&time_control run_days = 0, run_hours = 0, run_minutes = 0, run_seconds = 5, start_year = 2005, start_month = 08, start_day = 28, start_hour = 12, start_minute = 00, start_second = 00, end_year = 2005, end_month = 08, end_day = 28, end_hour = 18, end_minute = 00, end_second = 00, interval_seconds = 21600 input_from_file = .true., history_interval_s = 5, frames_per_outfile = 1000, restart = .false., restart_interval = 100, io_form_history = 2 io_form_restart = 2 io_form_input = 2 io_form_boundary = 2 debug_level = 0 / &domains time_step = 0, time_step_fract_num = 5, time_step_fract_den = 10, max_dom = 1, e_we = 43, e_sn = 43, e_vert = 41, p_top_requested = 5000, num_metgrid_levels = 27 num_metgrid_soil_levels = 4, dx = 60, dy = 60, grid_id = 1, parent_id = 0, i_parent_start = 0, j_parent_start = 0, parent_grid_ratio = 1, parent_time_step_ratio = 1, feedback = 1, smooth_option = 0 sr_x = 10, sr_y = 10, sfcp_to_sfcp = .true., / &physics mp_physics = 2, ra_lw_physics = 1, ra_sw_physics = 1, radt = 10, sf_sfclay_physics = 1, sf_surface_physics = 1, bl_pbl_physics = 1, bldt = 0, cu_physics = 1, cudt = 5, surface_input_source = 1, num_soil_layers = 5, sf_urban_physics = 0, / &fdda / &dynamics rk_ord = 3, w_damping = 0, diff_opt = 2, km_opt = 2, damp_opt = 0, base_temp = 290. zdamp = 5000., dampcoef = 0.2, khdif = 0.05, kvdif = 0.05, smdiv = 0.1, emdiv = 0.01, epssm = 0.1, time_step_sound = 20, h_mom_adv_order = 5, v_mom_adv_order = 3, h_sca_adv_order = 5, v_sca_adv_order = 3, non_hydrostatic = .true., pd_moist = .true. pd_chem = .true. pd_scalar = .true. pd_tke = .true. / &fire ! be sure to set sr_x,sr_y in domains-namelist (to set refinement in x,y) ifire = 2, ! integer, = 0: no fire, = 1: CAWFE 2: SFIRE ! ! CAWFE variables (NOTE: may or may not work. I do not maintain the cawfe path any more. JM) ! !fire_lat_init = 40., ! real , initial fire latitude (deg) !fire_lon_init = -105., ! real , initial fire longitude (deg) fire_lat_init = 6.75e-3, ! real , initial fire latitude (deg) fire_lon_init = 6.70e-3, ! real , initial fire longitude (deg) fire_ign_time = 30., ! real , time of fire ignition (s) fire_shape = 1, ! integer, initial fire shape fire_sprd_mdl = 1, ! integer, = 0: Macarthur, = 1: BEHAVE fire_crwn_hgt = 15., ! real , height of canopy crown (m) fire_ext_grnd = 50., ! real , extinction coeff ground fire fire_ext_crwn = 50., ! real , extinction coeff crown fire fire_fuel_read = -1, ! integer, 0= use fire_fuel_cat, 1= by altitude 2= read from file fire_fuel_cat = 3, ! integer, if specified which fuel category? ! ! SFIRE ! ! ignition fire_num_ignitions = 3, ! integer, only the first fire_num_ignition used, up to 5 allowed fire_ignition_start_long1=-107.293664, ! start points of ignition lines, longitude fire_ignition_start_lat1 = 39.698696, ! start points of ignition lines,latitude fire_ignition_end_long1 = -107.293664, ! end points of ignition lines fire_ignition_end_lat1 = 39.710990, ! end points of ignition lines fire_ignition_radius1 = 18, ! all within this radius (m) will ignite, > fire mesh step fire_ignition_time1 = 2, ! sec for ignition from the start fire_ignition_start_long2=-107.287954, ! start points of ignition lines, fire_ignition_start_lat2 = 39.698696, ! start points of ignition lines, fire_ignition_end_long2 = -107.287954,! end points of ignition lines, fire_ignition_end_lat2 = 39.71099, ! end points of ignition lines, fire_ignition_radius2 = 18, ! all within this radius (m) will ignite, > fire mesh step fire_ignition_time2 = 3, ! sec for ignition from the start! end ignition for sfire fire_ignition_start_long3=-107.289096, ! start points of ignition lines, fire_ignition_start_lat3 = 39.706599, ! start points of ignition lines, fire_ignition_end_long3 = 0, ! end points of ignition lines, 0 for same as start fire_ignition_end_lat3 = 0, ! end points of ignition lines, 0 for same as start fire_ignition_radius3 = 50, ! all within this radius (m) will ignite, > fire mesh step fire_ignition_time3 = 4, ! sec for ignition from the start! end ignition for sfire ! ! verbosity fire_print_msg = 0, ! 1 to print fire debugging/progress messages (compile with DEBUG OUT in the sf sources) fire_print_file = 0, ! 1 to write text output files for matlab ! ! method selections for experiments, *do not change* fire_boundary_guard = -1, ! integer, number of cells to stop when fire close to the domain boundary, -1 turn off fire_fuel_left_method=1, ! 1=simple algebraic, 2=exact quadrature and least squares fire_fuel_left_irl=2, ! refinement to integrate fuel_left, must be even fire_fuel_left_jrl=2, ! refinement to integrate fuel_left, must be even fire_atm_feedback=1., ! real, multiplier for heat fluxes, 1.=normal, 0.=turn off two-way coupling fire_grows_only=1, ! if >0 level set function cannot increase = fire can only grow fire_viscosity=0.4, ! artificial viscosity in level set method (max 1, needed with fire_upwinding=0) fire_upwinding=3, ! 0=none, 1=standard, 2=godunov, 3=eno, 4=sethian fire_lfn_ext_up=1.0, ! 0.=extend level set function at boundary by reflection, 1.=always up fire_test_steps=0, ! >0 = on first call, do specified number of steps and terminate (testing only) fire_topo_from_atm=1, ! 0 = expect fire mesh topo set correctly on entry, 1 = populate by interpolating from atmosphere / &bdy_control spec_bdy_width = 5, spec_zone = 1, relax_zone = 4, specified = .true., periodic_x = .false., symmetric_xs = .false., symmetric_xe = .false., open_xs = .false., open_xe = .false., periodic_y = .false., symmetric_ys = .false., symmetric_ye = .false., open_ys = .false., open_ye = .false., nested = .false., / &grib2 / &namelist_quilt nio_tasks_per_group = 0, nio_groups = 1, /