| blob | 4f4d0d84e81da02fa7ec0815caf391917271dbb0 |
1 &time_control
2 run_days = 0,
3 run_hours = 0,
4 run_minutes = 5,
5 run_seconds = 0,
6 start_year = 0001, 0001, 0001,
7 start_month = 01, 01, 01,
8 start_day = 01, 01, 01,
9 start_hour = 00, 00, 00,
10 start_minute = 01, 01, 01,
11 start_second = 00, 00, 00,
12 end_year = 0001, 0001, 0001,
13 end_month = 01, 01, 01,
14 end_day = 01, 01, 01,
15 end_hour = 00, 00, 00,
16 end_minute = 600, 600, 600,
17 end_second = 00, 00, 00,
18 history_interval = 5, 30, 30,
19 frames_per_outfile = 1000, 1000, 1000,
20 restart = .false.,
21 restart_interval = 1
22 io_form_history = 2
23 io_form_restart = 2
24 io_form_input = 2
25 io_form_boundary = 2
26 debug_level = 101
27 /
29 &domains
30 time_step = 0,
31 !time_step = 5,
32 time_step_fract_num = 25,
33 time_step_fract_den = 100,
34 max_dom = 1,
35 s_we = 1, 1, 1,
36 e_we = 42, 43, 43,
37 s_sn = 1, 1, 1,
38 e_sn = 42, 43, 43,
39 s_vert = 1, 1, 1,
40 e_vert = 41, 41, 41,
41 dx = 60, 30, 10,
42 dy = 60, 30, 10,
43 ztop = 1500, 1500, 1500,
44 grid_id = 1, 2, 3,
45 parent_id = 0, 1, 2,
46 i_parent_start = 0, 1, 1,
47 j_parent_start = 0, 1, 1,
48 parent_grid_ratio = 1, 2, 3,
49 parent_time_step_ratio = 1, 2, 3,
50 feedback = 1,
51 smooth_option = 0
52 sr_x = 10, 0, 0
53 sr_y = 10, 0, 0
54 /
56 &physics
57 mp_physics = 0, 0, 0,
58 ra_lw_physics = 0, 0, 0,
59 ra_sw_physics = 0, 0, 0,
60 radt = 30, 30, 30,
61 sf_sfclay_physics = 0, 0, 0,
62 sf_surface_physics = 0, 0, 0,
63 bl_pbl_physics = 0, 0, 0,
64 bldt = 0, 0, 0,
65 cu_physics = 0, 0, 0,
66 cudt = 0, 0, 0,
67 isfflx = 1,
68 ifsnow = 0,
69 icloud = 0,
70 num_soil_layers = 5,
71 mp_zero_out = 0,
72 /
74 &fdda
75 /
77 &dynamics
78 rk_ord = 3,
79 diff_opt = 2,
80 km_opt = 2,
81 damp_opt = 0,
82 zdamp = 5000., 5000., 5000.,
83 dampcoef = 0.2, 0.2, 0.2
84 khdif = 0.05, 0.05, 0.05,
85 kvdif = 0.05, 0.05, 0.05,
86 smdiv = 0.1, 0.1, 0.1,
87 emdiv = 0.01, 0.01, 0.01,
88 epssm = 0.1, 0.1, 0.1
89 mix_full_fields = .true., .true., .true.,
90 non_hydrostatic = .true., .true., .true.,
91 h_mom_adv_order = 5, 5, 5,
92 v_mom_adv_order = 3, 3, 3,
93 h_sca_adv_order = 5, 5, 5,
94 v_sca_adv_order = 3, 3, 3,
95 time_step_sound = 20, 20, 20,
96 moist_adv_opt = 1, 1, 1,
97 scalar_adv_opt = 1, 1, 1,
98 /
100 &bdy_control
101 periodic_x = .false.,.false.,.false.,
102 symmetric_xs = .false.,.false.,.false.,
103 symmetric_xe = .false.,.false.,.false.,
104 open_xs = .true., .false.,.false.,
105 open_xe = .true., .false.,.false.,
106 periodic_y = .false.,.false.,.false.,
107 symmetric_ys = .false.,.false.,.false.,
108 symmetric_ye = .false.,.false.,.false.,
109 open_ys = .true., .false.,.false.,
110 open_ye = .true., .false.,.false.,
111 nested = .false., .true., .true.,
112 /
114 &grib2
115 /
117 &namelist_quilt
118 nio_tasks_per_group = 0,
119 nio_groups = 1,
120 /
122 &fire ! be sure to set sr_x,sr_y in domains-namelist (to set refinement in x,y)
123 ifire = 2, ! integer, = 0: no fire, 2=turn on fire model
124 fire_fuel_read = 0, ! integer, -1: from WPS, 0= use fire_fuel_cat, 1= by altitude
125 fire_fuel_cat = 3, ! integer, if specified which fuel category?
126 ! ignition
127 fire_num_ignitions = 3, ! integer, only the first fire_num_ignition used, up to 5 allowed
128 fire_ignition_start_x1 = 1000, ! start points of ignition lines, in m from lower left corner
129 fire_ignition_start_y1 = 500, ! start points of ignition lines, in m from lower left corner
130 fire_ignition_end_x1 = 1000, ! end points of ignition lines, in m from lower left corner
131 fire_ignition_end_y1 = 1900, ! end points of ignition lines, in m from lower left corner
132 fire_ignition_radius1 = 18, ! all within this radius will ignite, > fire mesh step
133 fire_ignition_start_time1 = 2, ! sec for ignition from the start
134 fire_ignition_end_time1 =502, ! sec for ignition from the start
135 fire_ignition_start_x2 = 1500, ! start points of ignition lines, in m from lower left corner
136 fire_ignition_start_y2 = 500, ! start points of ignition lines, in m from lower left corner
137 fire_ignition_end_x2 = 1500, ! end points of ignition lines, in m from lower left corner
138 fire_ignition_end_y2 = 1900, ! end points of ignition lines, in m from lower left corner
139 fire_ignition_radius2 = 18, ! all within this radius will ignite, > fire mesh step
140 fire_ignition_start_time2 = 3, ! sec for ignition from the start! end ignition for sfire
141 fire_ignition_end_time2 =503, ! sec for ignition from the start! end ignition for sfire
142 fire_ignition_start_x3 = 1400, ! start points of ignition lines, in m from lower left corner
143 fire_ignition_start_y3 = 1400, ! start points of ignition lines, in m from lower left corner
144 fire_ignition_end_x3 = 1400, ! end points of ignition lines, in m from lower left corner
145 fire_ignition_end_y3 = 1400, ! end points of ignition lines, in m from lower left corner
146 fire_ignition_radius3 = 50, ! all within this radius will ignite, > fire mesh step
147 fire_ignition_start_time3 = 4, ! sec for ignition from the start! end ignition for sfire
148 fire_ignition_end_time3 = 4, ! sec for ignition from the start! end ignition for sfire
149 !
150 ! verbosity
151 fire_print_msg = 1, ! 1 print fire debugging messages
152 fire_print_file = 0, ! 1 write files for matlab
153 !
154 ! experiments
155 !
156 fire_const_time = -1., ! (s) if >0, time from start to stop fire evolution and keep heat output constant
157 fire_const_grnhfx = -1, ! (W/s) if both >=0, use this flux (meant to be used when fire_const_time=ignition time)
158 fire_const_grnqfx = -1, ! (W/s) if both >=0, use this flux (meant to be used when fire_const_time=ignition time)
159 fire_test_steps=0, ! >0 = on first call, do specified number of steps and terminate (testing only)
160 fire_mountain_type=0, ! in ideal: 0=none, 1= hill, 2=EW ridge, 3=NS ridge
161 fire_mountain_height=500., ! (m) ideal mountain height
162 fire_mountain_start_x=1000., ! (m) coord of start of the mountain from lower left corder (just like ignition)
163 fire_mountain_start_y=1100., ! (m) coord of start of the mountain from lower left corder (just like ignition)
164 fire_mountain_end_x=1500., ! (m) coord of end of the mountain from lower left corder (just like ignition)
165 fire_mountain_end_y=1400., ! (m) coord of end of the mountain from lower left corder (just like ignition)
166 fire_topo_from_atm=1, ! 0 = fire mesh topo set from fine-res data, 1 = populate by interpolating from atmosphere
167 !delt_perturbation = 3.0, ! Temperature perturbation for creating cold (negative) / warm (positive) bubble [K], 0 turns it off
168 !xrad_perturbation = 10000.0, ! Horizontal radius of the bubble in E-W direction [m]
169 !yrad_perturbation = 10000.0, ! Horizontal radius of the bubble in N-S direction [m]
170 !zrad_perturbation = 1500.0, ! Vertical radius of the bubble [m]
171 !hght_perturbation = 1500.0, ! Perturbation height - height at which the warm/cold bubble will be suspended [m]
172 !
173 ! method switches for developers only, do not change!
174 !
175 fire_boundary_guard = -1, ! integer, number of cells to stop when fire close to the domain boundary, -1 turn off
176 fire_fuel_left_irl=2, ! refinement to integrate fuel_left, must be even
177 fire_fuel_left_jrl=2, ! refinement to integrate fuel_left, must be even
178 fire_atm_feedback=1.0, ! real, multiplier for heat fluxes, 1.=normal, 0.=turn off two-way coupling
179 fire_back_weight=0.5, ! RK timestepping coefficient, 0=forward, 0.5=Heun
180 fire_grows_only=1, ! if >0 level set function cannot increase = fire can only grow
181 fire_viscosity=0.4, ! artificial viscosity in level set method (max 1, needed with fire_upwinding=0)
182 fire_upwinding=3, ! 0=none, 1=standard, 2=godunov, 3=eno, 4=sethian
183 fire_fuel_left_method=1, ! for now, use 1 only
184 fire_lfn_ext_up=1.0, ! 0.=extend level set function at boundary by reflection, 1.=always up
185 fire_advection=0, ! 0 = cawfe, 1 = use abs speed/slope in spread rate, then project on normal to fireline
186 /