I'm a new user of wrf-chem and I would like to do some simulation about cloud-aerosol interaction.
I'm using wrf & wps version 3.9.
The Era5 model level data was used as initial and boudary condition.
The FINN data was used for fire-emis.
The EDGAR-HTAP data was used as anthro-emis.
When I was running wrf.exe, the program justed stucked and i could not find any error information in the rsl*.
Hope for your generous help. Thanks a lot!
nameslist:
-----------------------------------------------
rsl.out.0000(not complete):
dep_init: initializing for 1 domains
dep_init: initializing domain 01
Timing for Writing wrfout_d01_2013-06-03_00:00:00 for domain 1: 0.80454 elapsed seconds
mediation_integrate: med_read_wrf_chem_emissions: Open file wrfchemi_00z_d01
HOURLY EMISSIONS UPDATE TIME 0.0 0.0
mediation_integrate: med_read_wrf_chem_emissions: Read emissions for time 2013-06-03_00:00:00
**WARNING** Time in input file not being checked **WARNING**
**WARNING** Time in input file not being checked **WARNING**
d01 2013-06-03_00:00:00 Input data processed for aux input 6 for domain 1
**WARNING** Time in input file not being checked **WARNING**
Timing for processing lateral boundary for domain 1: 0.15981 elapsed seconds
Tile Strategy is not specified. Assuming 1D-Y
WRF TILE 1 IS 1 IE 61 JS 1 JE 61
WRF NUMBER OF TILES = 1
1 120
-----------------------------------------------
Let me know if you need more information.
Best regards.
Jiaxu.
View attachment 3View attachment 2View attachment 1
I'm using wrf & wps version 3.9.
The Era5 model level data was used as initial and boudary condition.
The FINN data was used for fire-emis.
The EDGAR-HTAP data was used as anthro-emis.
When I was running wrf.exe, the program justed stucked and i could not find any error information in the rsl*.
Hope for your generous help. Thanks a lot!
nameslist:
Code:
&time_control
run_days = 0,
run_hours = 24,
run_minutes = 0,
run_seconds = 0,
start_year = 2013
start_month = 06
start_day = 03
start_hour = 00
end_year = 2013
end_month = 06
end_day = 04
end_hour = 00
interval_seconds = 10800
input_from_file = .true.,
history_interval = 30,
frames_per_outfile = 1000,
restart = .false.,
restart_interval = 7200,
io_form_history = 2
io_form_restart = 2
io_form_input = 2
io_form_boundary = 2
io_form_auxinput2 = 2
auxinput5_inname = 'wrfchemi_<hr>z_d<domain>'
io_form_auxinput5 = 2
frames_per_auxinput5 = 12,
auxinput6_inname = 'wrfbiochemi_d<domain>',
auxinput6_interval_m = 1440,
io_form_auxinput6 = 2
auxinput7_inname = 'wrffirechemi_d<domain>_<date>'
io_form_auxinput7 = 2
auxinput7_interval_m = 60,
/
&domains
time_step = 15,
time_step_fract_num = 0,
time_step_fract_den = 1,
max_dom = 1,
e_we = 61,
e_sn = 61,
e_vert = 40,
p_top_requested = 5000,
num_metgrid_levels = 138,
num_metgrid_soil_levels = 4,
dx = 9000,
dy = 9000,
grid_id = 1,
parent_id = 0,
i_parent_start = 1,
j_parent_start = 1,
parent_grid_ratio = 1,
parent_time_step_ratio = 1,
feedback = 1,
smooth_option = 0
/
&physics
mp_physics = 10,
progn = 1,
cu_physics = 3,
cu_diag = 1,
ra_lw_physics = 4,
ra_sw_physics = 4,
bl_pbl_physics = 2,
sf_sfclay_physics = 2,
sf_surface_physics = 2,
radt = 3, 1,
bldt = 0,
cudt = 0,
icloud = 1,
num_land_cat = 33,
num_urban_layers = 5400,
num_soil_layers = 4,
sf_urban_physics = 0,
surface_input_source = 3,
/
&chem
kemit = 8,
chem_opt = 202,
bioemdt = 30,
io_style_emissions = 1,
emiss_inpt_opt = 102,
emiss_opt = 10,
chem_in_opt = 0,
phot_opt = 0,
gas_drydep_opt = 1,
aer_drydep_opt = 1,
bio_emiss_opt = 0,
ne_area = 400,
dust_opt = 0,
dmsemis_opt = 0,
seas_opt = 0,
gas_bc_opt = 1, 1,
gas_ic_opt = 1, 1,
aer_bc_opt = 1, 1,
aer_ic_opt = 1, 1,
gaschem_onoff = 1, 1,
aerchem_onoff = 1, 1,
wetscav_onoff = 1, 0,
cldchem_onoff = 1, 0,
vertmix_onoff = 1, 1,
chem_conv_tr = 1, 1,
biomass_burn_opt = 3, 0,
scale_fire_emiss = .true.
plumerisefire_frq = 30, 30,
aer_ra_feedback = 1, 0,
have_bcs_chem = .false., .false.,
/
&fdda
/
&dynamics
hybrid_opt = 0,
w_damping = 0,
diff_opt = 1,
km_opt = 4,
diff_6th_opt = 0,
diff_6th_factor = 0.12,
base_temp = 290.
damp_opt = 3,
zdamp = 5000.,
dampcoef = 0.2,
khdif = 0,
kvdif = 0,
non_hydrostatic = .true.,
moist_adv_opt = 1,
scalar_adv_opt = 1,
gwd_opt = 1,
/
&bdy_control
spec_bdy_width = 5,
specified = .true.
/
&grib2
/
&namelist_quilt
nio_tasks_per_group = 0,
nio_groups = 1,
/
-----------------------------------------------
rsl.out.0000(not complete):
dep_init: initializing for 1 domains
dep_init: initializing domain 01
Timing for Writing wrfout_d01_2013-06-03_00:00:00 for domain 1: 0.80454 elapsed seconds
mediation_integrate: med_read_wrf_chem_emissions: Open file wrfchemi_00z_d01
HOURLY EMISSIONS UPDATE TIME 0.0 0.0
mediation_integrate: med_read_wrf_chem_emissions: Read emissions for time 2013-06-03_00:00:00
**WARNING** Time in input file not being checked **WARNING**
**WARNING** Time in input file not being checked **WARNING**
d01 2013-06-03_00:00:00 Input data processed for aux input 6 for domain 1
**WARNING** Time in input file not being checked **WARNING**
Timing for processing lateral boundary for domain 1: 0.15981 elapsed seconds
Tile Strategy is not specified. Assuming 1D-Y
WRF TILE 1 IS 1 IE 61 JS 1 JE 61
WRF NUMBER OF TILES = 1
1 120
-----------------------------------------------
Let me know if you need more information.
Best regards.
Jiaxu.
View attachment 3View attachment 2View attachment 1