:============================================================================= : MODULE SUBSTANCE NAMELIST with CPP key : SUBSTANCE :============================================================================= : :----------------------------------------------------------------------------- : nmlnbvar : number of each type of substance to be defined (other than T & S) :----------------------------------------------------------------------------- : nv_dis : number of dissolved susbtances : nv_ncp : number of Non Constitutive Particulate subtances : nv_fix : number of fixed susbtances (not advected) : nv_bent : number of benthic susbtances : nv_grav : number of susbtances type GRAVELS (only if key_sed_MUSTANG) : nv_sand : number of susbtances type SAND (only if key_sed_MUSTANG) : nv_mud : number of susbtances type MUD (only if key_sed_MUSTANG) : nv_sorb : number of particulate susbtances sorbed on an other particule : &nmlnbvar nv_dis=0 nv_ncp=0 nv_fix=0 nv_bent=0 nv_grav=0 nv_sand=2 nv_mud=1 nv_sorb=0 / :----------------------------------------------------------------------------- : nmlsands : Characterization of SAND substances (used only if defined : MUSTANG) : If nv_sand = 0 this namelist is not read :----------------------------------------------------------------------------- : name_var_n() : string, name of variable : long_name_var_n() : string, long name of variable : standard_name_var_n() : string, standard name of variable : unit_var_n() : string, unit of concentration of variable : flx_atm_n() : real, uniform atmospherical deposition (unit/m2/s) : cv_rain_n() : real, concentration in rainwater (unit/m3 of water) : cini_wat_n() : real, initial concentration in water column (unit/m3) : cini_air_n() : real, initial concentration in air : l_out_subs_n() : boolean, saving in output file if TRUE : init_cv_name_n() : string, name of substance read from initial condition : file : obc_cv_name_n() : string, name of substance read from obc file : cini_sed_n() : real, initial concentration in sediment (quantity/kg of : dry sediment) (only if cppkey MUSTANG) : tocd_n() : real, critical stress of deposition (N/m2) : ros_n() : real, density of particle (kg/m3) : l_bedload_n() : boolean, allow bedload transport : diam_n() : diameter of particles : l_sand2D() : boolean, to treat sand variable as 2D variable (used only if : key_sand2D) : l_outsandrouse() : boolean, to use a reconstitution of a ROUSE profil : for output in water column (used only if key_sand2D : and l_sand2D is TRUE for this variable) : : WARNING if several sands: start with the coarser sands and continue more : and more finely : &nmlsands name_var_n(1)='GRAV' long_name_var_n(1)='GRAV' standard_name_var_n(1)='GRAV' unit_var_n(1)='kg.m-3' flx_atm_n(1)=0.0 cv_rain_n(1)=0.0 cini_wat_n(1)=0.0 cini_sed_n(1)=0.4 cini_air_n(1)=0.0 l_out_subs_n(1)=.TRUE. l_bedload_n(1)=.FALSE. init_cv_name_n(1)='GRAV' obc_cv_name_n(1)='GRAV' tocd_n(1)=0.5 ros_n(1)=2600.0 diam_n(1)=0.0002 l_sand2D_n(1)=.FALSE. l_outsandrouse_n(1)=.FALSE. name_var_n(2)='SAND' long_name_var_n(2)='SAND' standard_name_var_n(2)='SAND' unit_var_n(2)='kg.m-3' flx_atm_n(2)=0.0 cv_rain_n(2)=0.0 cini_wat_n(2)=0.0 cini_sed_n(2)=0.4 cini_air_n(2)=0.0 l_out_subs_n(2)=.TRUE. l_bedload_n(2)=.FALSE. init_cv_name_n(2)='SAND' obc_cv_name_n(2)='SAND' tocd_n(2)=1.0 ros_n(2)=2600.0 diam_n(2)=0.0001 l_sand2D_n(2)=.FALSE. l_outsandrouse_n(2)=.FALSE. / :----------------------------------------------------------------------------- : nmlmuds : Characterization of MUD substances (used only if defined MUSTANG) : If nv_mud = 0 this namelist is not read :----------------------------------------------------------------------------- : name_var_n() : string, name of variable : long_name_var_n() : string, long name of variable : standard_name_var_n() : string, standard name of variable : unit_var_n() : string, unit of concentration of variable : flx_atm_n() : real, uniform atmospherical deposition (unit/m2/s) : cv_rain_n() : real, concentration in rainwater (unit/m3 of water) : cini_wat_n() : real, initial concentration in water column (unit/m3) : cini_air_n() : real, initial concentration in air : l_out_subs_n() : boolean, saving in output file if TRUE : init_cv_name_n() : string, name of substance read from initial condition : file : obc_cv_name_n() : string, name of substance read from obc file : cini_sed_n() : real, initial concentration in sediment (quantity/kg of : dry sediment) (only if cppkey MUSTANG) : cobc_wat_n() : real, boundaries uniform and constant concentration : (kg/m3) : tocd_n() : real, critical stress of deposition (N/m2) : ros_n() : real, density of particle (kg/m3) : ws_free_opt_n() : integer, choice of free settling formulation : : 0 constant, 1 Van Leussen, 2 Winterwerp, 3 Wolanski : ws_free_min_n() : real, minimum setling velocity (m/s) : ws_free_max_n() : real, maximum setling velocity (m/s) : ws_free_para_n(1:4,num substance) : 4 additional parameters : ws_hind_opt_n() : choice of hindered settling formulation : : 0 no hindered settling, 1 Scott, 2 Winterwerp, : 3 Wolanski : ws_hind_para_n(1:2,num substance) : 2 additional parameters : &nmlmuds name_var_n(1)='MUD' long_name_var_n(1)='MUD' standard_name_var_n(1)='MUD' unit_var_n(1)='kg.m-3' flx_atm_n(1)=0.0 cv_rain_n(1)=0.0 cini_wat_n(1)=0.02 cobc_wat_n(1)=0.02 cini_sed_n(1)=0.2 cini_air_n(1)=0.0 l_out_subs_n(1)=.TRUE. init_cv_name_n(1)='MUD' obc_cv_name_n(1)='MUD' tocd_n(1)=1. diam_n(1)=0. ros_n(1)=2600.0 ws_free_opt_n(1)=0 ws_free_min_n(1)=0.0005 ws_free_max_n(1)=0.0005 ws_free_para_n(1,1)=0.0, ws_free_para_n(2,1)=0.0, ws_free_para_n(3,1)=0.0, ws_free_para_n(4,1)=0.0 ws_hind_opt_n(1)=0 ws_hind_para_n(1,1)=0.0 , ws_hind_para_n(2,1)=0.0 /