MODULE atke_turbulence_ini_mod implicit none save integer :: iflag_atke, iflag_num_atke, iflag_atke_lmix !$OMP THREADPRIVATE(iflag_atke, iflag_num_atke, iflag_atke_lmix) real :: kappa = 0.4 ! Von Karman constant !$OMP THREADPRIVATE(kappa) real :: l0, ric, ri0, cinf, cepsilon, pr_slope, pr_asym, pr_neut, clmix, smmin, ctkes,cke !$OMP THREADPRIVATE(l0,ric,cinf,cepsilon,pr_slope,pr_asym,pr_neut,clmix,smmin,ctkes,cke) integer :: lunout,prt_level !$OMP THREADPRIVATE(lunout,prt_level) real :: rg, rd, rpi, rcpd, rv !$OMP THREADPRIVATE(rg, rd, rpi, rcpd, rv) real :: viscom, viscoh !$OMP THREADPRIVATE(viscom,viscoh) real :: lmin=0.01 ! minimum mixing length !$OMP THREADPRIVATE(lmin) logical :: atke_ok_vdiff, atke_ok_virtual !$OMP THREADPRIVATE(atke_ok_vdiff,atke_ok_virtual) CONTAINS SUBROUTINE atke_ini(prt_level_in, lunout_in, rg_in, rd_in, rpi_in, rcpd_in, rv_in) USE ioipsl_getin_p_mod, ONLY : getin_p integer, intent(in) :: lunout_in,prt_level_in real, intent(in) :: rg_in, rd_in, rpi_in, rcpd_in, rv_in lunout=lunout_in prt_level=prt_level_in rd=rd_in rg=rg_in rpi=rpi_in rcpd=rcpd_in rv=rv_in viscom=1.46E-5 viscoh=2.06E-5 ! 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 .eq. 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) ! asymptotic value of Sm for Ri=-Inf cinf=1.5 CALL getin_p('atke_cinf',cinf) ! constant for tke dissipation calculation cepsilon=5.87 ! default value as in yamada4 CALL getin_p('atke_cepsilon',cepsilon) ! coefficient for surface TKE ! following Lenderink & Holtslag 2004, ctkes=sqrt(cepsilon) ! (provided by limit condition in neutral conditions) ctkes=sqrt(cepsilon) ! 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 .le. 1) then call abort_physic("atke_turbulence_ini", & 'pr_slope has to be greater than 1 for consistency of the tke scheme', 1) endif ! asymptotic turbulent prandt number value for Ri=-Inf pr_asym=0.4 CALL getin_p('atke_pr_asym',pr_asym) ! value of turbulent prandtl number in neutral conditions (Ri=0) pr_neut=0.8 CALL getin_p('atke_pr_neut',pr_neut) ! coefficient for mixing length depending on local stratification clmix=0.5 CALL getin_p('atke_clmix',clmix) ! 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) RETURN END SUBROUTINE atke_ini END MODULE atke_turbulence_ini_mod