MODULE thermcell_mod IMPLICIT NONE ! Flags for computations ! default LOGICAL,SAVE :: dqimpl ! .true. Flag for thermcell_dq version (True : implicit scheme || False : explicit scheme) LOGICAL,SAVE :: dvimpl ! .false. Flag for specific u, v mixing (True : thermcell_dv2 || False : thermcell_dq) ! Physical parameters REAL,SAVE :: r_aspect_thermals ! 1.0 Aspect ratio of the thermals (width / height) REAL,SAVE :: tau_thermals ! 0. Relaxation time REAL,SAVE :: betalpha ! 0.9 - between 0 (e=d=0) and 1 (rho*fraca=cst) REAL,SAVE :: afact ! 2./3. - buoyancy acceleration efficiency, between 0 and 1 REAL,SAVE :: fact_epsilon ! 2.e-3 - turbulence and friction deceleration REAL,SAVE :: nu ! 0. Geometrical contributions to entrainment and detrainment REAL,SAVE :: alpha_max ! 0.7 Maximal permitted updraft fraction REAL,SAVE :: fomass_max ! 0.5 Maximal permitted outgoing layer mass fraction REAL,SAVE :: pres_limit ! 1.e5 - !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! AB : linf is used to set the lowest possible first level because we allow it ! to begin higher than the surface. It is set to 2 in order to remove the ! first layer for gas giant. ! If there is a surface, it has to be set to 1. ! If someone want to call more than once the thermal plume model in some ! grid points, this variable may become a saved array of INTEGER with size ! ngrid. !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ INTEGER,SAVE :: linf ! 1 !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! AB : d_temp is an artificial virtual potential temperature offset added in ! layer linf which can be used to force convection to begin in it. !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ REAL,SAVE :: d_temp ! 0. ! Physical constants REAL,SAVE :: RTT REAL,SAVE :: RG REAL,SAVE :: RKAPPA REAL,SAVE :: RPI REAL,SAVE :: RD !$OMP THREADPRIVATE(RTT, RG, RKAPPA, RPI, RD) CONTAINS SUBROUTINE init_thermcell_mod(g, rcp, r, pi, T_h2o_ice_liq, RV) USE ioipsl_getin_p_mod, ONLY: getin_p IMPLICIT NONE REAL g REAL rcp REAL r REAL pi REAL T_h2o_ice_liq REAL RV RTT = T_h2o_ice_liq RG = g RKAPPA = rcp RPI = pi RD = r print *, 'Implicit mixing scheme ?' dqimpl = .true. call getin_p('dqimpl', dqimpl) print *, 'dqimpl = ', dqimpl print *, 'Use specific horizontal momentum scheme ?' dvimpl = .false. call getin_p('dvimpl', dvimpl) print *, 'dvimpl = ', dvimpl print *, 'Plume aspect ratio ?' r_aspect_thermals = 1. call getin_p('r_aspect_thermals', r_aspect_thermals) print *, 'r_aspect_thermals = ', r_aspect_thermals print *, 'Relaxation time ?' tau_thermals = 0. call getin_p('tau_thermals', tau_thermals) print *, 'tau_thermals = ', tau_thermals print *, 'betalpha ?' betalpha = 0.9 call getin_p('betalpha', betalpha) print *, 'betalpha = ', betalpha print *, 'Buoyancy acceleration efficiency ?' afact = 2./3. call getin_p('afact', afact) print *, 'afact = ', afact print *, 'Turbulence and friction factor ?' fact_epsilon = 2.e-3 call getin_p('fact_epsilon', fact_epsilon) print *, 'fact_epsilon = ', fact_epsilon print *, 'Constant entrainment and detrainment term ?' nu = 0. call getin_p('nu', nu) print *, 'nu = ', nu print *, 'Maximal authorized updraft fraction ?' alpha_max = 0.7 call getin_p('alpha_max', alpha_max) print *, 'alpha_max = ', alpha_max print *, 'Maximal authorized entrained mass flux ?' fomass_max = 0.5 call getin_p('fomass_max', fomass_max) print *, 'fomass_max = ', fomass_max print *, 'Minimal pressure below which plume can no longer trigger ?' pres_limit = 1.e5 call getin_p('pres_limit', pres_limit) print *, 'pres_limit = ', pres_limit print *, 'Deepest layer from which a plume can rise ?' linf = 1 call getin_p('linf', linf) print *, 'linf = ', linf print *, 'd_temp ?' d_temp = 0. call getin_p('d_temp', d_temp) print *, 'd_temp = ', d_temp RETURN END SUBROUTINE init_thermcell_mod END MODULE thermcell_mod