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本人WRF-CHEM新手,自己看了手册打算做一点云和气溶胶相互作用的模拟。
WRF初始场用的ERA5 MODEL-LEVEL的资料。
人为源暂时用的EDGAR-HTAP的资料,用anthro-emiss转换的。
FIRE_EMIS用的FINN资料。
运行以后卡住不动,rsl文件里面没有错误信息,请大家看看问题出在哪里,感激不尽!
我的namelist如下:
&time_control
run_days = 0,
run_hours = 24,
run_minutes = 0,
run_seconds = 0,
start_year = 2013, 2013, 2013,
start_month = 06, 06, 06,
start_day = 03, 03, 03,
start_hour = 00, 00, 00,
end_year = 2013, 2013, 2013,
end_month = 06, 06, 06,
end_day = 04, 05, 05,
end_hour = 00, 00, 00,
interval_seconds = 10800
input_from_file = .true.,.true.,.true.,
history_interval = 30, 30, 30,
frames_per_outfile = 1000, 1000, 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, 295, 421,
e_sn = 61, 283, 301,
e_vert = 40, 40, 40,
p_top_requested = 5000,
num_metgrid_levels = 138,
num_metgrid_soil_levels = 4,
dx = 9000, 3000, 1000,
dy = 9000, 3000, 1000,
grid_id = 1, 2, 3,
parent_id = 0, 1, 2,
i_parent_start = 1, 54, 112,
j_parent_start = 1, 65, 121,
parent_grid_ratio = 1, 3, 3,
parent_time_step_ratio = 1, 3, 3,
feedback = 1,
smooth_option = 0
/
&physics
mp_physics = 10, 10, 10,
progn = 1,
cu_physics = 3, 0, 0,
cu_diag = 1, 1, 1,
ra_lw_physics = 4, 1, 1,
ra_sw_physics = 4, 1, 1,
bl_pbl_physics = 2, 2, 2,
sf_sfclay_physics = 2, 2, 2,
sf_surface_physics = 2, 2, 2,
radt = 3, 1,
bldt = 0, 0, 0,
cudt = 0, 0, 0,
icloud = 1,
num_land_cat = 33,
num_urban_layers = 5400,
num_soil_layers = 4,
sf_urban_physics = 0, 0, 0,
surface_input_source = 3,
/
&chem
kemit = 8,
chem_opt = 202, 2,
bioemdt = 30, 30,
io_style_emissions = 1,
emiss_inpt_opt = 102, 1,
emiss_opt = 10, 3,
chem_in_opt = 0, 0,
phot_opt = 0, 1,
gas_drydep_opt = 1, 1,
aer_drydep_opt = 1, 1,
bio_emiss_opt = 0, 1,
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, 1, 1,
km_opt = 4, 4, 4,
diff_6th_opt = 0, 0, 0,
diff_6th_factor = 0.12, 0.12, 0.12,
base_temp = 290.
damp_opt = 3,
zdamp = 5000., 5000., 5000.,
dampcoef = 0.2, 0.2, 0.2
khdif = 0, 0, 0,
kvdif = 0, 0, 0,
non_hydrostatic = .true., .true., .true.,
moist_adv_opt = 1, 1, 1,
scalar_adv_opt = 1, 1, 1,
gwd_opt = 1,
/
&bdy_control
spec_bdy_width = 5,
specified = .true.
/
&grib2
/
&namelist_quilt
nio_tasks_per_group = 0,
nio_groups = 1,
/
RSL输出:
taskid: 0 hostname: yangjiefan-PC
module_io_quilt_old.F 2931 F
Quilting with 1 groups of 0 I/O tasks.
Ntasks in X 1 , ntasks in Y 1
--- WARNING: traj_opt is zero, but num_traj is not zero; setting num_traj to zero.
--- NOTE: sst_update is 0, setting io_form_auxinput4 = 0 and auxinput4_interval = 0 for all domains
--- NOTE: grid_fdda is 0 for domain 1, setting gfdda interval and ending time to 0 for that domain.
--- NOTE: both grid_sfdda and pxlsm_soil_nudge are 0 for domain 1, setting sgfdda interval and ending time to 0 for that domain.
--- NOTE: obs_nudge_opt is 0 for domain 1, setting obs nudging interval and ending time to 0 for that domain.
--- NOTE: bl_pbl_physics /= 4, implies mfshconv must be 0, resetting
Need MYNN PBL for icloud_bl = 1, resetting to 0
*************************************
No physics suite selected.
Physics options will be used directly from the namelist.
*************************************
--- NOTE: RRTMG radiation is in use, setting: levsiz=59, alevsiz=12, no_src_types=6
--- NOTE: num_soil_layers has been set to 4
WRF V3.9.1.1 MODEL
*************************************
Parent domain
ids,ide,jds,jde 1 61 1 61
ims,ime,jms,jme -4 66 -4 66
ips,ipe,jps,jpe 1 61 1 61
*************************************
DYNAMICS OPTION: Eulerian Mass Coordinate
alloc_space_field: domain 1 , 1076617244 bytes allocated
med_initialdata_input: calling input_input
Timing for processing wrfinput file (stream 0) for domain 1: 0.21487 elapsed seconds
Max map factor in domain 1 = 1.01. Scale the dt in the model accordingly.
INPUT LandUse = "USGS"
LANDUSE TYPE = "USGS" FOUND 33 CATEGORIES 2 SEASONS WATER CATEGORY = 16 SNOW CATEGORY = 24
INITIALIZE THREE Noah LSM RELATED TABLES
LANDUSE TYPE = USGS FOUND 27 CATEGORIES
INPUT SOIL TEXTURE CLASSIFICATION = STAS
SOIL TEXTURE CLASSIFICATION = STAS FOUND 19 CATEGORIES
*********************************************************************
* PROGRAM:WRF-Chem V3.9.1.1 MODEL
* *
* PLEASE REPORT ANY BUGS TO WRF-Chem HELP at *
* *
* wrfchemhelp.gsd@noaa.gov *
* *
*********************************************************************
chem_init: calling mozcart_lbc_init for domain 1
lbc_init: initializing 1 domains
chem_init: calling wetscav_mozcart_init for domain 1
output from subr init_data_mosaic_ptr
nphase_aer = 2
iphase = 1
ntype_aer = 1
ncomp_aer = 25
itype = 1
nsize_aer = 4
lptr_so4_aer 142 170 198 226
lptr_no3_aer 143 171 199 227
lptr_cl_aer 159 187 215 243
lptr_msa_aer 1 1 1 1
lptr_co3_aer 160 188 216 244
lptr_nh4_aer 161 189 217 245
lptr_na_aer 162 190 218 246
lptr_ca_aer 163 191 219 247
lptr_oin_aer 164 192 220 248
lptr_oc_aer 165 193 221 249
lptr_bc_aer 166 194 222 250
hyswptr_aer 167 195 223 251
waterptr_aer 168 196 224 252
numptr_aer 169 197 225 253
lptr_pcg1_b_c_aer 1 1 1 1
lptr_pcg2_b_c_aer 1 1 1 1
lptr_pcg3_b_c_aer 1 1 1 1
lptr_pcg4_b_c_aer 1 1 1 1
lptr_pcg5_b_c_aer 1 1 1 1
lptr_pcg6_b_c_aer 1 1 1 1
lptr_pcg7_b_c_aer 1 1 1 1
lptr_pcg8_b_c_aer 1 1 1 1
lptr_pcg9_b_c_aer 1 1 1 1
lptr_pcg1_b_o_aer 1 1 1 1
lptr_pcg2_b_o_aer 1 1 1 1
lptr_pcg3_b_o_aer 1 1 1 1
lptr_pcg4_b_o_aer 1 1 1 1
lptr_pcg5_b_o_aer 1 1 1 1
lptr_pcg6_b_o_aer 1 1 1 1
lptr_pcg7_b_o_aer 1 1 1 1
lptr_pcg8_b_o_aer 1 1 1 1
lptr_pcg9_b_o_aer 1 1 1 1
lptr_opcg1_b_c_aer 1 1 1 1
lptr_opcg2_b_c_aer 1 1 1 1
lptr_opcg3_b_c_aer 1 1 1 1
lptr_opcg4_b_c_aer 1 1 1 1
lptr_opcg5_b_c_aer 1 1 1 1
lptr_opcg6_b_c_aer 1 1 1 1
lptr_opcg7_b_c_aer 1 1 1 1
lptr_opcg8_b_c_aer 1 1 1 1
lptr_opcg1_b_o_aer 1 1 1 1
lptr_opcg2_b_o_aer 1 1 1 1
lptr_opcg3_b_o_aer 1 1 1 1
lptr_opcg4_b_o_aer 1 1 1 1
lptr_opcg5_b_o_aer 1 1 1 1
lptr_opcg6_b_o_aer 1 1 1 1
lptr_opcg7_b_o_aer 1 1 1 1
lptr_opcg8_b_o_aer 1 1 1 1
lptr_pcg1_f_c_aer 1 1 1 1
lptr_pcg2_f_c_aer 1 1 1 1
lptr_pcg3_f_c_aer 1 1 1 1
lptr_pcg4_f_c_aer 1 1 1 1
lptr_pcg5_f_c_aer 1 1 1 1
lptr_pcg6_f_c_aer 1 1 1 1
lptr_pcg7_f_c_aer 1 1 1 1
lptr_pcg8_f_c_aer 1 1 1 1
lptr_pcg9_f_c_aer 1 1 1 1
lptr_pcg1_f_o_aer 1 1 1 1
lptr_pcg2_f_o_aer 1 1 1 1
lptr_pcg3_f_o_aer 1 1 1 1
lptr_pcg4_f_o_aer 1 1 1 1
lptr_pcg5_f_o_aer 1 1 1 1
lptr_pcg6_f_o_aer 1 1 1 1
lptr_pcg7_f_o_aer 1 1 1 1
lptr_pcg8_f_o_aer 1 1 1 1
lptr_pcg9_f_o_aer 1 1 1 1
lptr_opcg1_f_c_aer 1 1 1 1
lptr_opcg2_f_c_aer 1 1 1 1
lptr_opcg3_f_c_aer 1 1 1 1
lptr_opcg4_f_c_aer 1 1 1 1
lptr_opcg5_f_c_aer 1 1 1 1
lptr_opcg6_f_c_aer 1 1 1 1
lptr_opcg7_f_c_aer 1 1 1 1
lptr_opcg8_f_c_aer 1 1 1 1
lptr_opcg1_f_o_aer 1 1 1 1
lptr_opcg2_f_o_aer 1 1 1 1
lptr_opcg3_f_o_aer 1 1 1 1
lptr_opcg4_f_o_aer 1 1 1 1
lptr_opcg5_f_o_aer 1 1 1 1
lptr_opcg6_f_o_aer 1 1 1 1
lptr_opcg7_f_o_aer 1 1 1 1
lptr_opcg8_f_o_aer 1 1 1 1
ant1_c_aer 1 1 1 1
ant2_c_aer 1 1 1 1
ant3_c_aer 1 1 1 1
ant4_c_aer 1 1 1 1
ant1_o_aer 1 1 1 1
ant2_o_aer 1 1 1 1
ant3_o_aer 1 1 1 1
ant4_o_aer 1 1 1 1
biog1_c_aer 1 1 1 1
biog2_c_aer 1 1 1 1
biog3_c_aer 1 1 1 1
biog4_c_aer 1 1 1 1
biog1_o_aer 1 1 1 1
biog2_o_aer 1 1 1 1
biog3_o_aer 1 1 1 1
biog4_o_aer 1 1 1 1
smpa_aer 1 1 1 1
smpbb_aer 1 1 1 1
glysoa_r1_aer 154 182 210 238
glysoa_r2_aer 155 183 211 239
glysoa_sfc_aer 156 184 212 240
glysoa_nh4_aer 157 185 213 241
glysoa_oh_aer 158 186 214 242
asoaX_aer 144 172 200 228
asoa1_aer 145 173 201 229
asoa2_aer 146 174 202 230
asoa3_aer 147 175 203 231
asoa4_aer 148 176 204 232
bsoaX_aer 149 177 205 233
bsoa1_aer 150 178 206 234
bsoa2_aer 151 179 207 235
bsoa3_aer 152 180 208 236
bsoa4_aer 153 181 209 237
sulfate 142 170 198 226 1
nitrate 143 171 199 227 2
chloride 159 187 215 243 3
carbonate 160 188 216 244 4
ammonium 161 189 217 245 5
sodium 162 190 218 246 6
calcium 163 191 219 247 7
otherinorg 164 192 220 248 8
organic-c 165 193 221 249 9
black-c 166 194 222 250 10
glysoa_r1 154 182 210 238 11
glysoa_r2 155 183 211 239 12
glysoa_sfc 156 184 212 240 13
glysoa_nh4 157 185 213 241 14
glysoa_oh 158 186 214 242 15
asoaX 144 172 200 228 16
asoa1 145 173 201 229 17
asoa2 146 174 202 230 18
asoa3 147 175 203 231 19
asoa4 148 176 204 232 20
bsoaX 149 177 205 233 21
bsoa1 150 178 206 234 22
bsoa2 151 179 207 235 23
bsoa3 152 180 208 236 24
bsoa4 153 181 209 237 25
iphase = 2
ntype_aer = 1
ncomp_aer = 25
itype = 1
nsize_aer = 4
lptr_so4_aer 254 280 306 332
lptr_no3_aer 255 281 307 333
lptr_cl_aer 271 297 323 349
lptr_msa_aer 1 1 1 1
lptr_co3_aer 272 298 324 350
lptr_nh4_aer 273 299 325 351
lptr_na_aer 274 300 326 352
lptr_ca_aer 275 301 327 353
lptr_oin_aer 276 302 328 354
lptr_oc_aer 277 303 329 355
lptr_bc_aer 278 304 330 356
hyswptr_aer 167 195 223 251
waterptr_aer 168 196 224 252
numptr_aer 279 305 331 357
lptr_pcg1_b_c_aer 1 1 1 1
lptr_pcg2_b_c_aer 1 1 1 1
lptr_pcg3_b_c_aer 1 1 1 1
lptr_pcg4_b_c_aer 1 1 1 1
lptr_pcg5_b_c_aer 1 1 1 1
lptr_pcg6_b_c_aer 1 1 1 1
lptr_pcg7_b_c_aer 1 1 1 1
lptr_pcg8_b_c_aer 1 1 1 1
lptr_pcg9_b_c_aer 1 1 1 1
lptr_pcg1_b_o_aer 1 1 1 1
lptr_pcg2_b_o_aer 1 1 1 1
lptr_pcg3_b_o_aer 1 1 1 1
lptr_pcg4_b_o_aer 1 1 1 1
lptr_pcg5_b_o_aer 1 1 1 1
lptr_pcg6_b_o_aer 1 1 1 1
lptr_pcg7_b_o_aer 1 1 1 1
lptr_pcg8_b_o_aer 1 1 1 1
lptr_pcg9_b_o_aer 1 1 1 1
lptr_opcg1_b_c_aer 1 1 1 1
lptr_opcg2_b_c_aer 1 1 1 1
lptr_opcg3_b_c_aer 1 1 1 1
lptr_opcg4_b_c_aer 1 1 1 1
lptr_opcg5_b_c_aer 1 1 1 1
lptr_opcg6_b_c_aer 1 1 1 1
lptr_opcg7_b_c_aer 1 1 1 1
lptr_opcg8_b_c_aer 1 1 1 1
lptr_opcg1_b_o_aer 1 1 1 1
lptr_opcg2_b_o_aer 1 1 1 1
lptr_opcg3_b_o_aer 1 1 1 1
lptr_opcg4_b_o_aer 1 1 1 1
lptr_opcg5_b_o_aer 1 1 1 1
lptr_opcg6_b_o_aer 1 1 1 1
lptr_opcg7_b_o_aer 1 1 1 1
lptr_opcg8_b_o_aer 1 1 1 1
lptr_pcg1_f_c_aer 1 1 1 1
lptr_pcg2_f_c_aer 1 1 1 1
lptr_pcg3_f_c_aer 1 1 1 1
lptr_pcg4_f_c_aer 1 1 1 1
lptr_pcg5_f_c_aer 1 1 1 1
lptr_pcg6_f_c_aer 1 1 1 1
lptr_pcg7_f_c_aer 1 1 1 1
lptr_pcg8_f_c_aer 1 1 1 1
lptr_pcg9_f_c_aer 1 1 1 1
lptr_pcg1_f_o_aer 1 1 1 1
lptr_pcg2_f_o_aer 1 1 1 1
lptr_pcg3_f_o_aer 1 1 1 1
lptr_pcg4_f_o_aer 1 1 1 1
lptr_pcg5_f_o_aer 1 1 1 1
lptr_pcg6_f_o_aer 1 1 1 1
lptr_pcg7_f_o_aer 1 1 1 1
lptr_pcg8_f_o_aer 1 1 1 1
lptr_pcg9_f_o_aer 1 1 1 1
lptr_opcg1_f_c_aer 1 1 1 1
lptr_opcg2_f_c_aer 1 1 1 1
lptr_opcg3_f_c_aer 1 1 1 1
lptr_opcg4_f_c_aer 1 1 1 1
lptr_opcg5_f_c_aer 1 1 1 1
lptr_opcg6_f_c_aer 1 1 1 1
lptr_opcg7_f_c_aer 1 1 1 1
lptr_opcg8_f_c_aer 1 1 1 1
lptr_opcg1_f_o_aer 1 1 1 1
lptr_opcg2_f_o_aer 1 1 1 1
lptr_opcg3_f_o_aer 1 1 1 1
lptr_opcg4_f_o_aer 1 1 1 1
lptr_opcg5_f_o_aer 1 1 1 1
lptr_opcg6_f_o_aer 1 1 1 1
lptr_opcg7_f_o_aer 1 1 1 1
lptr_opcg8_f_o_aer 1 1 1 1
ant1_c_aer 1 1 1 1
ant2_c_aer 1 1 1 1
ant3_c_aer 1 1 1 1
ant4_c_aer 1 1 1 1
ant1_o_aer 1 1 1 1
ant2_o_aer 1 1 1 1
ant3_o_aer 1 1 1 1
ant4_o_aer 1 1 1 1
biog1_c_aer 1 1 1 1
biog2_c_aer 1 1 1 1
biog3_c_aer 1 1 1 1
biog4_c_aer 1 1 1 1
biog1_o_aer 1 1 1 1
biog2_o_aer 1 1 1 1
biog3_o_aer 1 1 1 1
biog4_o_aer 1 1 1 1
smpa_aer 1 1 1 1
smpbb_aer 1 1 1 1
glysoa_r1_aer 266 292 318 344
glysoa_r2_aer 267 293 319 345
glysoa_sfc_aer 268 294 320 346
glysoa_nh4_aer 269 295 321 347
glysoa_oh_aer 270 296 322 348
asoaX_aer 256 282 308 334
asoa1_aer 257 283 309 335
asoa2_aer 258 284 310 336
asoa3_aer 259 285 311 337
asoa4_aer 260 286 312 338
bsoaX_aer 261 287 313 339
bsoa1_aer 262 288 314 340
bsoa2_aer 263 289 315 341
bsoa3_aer 264 290 316 342
bsoa4_aer 265 291 317 343
sulfate 254 280 306 332 1
nitrate 255 281 307 333 2
chloride 271 297 323 349 3
carbonate 272 298 324 350 4
ammonium 273 299 325 351 5
sodium 274 300 326 352 6
calcium 275 301 327 353 7
otherinorg 276 302 328 354 8
organic-c 277 303 329 355 9
black-c 278 304 330 356 10
glysoa_r1 266 292 318 344 11
glysoa_r2 267 293 319 345 12
glysoa_sfc 268 294 320 346 13
glysoa_nh4 269 295 321 347 14
glysoa_oh 270 296 322 348 15
asoaX 256 282 308 334 16
asoa1 257 283 309 335 17
asoa2 258 284 310 336 18
asoa3 259 285 311 337 19
asoa4 260 286 312 338 20
bsoaX 261 287 313 339 21
bsoa1 262 288 314 340 22
bsoa2 263 289 315 341 23
bsoa3 264 290 316 342 24
bsoa4 265 291 317 343 25
ltot, ltot2, lmaxd, l2maxd = 357 359 1200 1200
*** subr move_sections - method = 20
*** subr move_sections - idiag = 0
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
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namelist.input
6 KB, 下载次数: 2, 下载积分: 金钱 -5
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rsl.error.0000
14.53 KB, 下载次数: 4, 下载积分: 金钱 -5
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bioemiss.inp
145 Bytes, 下载次数: 1, 下载积分: 金钱 -5
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fire_emis.inp
964 Bytes, 下载次数: 3, 下载积分: 金钱 -5
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MOZART-MOSAIC.inp
1.74 KB, 下载次数: 1, 下载积分: 金钱 -5
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