source: LMDZ6/branches/Amaury_dev/libf/phylmd/lmdz_atke_turbulence_ini.F90 @ 5135

MODULE lmdz_atke_turbulence_ini

  IMPLICIT NONE

  ! declaration of constants and parameters

  REAL, SAVE, protected :: rg, rd, rpi, rcpd, rv, viscom, viscoh
  !$OMP THREADPRIVATE(rg, rd, rpi, rcpd, rv, viscom, viscoh)

  INTEGER, SAVE, protected :: iflag_atke        ! flag that controls options in atke_compute_km_kh
  INTEGER, SAVE, protected :: iflag_atke_lmix   ! flag that controls the calculation of mixing length in atke
  INTEGER, SAVE, protected :: iflag_num_atke    ! flag that controls the numerical treatment of diffusion coeffiient calculation
  !$OMP THREADPRIVATE(iflag_atke, iflag_atke_lmix, iflag_num_atke)

  logical, SAVE, protected :: atke_ok_vdiff    ! activate vertical diffusion of TKE or not
  logical, SAVE, protected :: atke_ok_virtual  ! account for vapor for flottability
  !$OMP THREADPRIVATE(atke_ok_vdiff, atke_ok_virtual)

  REAL, SAVE, protected :: kappa = 0.4         ! Von Karman constant
  REAL, SAVE, protected :: cn                  ! Sm value at Ri=0
  REAL, SAVE, protected :: cinf                ! Sm value at Ri=-Inf
  REAL, SAVE, protected :: ri0                 ! Richardson number near zero to guarantee continuity in slope of Sm (stability function) at Ri=0
  REAL, SAVE, protected :: ri1                 ! Richardson number near zero to guarantee continuity in slope of Pr (Prandlt's number) at Ri=0
  REAL, SAVE, protected :: lmin = 0.01         ! minimum mixing length corresponding to the Kolmogov dissipation scale  in planetary atmospheres (Chen et al 2016, JGR Atmos)
  REAL, SAVE, protected :: ctkes               ! coefficient for surface TKE
  REAL, SAVE, protected :: clmixshear          ! coefficient for mixing length depending on local wind shear
  !$OMP THREADPRIVATE(kappa, cn, cinf, ri0, ri1, lmin, ctkes, clmixshear)


  ! Tunable parameters for the ATKE scheme and their range of values
  !!-------------------------------------------------------------------------------------------------------------
  REAL, SAVE, protected :: cepsilon            ! controls the value of the dissipation length scale, range [1.2 - 10]
  REAL, SAVE, protected :: cke                 ! controls the value of the diffusion coefficient of TKE, range [1 - 5]
  REAL, SAVE, protected :: l0                  ! asymptotic mixing length far from the ground [m] (Sun et al 2011, JAMC), range [15 - 75]
  REAL, SAVE, protected :: clmix               ! controls the value of the mixing length in stratified conditions, range [0.1 - 2]
  REAL, SAVE, protected :: ric                 ! critical Richardson number controlling the slope of Sm in stable conditions, range [0.19 - 0.25]
  REAL, SAVE, protected :: smmin               ! minimum value of Sm in very stable conditions (defined here as minsqrt(Ez/Ek)) at large Ri, range [0.025 - 0.1]
  REAL, SAVE, protected :: pr_neut             ! neutral value of the Prandtl number (Ri=0), range [0.7 - 1]
  REAL, SAVE, protected :: pr_slope            ! linear slope of Pr with Ri in the very stable regime, range [3 - 5]
  REAL, SAVE, protected :: cinffac             ! ratio between cinf and cn controlling the convective limit of Sm, range [1.2 - 5.0]
  REAL, SAVE, protected :: pr_asym             ! value of Prandlt in the convective limit(Ri=-Inf), range [0.3 - 0.5]
  !$OMP THREADPRIVATE(cepsilon, cke, l0, clmix, ric, smmin, pr_neut, pr_slope, cinffac, pr_asym)
  !!-------------------------------------------------------------------------------------------------------------

CONTAINS

  SUBROUTINE atke_ini(rg_in, rd_in, rpi_in, rcpd_in, rv_in, viscom_in, viscoh_in)
    !!----------------------------------------------------------------------
    !!                  ***  ROUTINE  atke_ini  ***
    !!
    !! ** Purpose :   Initialization of the atke module and choice of some constants
    !!
    !!----------------------------------------------------------------------

    USE lmdz_ioipsl_getin_p, ONLY: getin_p
    USE lmdz_abort_physic, ONLY: abort_physic

    ! input arguments (universal constants for planet)
    !-------------------------------------------------
    REAL, INTENT(IN) :: rg_in, rd_in, rpi_in, rcpd_in, rv_in, viscom_in, viscoh_in
    !!----------------------------------------------------------------------

    rg = rg_in          ! gravity acceleration
    rd = rd_in          ! dry gas constant (R/M, R=perfect gas constant and M is the molar mass of the fluid)
    rpi = rpi_in        ! Pi number
    rcpd = rcpd_in      ! cp per unit mass of the gas
    rv = rv_in          ! water vapor constant (for simulations in Earth's atmosphere)
    viscom = viscom_in  ! kinematic molecular viscosity for momentum
    viscoh = viscoh_in  ! kinematic molecular viscosity for heat


    ! Read flag values in .def files
    !-------------------------------

    ! flag that controls options in atke_compute_km_kh
    iflag_atke = 0
    CALL getin_p('iflag_atke', iflag_atke)

    ! flag that controls the calculation of mixing length in atke
    iflag_atke_lmix = 0
    CALL getin_p('iflag_atke_lmix', iflag_atke_lmix)

    IF (iflag_atke == 0 .AND. iflag_atke_lmix>0) THEN
      CALL abort_physic("atke_turbulence_ini", &
              'stationary scheme must use mixing length formulation not depending on tke', 1)
    endif

    ! activate vertical diffusion of TKE or not
    atke_ok_vdiff = .FALSE.
    CALL getin_p('atke_ok_vdiff', atke_ok_vdiff)

    ! account for vapor for flottability
    atke_ok_virtual = .TRUE.
    CALL getin_p('atke_ok_virtual', atke_ok_virtual)


    ! flag that controls the numerical treatment of diffusion coeffiient calculation
    iflag_num_atke = 0
    CALL getin_p('iflag_num_atke', iflag_num_atke)

    ! asymptotic mixing length in neutral conditions [m]
    ! Sun et al 2011, JAMC
    ! between 10 and 40
    l0 = 15.0
    CALL getin_p('atke_l0', l0)

    ! critical Richardson number
    ric = 0.25
    CALL getin_p('atke_ric', ric)

    ! constant for tke dissipation calculation
    cepsilon = 5.87 ! default value as in yamada4
    CALL getin_p('atke_cepsilon', cepsilon)

    ! calculation of cn = Sm value at Ri=0
    ! direct dependance on cepsilon to guarantee Fm=1 (first-order like stability function) at Ri=0
    cn = (1. / sqrt(cepsilon))**(2 / 3)

    ! asymptotic value of Sm for Ri=-Inf
    cinffac = 2.0
    CALL getin_p('atke_cinffac', cinffac)
    cinf = cinffac * cn
    IF (cinf <= cn) THEN
      CALL abort_physic("atke_turbulence_ini", &
              'cinf cannot be lower than cn', 1)
    endif

    ! coefficient for surface TKE
    ! following Lenderink & Holtslag 2004, ctkes=(cepsilon)**(2/3)
    ! (provided by limit condition in neutral conditions)
    ctkes = (cepsilon)**(2. / 3.)

    ! slope of Pr=f(Ri) for stable conditions
    pr_slope = 5.0 ! default value from Zilitinkevich et al. 2005
    CALL getin_p('atke_pr_slope', pr_slope)
    IF (pr_slope <= 1) THEN
      CALL abort_physic("atke_turbulence_ini", &
              'pr_slope has to be greater than 1 for consistency of the tke scheme', 1)
    endif

    ! value of turbulent prandtl number in neutral conditions (Ri=0)
    pr_neut = 0.8
    CALL getin_p('atke_pr_neut', pr_neut)

    ! asymptotic turbulent prandt number value for Ri=-Inf
    pr_asym = 0.4
    CALL getin_p('atke_pr_asym', pr_asym)
    IF (pr_asym >= pr_neut) THEN
      CALL abort_physic("atke_turbulence_ini", &
              'pr_asym must be be lower than pr_neut', 1)
    endif

    ! coefficient for mixing length depending on local stratification
    clmix = 0.5
    CALL getin_p('atke_clmix', clmix)

    ! coefficient for mixing length depending on local wind shear
    clmixshear = 0.5
    CALL getin_p('atke_clmixshear', clmixshear)

    ! minimum anisotropy coefficient (defined here as minsqrt(Ez/Ek)) at large Ri.
    ! From Zilitinkevich et al. 2013, it equals sqrt(0.03)~0.17
    smmin = 0.17
    CALL getin_p('atke_smmin', smmin)

    ! ratio between the eddy diffusivity coeff for tke wrt that for momentum
    ! default value from Lenderink et al. 2004
    cke = 2.
    CALL getin_p('atke_cke', cke)

    ! calculation of Ri0 such that continuity in slope of Sm at Ri=0
    ri0 = 2. / rpi * (cinf - cn) * ric / cn

    ! calculation of Ri1 to guarantee continuity in slope of Prandlt number at Ri=0
    ri1 = -2. / rpi * (pr_asym - pr_neut)

  END SUBROUTINE atke_ini

END MODULE  lmdz_atke_turbulence_ini