(it), alpha_s(it), &
            aux_var1, aux_var2)

    DO i = 1, klon
      DO j = 1, klev
        tr_seri(i, j, it) = aux_var1(i, j)
        d_tr(i, j, it) = aux_var2(i, j)
      ENDDO
    ENDDO

    DO k = 1, klev
      DO i = 1, klon
        tr_seri(i, k, it) = tr_seri(i, k, it) + d_tr(i, k, it)
        his_dhbccon(i, it) = his_dhbccon(i, it) - d_tr(i, k, it) / RNAVO * &
                masse(it) * 1.e3 * 1.e6 * zdz(i, k) / pdtphys    !--mgS/m2/s
      ENDDO
    ENDDO

    IF (lminmax) THEN
      DO j = 1, klev
        DO i = 1, klon
          aux_var1(i, j) = tr_seri(i, j, it)
        ENDDO
      ENDDO
      CALL minmaxqfi(aux_var1, qmin, qmax, 'depot humide bc con')
      !nhl      CALL minmaxqfi(tr_seri(1,1,it),qmin,qmax,'depot humide bc con')
      DO j = 1, klev
        DO i = 1, klon
          tr_seri(i, j, it) = aux_var1(i, j)
        ENDDO
      ENDDO
    ENDIF

  ENDDO !--boucle sur it

END SUBROUTINE blcloud_scav