MODULE lmdz_thermcell_ini IMPLICIT NONE save integer, protected :: dvdq=1,dqimpl=-1,prt_level=0,lunout real , protected :: RG,RD,RCPD,RKAPPA,RLVTT,RLvCp,RETV !$OMP THREADPRIVATE(dvdq,dqimpl,prt_level,lunout) !$OMP THREADPRIVATE(RG,RD,RCPD,RKAPPA,RLVTT,RLvCp,RETV) ! Parameters that can be modified directly by a getin call real, protected :: r_aspect_thermals=2. ! Aspect ratio for thermal celles real, protected :: tau_thermals = 0. ! relaxation time constant real, protected :: fact_thermals_ed_dz = 0.1 ! bouyancy computed with a delta real, protected :: betalpha=0.9 ! real, protected :: afact=2./3. ! real, protected :: fact_shell=1. ! real, protected :: detr_min=1.e-5 ! real, protected :: entr_min=1.e-5 ! real, protected :: detr_q_coef=0.012 ! real, protected :: detr_q_power=0.5 ! real, protected :: mix0=0. ! integer, protected :: iflag_thermals_ed = 0 ! integer, protected :: iflag_thermals_optflux = 0 ! integer, protected :: iflag_thermals_closure = 1 ! integer, protected :: iflag_thermals_down = 0 ! real, protected :: fact_thermals_down = 0.5 ! integer, protected :: thermals_flag_alim=0 ! integer, protected :: iflag_thermals_tenv=0 ! ! WARNING !!! fact_epsilon is not protected. It can be modified in thermcell_plume* ! depending on other flags. real :: fact_epsilon=0.002 !$OMP THREADPRIVATE(r_aspect_thermals,tau_thermals,fact_thermals_ed_dz) !$OMP THREADPRIVATE(iflag_thermals_ed,iflag_thermals_optflux,iflag_thermals_closure) !$OMP THREADPRIVATE(iflag_thermals_down) !$OMP THREADPRIVATE(fact_thermals_down) !$OMP THREADPRIVATE(fact_epsilon, betalpha, afact, fact_shell) !$OMP THREADPRIVATE(detr_min, entr_min, detr_q_coef, detr_q_power) !$OMP THREADPRIVATE( mix0, thermals_flag_alim) !$OMP THREADPRIVATE(iflag_thermals_tenv) CONTAINS SUBROUTINE thermcell_ini(iflag_thermals,prt_level_in,tau_thermals_in,lunout_in, & & RG_in,RD_in,RCPD_in,RKAPPA_in,RLVTT_in,RETV_in) USE ioipsl_getin_p_mod, ONLY : getin_p integer, intent(in) :: iflag_thermals,prt_level_in,lunout_in real, intent(in) :: RG_in,RD_in,RCPD_in,RKAPPA_in,RLVTT_in,RETV_in,tau_thermals_in print*,'thermcell_ini' if (iflag_thermals==15.or.iflag_thermals==16) then dvdq=0 dqimpl=-1 else dvdq=1 dqimpl=1 endif prt_level=prt_level_in RG=RG_in RD=RD_in RCPD=RCPD_in RKAPPA=RKAPPA_in RLVTT=RLVTT_in RLvCp = RLVTT/RCPD RETV=RETV_in tau_thermals=tau_thermals_in lunout=lunout_in !===================================================================== ! a la fois les vieilles param et thermcell_main : !===================================================================== CALL getin_p('r_aspect_thermals',r_aspect_thermals) CALL getin_p('tau_thermals',tau_thermals) CALL getin_p('fact_thermals_ed_dz',fact_thermals_ed_dz) CALL getin_p('iflag_thermals_ed',iflag_thermals_ed) CALL getin_p('iflag_thermals_optflux',iflag_thermals_optflux) CALL getin_p('iflag_thermals_closure',iflag_thermals_closure) CALL getin_p('iflag_thermals_down',iflag_thermals_down) CALL getin_p('fact_thermals_down',fact_thermals_down) CALL getin_p('thermals_fact_epsilon',fact_epsilon) CALL getin_p('thermals_betalpha',betalpha) CALL getin_p('thermals_afact',afact) CALL getin_p('thermals_fact_shell',fact_shell) CALL getin_p('thermals_detr_min',detr_min) CALL getin_p('thermals_entr_min',entr_min) CALL getin_p('thermals_detr_q_coef',detr_q_coef) CALL getin_p('thermals_detr_q_power',detr_q_power) CALL getin_p('thermals_mix0',mix0) CALL getin_p('thermals_flag_alim',thermals_flag_alim) CALL getin_p('iflag_thermals_tenv',iflag_thermals_tenv) write(lunout,*) 'thermcell_ini ,prt_level =', prt_level write(lunout,*) 'thermcell_ini ,RG =', RG write(lunout,*) 'thermcell_ini ,RD =', RD write(lunout,*) 'thermcell_ini ,RCPD =', RCPD write(lunout,*) 'thermcell_ini ,RKAPPA =', RKAPPA write(lunout,*) 'thermcell_ini ,RLVTT =', RLVTT write(lunout,*) 'thermcell_ini ,RLvCp =', RLvCp write(lunout,*) 'thermcell_ini ,RETV =', RETV write(lunout,*) 'thermcell_ini ,tau_thermals =', tau_thermals write(lunout,*) 'thermcell_ini ,lunout =', lunout write(lunout,*) 'thermcell_ini ,r_aspect_thermals =', r_aspect_thermals write(lunout,*) 'thermcell_ini ,tau_thermals =', tau_thermals write(lunout,*) 'thermcell_ini ,fact_thermals_ed_dz =', fact_thermals_ed_dz write(lunout,*) 'thermcell_ini ,fact_thermals_ed_dz =', fact_thermals_ed_dz write(lunout,*) 'thermcell_ini ,iflag_thermals_ed =', iflag_thermals_ed write(lunout,*) 'thermcell_ini ,iflag_thermals_optflux =', iflag_thermals_optflux write(lunout,*) 'thermcell_ini ,iflag_thermals_closure =', iflag_thermals_closure write(lunout,*) 'thermcell_ini ,iflag_thermals_down =', iflag_thermals_down write(lunout,*) 'thermcell_ini ,fact_thermals_down =', fact_thermals_down write(lunout,*) 'thermcell_ini ,fact_epsilon =', fact_epsilon write(lunout,*) 'thermcell_ini ,betalpha =', betalpha write(lunout,*) 'thermcell_ini ,afact =', afact write(lunout,*) 'thermcell_ini ,fact_shell =', fact_shell write(lunout,*) 'thermcell_ini ,detr_min =', detr_min write(lunout,*) 'thermcell_ini ,entr_min =', entr_min write(lunout,*) 'thermcell_ini ,detr_q_coef =', detr_q_coef write(lunout,*) 'thermcell_ini ,detr_q_power =', detr_q_power write(lunout,*) 'thermcell_ini ,mix0 =', mix0 write(lunout,*) 'thermcell_ini ,thermals_flag_alim =', thermals_flag_alim write(lunout,*) 'thermcell_ini ,iflag_thermals_tenv =', iflag_thermals_tenv RETURN END SUBROUTINE thermcell_ini END MODULE lmdz_thermcell_ini