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When I study ACI and set progn = 0, my WRF task stops.

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cxyiyh

Member
Hi, friends

When I study ACI and set progn = 0, my WRF task stops.
but In my opinion if studing ACI, it must have aqueous phase chemistry.Because of the increased cloud water content, the aqueous phase chemistry is accelerated, which is also part of the ACI.
I just want to know how to solve it.
Here is my namelist.input
Code:
&physics
 mp_physics                          = 10,    10,     10,  
 progn                               = 0,     0,   0,
 ra_lw_physics                       = 4,     4,   4,
 ra_sw_physics                       = 4,     4,   4,
 radt                                = 30,    30,   30,
 sf_sfclay_physics                   = 1,     1,    1,
 sf_surface_physics                  = 3,     3,     3,
 bl_pbl_physics                      = 1,     1,     1,
 bldt                                = 0,     0,     0,
 cu_physics                          = 3,     0,     0,
 cu_diag                             = 1,     0,     0,
 cudt                                = 5,     5,     5,
 ishallow                            = 0,
 isfflx                              = 1,
 ifsnow                              = 1,
 icloud                              = 1,
 surface_input_source                = 1,
 num_soil_layers                     = 4,
 sf_urban_physics                    = 0,     0,     0,
 mp_zero_out                         = 2,
 mp_zero_out_thresh                  = 1.e-12
 maxiens                             = 1,
 maxens                              = 3,
 maxens2                             = 3,
 maxens3                             = 16,
 ensdim                              = 144,
 cu_rad_feedback                     = .true.,
 num_land_cat			     = 21,
 /

 &fdda
 /

 &dynamics
 rk_ord                              = 3,
 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                            = 0,
 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                       = 2,      2,     2,
 scalar_adv_opt                      = 2,      2,    2,
 chem_adv_opt                        = 2,      2,     2,
 tke_adv_opt                         = 2,      2,      2,
 time_step_sound                     = 4,      4,      4,
 h_mom_adv_order                     = 5,      5,      5,
 v_mom_adv_order                     = 3,      3,      3,
 h_sca_adv_order                     = 5,      5,     5,
 v_sca_adv_order                     = 3,      3,     3,
 /

 &bdy_control
 spec_bdy_width                      = 5,
 spec_zone                           = 1,
 relax_zone                          = 4,
 specified                           = .true., .false., .false.,
 nested                              = .false.,.true., .true.,
 /

 &grib2
 /

&chem
 kemit                               = 1,
 chem_conv_tr                        = 1,    0,  0,
 chem_opt                            = 34,	34,	34,
 bioemdt                             = 30,	30,	30,
 photdt                              = 30,	30,	30,
 chemdt                              = 1.5,	1.5,	1.5,
 io_style_emissions                  = 2,
 emiss_opt                           = 5,       5,	5,
 emiss_inpt_opt                      = 1,       1,      1,
 emiss_opt_vol                       = 0,       0,	0,
 emiss_ash_hgt                       = 20000.,
 chem_in_opt                         = 0,          0,	0,
 phot_opt                            = 1,          1,	1,	
 gas_drydep_opt                      = 1,          1,	1,
 aer_drydep_opt                      = 301,        301,	301,
 bio_emiss_opt                       = 0,          0,	0,
 ne_area                             = 0,
 dust_opt                            = 3,
 dmsemis_opt                         = 1,  
 seas_opt                            = 1,
 depo_fact                           = 0.25,
 gas_bc_opt                          = 1,          1,	1,
 gas_ic_opt                          = 1,          1,	1,
 aer_bc_opt                          = 1,          1,	1,
 aer_ic_opt                          = 1,          1,	1,	
 gaschem_onoff                       = 1,          1,	1,
 aerchem_onoff                       = 1,          1,	1,
 wetscav_onoff                       = 1,          1,	1,
 cldchem_onoff                       = 0,          0,	0,
 vertmix_onoff                       = 1,          1,	1,
 conv_tr_wetscav                     = 1,          0,	0,
 conv_tr_aqchem                      = 0,          0,	0,
 biomass_burn_opt                    = 1,          1,	1,
 plumerisefire_frq                   = 30,         30,	30,
 have_bcs_chem                       = .false., .false., .false.,
 aer_ra_feedback                     = 1,          1,	1,
 aer_op_opt                          = 1,          1,	1,
 opt_pars_out                        = 1,
 diagnostic_chem                     = 0,          0,	0,
/

 &namelist_quilt
 nio_tasks_per_group = 0,
 nio_groups = 1,
 /



Here is my log of runing WRF-chem model.
Code:
taskid: 0 hostname: n112
 module_io_quilt_old.F        2931 F
Quilting with   1 groups of   0 I/O tasks.
 Ntasks in X            5 , ntasks in Y            8
  Domain # 1: dx = 27000.000 m
  Domain # 2: dx =  9000.000 m
  Domain # 3: dx =  3000.000 m
WRF V4.2 MODEL
 *************************************
 Parent domain
 ids,ide,jds,jde            1         230           1         180
 ims,ime,jms,jme           -4          53          -4          30
 ips,ipe,jps,jpe            1          46           1          23
 *************************************
DYNAMICS OPTION: Eulerian Mass Coordinate
   alloc_space_field: domain            1 ,              370176348  bytes allocated
  med_initialdata_input: calling input_input
   Input data is acceptable to use: wrfinput_d01
 CURRENT DATE          = 2014-04-22_00:00:00
 SIMULATION START DATE = 2014-04-22_00:00:00
Timing for processing wrfinput file (stream 0) for domain        1:    5.64336 elapsed seconds
Max map factor in domain 1 =  1.14. Scale the dt in the model accordingly.
 D01: Time step                              =    90.00000      (s)
 D01: Grid Distance                          =    27.00000      (km)
 D01: Grid Distance Ratio dt/dx              =    3.333333      (s/km)
 D01: Ratio Including Maximum Map Factor     =    3.792768      (s/km)
 D01: NML defined reasonable_time_step_ratio =    6.000000
INPUT LandUse = "MODIFIED_IGBP_MODIS_NOAH"
 LANDUSE TYPE = "MODIFIED_IGBP_MODIS_NOAH" FOUND          33  CATEGORIES           2  SEASONS WATER CATEGORY =           17  SNOW CATEGORY =           15
INITIALIZE THREE LSM RELATED TABLES
 INPUT VEGPARM FOR MODI-RUC
 VEGPARM FOR USGS     FOUND          27  CATEGORIES
 Skipping USGS     table
 VEGPARM FOR MODIFIED FOUND          20  CATEGORIES
 Skipping MODIFIED table
 VEGPARM FOR NLCD40   FOUND          40  CATEGORIES
 Skipping NLCD40   table
 VEGPARM FOR USGS-RUC FOUND          28  CATEGORIES
 Skipping USGS-RUC table
 VEGPARM FOR MODI-RUC FOUND          21  CATEGORIES
 Found MODI-RUC table
 Reading MODI-RUC table
 INPUT SOIL TEXTURE CLASSIFICATION = STAS-RUC
 SOIL TEXTURE CLASSIFICATION = STAS-RUC FOUND          19  CATEGORIES
*********************************************************************
*             PROGRAM:WRF-Chem V4.2 MODEL
*                                                                   *
*    PLEASE REPORT ANY BUGS TO WRF-Chem HELP at                     *
*                                                                   *
*              wrfchemhelp.gsd@noaa.gov                             *
*                                                                   *
*********************************************************************
WARNING: sea salt option 1 currently works only with the GOCART aerosol option.
  call madronich phot initialization

output from subr init_data_mosaic_ptr
nphase_aer =         2
iphase =         1
ntype_aer =         1
ncomp_aer =        10
itype =         1
nsize_aer =     8
lptr_so4_aer    66   77   88   99  110  121  132  143
lptr_no3_aer    67   78   89  100  111  122  133  144
lptr_cl_aer     68   79   90  101  112  123  134  145
lptr_msa_aer   170  171  172  173  174  175  176  177
lptr_co3_aer   162  163  164  165  166  167  168  169
lptr_nh4_aer    69   80   91  102  113  124  135  146
lptr_na_aer     70   81   92  103  114  125  136  147
lptr_ca_aer    154  155  156  157  158  159  160  161
lptr_oin_aer    71   82   93  104  115  126  137  148
lptr_oc_aer     72   83   94  105  116  127  138  149
lptr_bc_aer     73   84   95  106  117  128  139  150
hyswptr_aer   74   85   96  107  118  129  140  151
waterptr_aer     75   86   97  108  119  130  141  152
numptr_aer        76   87   98  109  120  131  142  153
lptr_pcg1_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg2_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg3_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg4_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg5_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg6_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg7_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg8_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg9_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg1_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg2_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg3_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg4_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg5_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg6_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg7_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg8_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg9_b_o_aer     1    1    1    1    1    1    1    1
lptr_opcg1_b_c_aer     1    1    1    1    1    1    1    1
lptr_opcg2_b_c_aer     1    1    1    1    1    1    1    1
lptr_opcg3_b_c_aer     1    1    1    1    1    1    1    1
lptr_opcg4_b_c_aer     1    1    1    1    1    1    1    1
lptr_opcg5_b_c_aer     1    1    1    1    1    1    1    1
lptr_opcg6_b_c_aer     1    1    1    1    1    1    1    1
lptr_opcg7_b_c_aer     1    1    1    1    1    1    1    1
lptr_opcg8_b_c_aer     1    1    1    1    1    1    1    1
lptr_opcg1_b_o_aer     1    1    1    1    1    1    1    1
lptr_opcg2_b_o_aer     1    1    1    1    1    1    1    1
lptr_opcg3_b_o_aer     1    1    1    1    1    1    1    1
lptr_opcg4_b_o_aer     1    1    1    1    1    1    1    1
lptr_opcg5_b_o_aer     1    1    1    1    1    1    1    1
lptr_opcg6_b_o_aer     1    1    1    1    1    1    1    1
lptr_opcg7_b_o_aer     1    1    1    1    1    1    1    1
lptr_opcg8_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg1_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg2_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg3_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg4_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg5_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg6_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg7_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg8_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg9_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg1_f_o_aer     1    1    1    1    1    1    1    1
lptr_pcg2_f_o_aer     1    1    1    1    1    1    1    1
lptr_pcg3_f_o_aer     1    1    1    1    1    1    1    1
lptr_pcg4_f_o_aer     1    1    1    1    1    1    1    1
lptr_pcg5_f_o_aer     1    1    1    1    1    1    1    1
lptr_pcg6_f_o_aer     1    1    1    1    1    1    1    1
lptr_pcg7_f_o_aer     1    1    1    1    1    1    1    1
lptr_pcg8_f_o_aer     1    1    1    1    1    1    1    1
lptr_pcg9_f_o_aer     1    1    1    1    1    1    1    1
lptr_opcg1_f_c_aer     1    1    1    1    1    1    1    1
lptr_opcg2_f_c_aer     1    1    1    1    1    1    1    1
lptr_opcg3_f_c_aer     1    1    1    1    1    1    1    1
lptr_opcg4_f_c_aer     1    1    1    1    1    1    1    1
lptr_opcg5_f_c_aer     1    1    1    1    1    1    1    1
lptr_opcg6_f_c_aer     1    1    1    1    1    1    1    1
lptr_opcg7_f_c_aer     1    1    1    1    1    1    1    1
lptr_opcg8_f_c_aer     1    1    1    1    1    1    1    1
lptr_opcg1_f_o_aer     1    1    1    1    1    1    1    1
lptr_opcg2_f_o_aer     1    1    1    1    1    1    1    1
lptr_opcg3_f_o_aer     1    1    1    1    1    1    1    1
lptr_opcg4_f_o_aer     1    1    1    1    1    1    1    1
lptr_opcg5_f_o_aer     1    1    1    1    1    1    1    1
lptr_opcg6_f_o_aer     1    1    1    1    1    1    1    1
lptr_opcg7_f_o_aer     1    1    1    1    1    1    1    1
lptr_opcg8_f_o_aer     1    1    1    1    1    1    1    1
ant1_c_aer     1    1    1    1    1    1    1    1
ant2_c_aer     1    1    1    1    1    1    1    1
ant3_c_aer     1    1    1    1    1    1    1    1
ant4_c_aer     1    1    1    1    1    1    1    1
ant1_o_aer     1    1    1    1    1    1    1    1
ant2_o_aer     1    1    1    1    1    1    1    1
ant3_o_aer     1    1    1    1    1    1    1    1
ant4_o_aer     1    1    1    1    1    1    1    1
biog1_c_aer     1    1    1    1    1    1    1    1
biog2_c_aer     1    1    1    1    1    1    1    1
biog3_c_aer     1    1    1    1    1    1    1    1
biog4_c_aer     1    1    1    1    1    1    1    1
biog1_o_aer     1    1    1    1    1    1    1    1
biog2_o_aer     1    1    1    1    1    1    1    1
biog3_o_aer     1    1    1    1    1    1    1    1
biog4_o_aer     1    1    1    1    1    1    1    1
smpa_aer     1    1    1    1    1    1    1    1
smpbb_aer     1    1    1    1    1    1    1    1
glysoa_r1_aer     1    1    1    1    1    1    1    1
glysoa_r2_aer     1    1    1    1    1    1    1    1
glysoa_sfc_aer     1    1    1    1    1    1    1    1
glysoa_nh4_aer     1    1    1    1    1    1    1    1
glysoa_oh_aer     1    1    1    1    1    1    1    1
asoaX_aer     1    1    1    1    1    1    1    1
asoa1_aer     1    1    1    1    1    1    1    1
asoa2_aer     1    1    1    1    1    1    1    1
asoa3_aer     1    1    1    1    1    1    1    1
asoa4_aer     1    1    1    1    1    1    1    1
bsoaX_aer     1    1    1    1    1    1    1    1
bsoa1_aer     1    1    1    1    1    1    1    1
bsoa2_aer     1    1    1    1    1    1    1    1
bsoa3_aer     1    1    1    1    1    1    1    1
bsoa4_aer     1    1    1    1    1    1    1    1
sulfate                66   77   88   99  110  121  132  143    1
nitrate                67   78   89  100  111  122  133  144    2
chloride               68   79   90  101  112  123  134  145    3
carbonate             162  163  164  165  166  167  168  169    4
ammonium               69   80   91  102  113  124  135  146    5
sodium                 70   81   92  103  114  125  136  147    6
calcium               154  155  156  157  158  159  160  161    7
otherinorg             71   82   93  104  115  126  137  148    8
organic-c              72   83   94  105  116  127  138  149    9
black-c                73   84   95  106  117  128  139  150   10
iphase =         2
ntype_aer =         1
ncomp_aer =        10
itype =         1
nsize_aer =     8
lptr_so4_aer   178  187  196  205  214  223  232  241
lptr_no3_aer   179  188  197  206  215  224  233  242
lptr_cl_aer    180  189  198  207  216  225  234  243
lptr_msa_aer   266  267  268  269  270  271  272  273
lptr_co3_aer   258  259  260  261  262  263  264  265
lptr_nh4_aer   181  190  199  208  217  226  235  244
lptr_na_aer    182  191  200  209  218  227  236  245
lptr_ca_aer    250  251  252  253  254  255  256  257
lptr_oin_aer   183  192  201  210  219  228  237  246
lptr_oc_aer    184  193  202  211  220  229  238  247
lptr_bc_aer    185  194  203  212  221  230  239  248
hyswptr_aer   74   85   96  107  118  129  140  151
waterptr_aer     75   86   97  108  119  130  141  152
numptr_aer       186  195  204  213  222  231  240  249
lptr_pcg1_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg2_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg3_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg4_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg5_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg6_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg7_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg8_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg9_b_c_aer     1    1    1    1    1    1    1    1
lptr_pcg1_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg2_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg3_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg4_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg5_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg6_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg7_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg8_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg9_b_o_aer     1    1    1    1    1    1    1    1
lptr_opcg1_b_c_aer     1    1    1    1    1    1    1    1
lptr_opcg2_b_c_aer     1    1    1    1    1    1    1    1
lptr_opcg3_b_c_aer     1    1    1    1    1    1    1    1
lptr_opcg4_b_c_aer     1    1    1    1    1    1    1    1
lptr_opcg5_b_c_aer     1    1    1    1    1    1    1    1
lptr_opcg6_b_c_aer     1    1    1    1    1    1    1    1
lptr_opcg7_b_c_aer     1    1    1    1    1    1    1    1
lptr_opcg8_b_c_aer     1    1    1    1    1    1    1    1
lptr_opcg1_b_o_aer     1    1    1    1    1    1    1    1
lptr_opcg2_b_o_aer     1    1    1    1    1    1    1    1
lptr_opcg3_b_o_aer     1    1    1    1    1    1    1    1
lptr_opcg4_b_o_aer     1    1    1    1    1    1    1    1
lptr_opcg5_b_o_aer     1    1    1    1    1    1    1    1
lptr_opcg6_b_o_aer     1    1    1    1    1    1    1    1
lptr_opcg7_b_o_aer     1    1    1    1    1    1    1    1
lptr_opcg8_b_o_aer     1    1    1    1    1    1    1    1
lptr_pcg1_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg2_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg3_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg4_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg5_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg6_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg7_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg8_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg9_f_c_aer     1    1    1    1    1    1    1    1
lptr_pcg1_f_o_aer     1    1    1    1    1    1    1    1
lptr_pcg2_f_o_aer     1    1    1    1    1    1    1    1
lptr_pcg3_f_o_aer     1    1    1    1    1    1    1    1
lptr_pcg4_f_o_aer     1    1    1    1    1    1    1    1
lptr_pcg5_f_o_aer     1    1    1    1    1    1    1    1
lptr_pcg6_f_o_aer     1    1    1    1    1    1    1    1
lptr_pcg7_f_o_aer     1    1    1    1    1    1    1    1
lptr_pcg8_f_o_aer     1    1    1    1    1    1    1    1
lptr_pcg9_f_o_aer     1    1    1    1    1    1    1    1
lptr_opcg1_f_c_aer     1    1    1    1    1    1    1    1
lptr_opcg2_f_c_aer     1    1    1    1    1    1    1    1
lptr_opcg3_f_c_aer     1    1    1    1    1    1    1    1
lptr_opcg4_f_c_aer     1    1    1    1    1    1    1    1
lptr_opcg5_f_c_aer     1    1    1    1    1    1    1    1
lptr_opcg6_f_c_aer     1    1    1    1    1    1    1    1
lptr_opcg7_f_c_aer     1    1    1    1    1    1    1    1
lptr_opcg8_f_c_aer     1    1    1    1    1    1    1    1
lptr_opcg1_f_o_aer     1    1    1    1    1    1    1    1
lptr_opcg2_f_o_aer     1    1    1    1    1    1    1    1
lptr_opcg3_f_o_aer     1    1    1    1    1    1    1    1
lptr_opcg4_f_o_aer     1    1    1    1    1    1    1    1
lptr_opcg5_f_o_aer     1    1    1    1    1    1    1    1
lptr_opcg6_f_o_aer     1    1    1    1    1    1    1    1
lptr_opcg7_f_o_aer     1    1    1    1    1    1    1    1
lptr_opcg8_f_o_aer     1    1    1    1    1    1    1    1
ant1_c_aer     1    1    1    1    1    1    1    1
ant2_c_aer     1    1    1    1    1    1    1    1
ant3_c_aer     1    1    1    1    1    1    1    1
ant4_c_aer     1    1    1    1    1    1    1    1
ant1_o_aer     1    1    1    1    1    1    1    1
ant2_o_aer     1    1    1    1    1    1    1    1
ant3_o_aer     1    1    1    1    1    1    1    1
ant4_o_aer     1    1    1    1    1    1    1    1
biog1_c_aer     1    1    1    1    1    1    1    1
biog2_c_aer     1    1    1    1    1    1    1    1
biog3_c_aer     1    1    1    1    1    1    1    1
biog4_c_aer     1    1    1    1    1    1    1    1
biog1_o_aer     1    1    1    1    1    1    1    1
biog2_o_aer     1    1    1    1    1    1    1    1
biog3_o_aer     1    1    1    1    1    1    1    1
biog4_o_aer     1    1    1    1    1    1    1    1
smpa_aer     1    1    1    1    1    1    1    1
smpbb_aer     1    1    1    1    1    1    1    1
glysoa_r1_aer     1    1    1    1    1    1    1    1
glysoa_r2_aer     1    1    1    1    1    1    1    1
glysoa_sfc_aer     1    1    1    1    1    1    1    1
glysoa_nh4_aer     1    1    1    1    1    1    1    1
glysoa_oh_aer     1    1    1    1    1    1    1    1
asoaX_aer     1    1    1    1    1    1    1    1
asoa1_aer     1    1    1    1    1    1    1    1
asoa2_aer     1    1    1    1    1    1    1    1
asoa3_aer     1    1    1    1    1    1    1    1
asoa4_aer     1    1    1    1    1    1    1    1
bsoaX_aer     1    1    1    1    1    1    1    1
bsoa1_aer     1    1    1    1    1    1    1    1
bsoa2_aer     1    1    1    1    1    1    1    1
bsoa3_aer     1    1    1    1    1    1    1    1
bsoa4_aer     1    1    1    1    1    1    1    1
sulfate               178  187  196  205  214  223  232  241    1
nitrate               179  188  197  206  215  224  233  242    2
chloride              180  189  198  207  216  225  234  243    3
carbonate             258  259  260  261  262  263  264  265    4
ammonium              181  190  199  208  217  226  235  244    5
sodium                182  191  200  209  218  227  236  245    6
calcium               250  251  252  253  254  255  256  257    7
otherinorg            183  192  201  210  219  228  237  246    8
organic-c             184  193  202  211  220  229  238  247    9
black-c               185  194  203  212  221  230  239  248   10
ltot, ltot2, lmaxd, l2maxd =  265  267 1200 1200
*** subr move_sections - method =    20
*** subr move_sections - idiag  =     0
-------------- FATAL CALLED ---------------
FATAL CALLED FROM FILE:  <stdin>  LINE:    1958
ERROR: When using a ..._AQ chemistry package, progn must be 1
-------------------------------------------
Abort(1) on node 13 (rank 13 in comm 0): application called MPI_Abort(MPI_COMM_WORLD, 1) - process 13
X4U16(77@`X59VPHSQR4U@8.png
YY}5W34M8TILE%4LHK1Z9_N.png

I got to set progn = 0, so that I can study ACI.
You can see that this mode was stopped midway.Is there something wrong with my namelist and code? I can't understand it ,and I hope someone could help me.Thank you for your message.
your friends,
cxyiyh
 
Hi cxyiyh,

See these lines in the WRF-Chem UG:

There are several chemistry options that include the indirect effect and each of these options contain aqueous phase chemistry (e.g., RADM2SORG_AQ, RACMSORG_AQ, CBMZ_MOSIAC_4BIN_AQ, CBMZ_MOSAIC_8BIN_AQ, etc.). It has been assumed by the developers that if a user chooses to run with includes aqeuous phase chemistry, then they also choose to be running with the indirect effect (chemistry-microphysics interactions). If you do not want to include the indirect effect then one must either include a prescribed climatological aerosol distribution (e.g., Gustafson et al., 2007) or choose a chemistry option that does not include aqueous phase chemistry.

To run with indirect effect on, one should turn on the aerosol direct effect (aer_rad_feedback = 1 and aer_op_opt > 0). Next the user needs to select a double microphysics scheme; either Lin et al. or the Morrison microphysics schemes are the current possible choices. Next turn on the prognostic number density option (progn=1) in the physics namelist to make the Lin et al. scheme double moment as well as communicate the desire to run indirect effect to other microphysics schemes. Finally, turn on the wet scavenging and cloud chemistry options (wetscav_onoff=1; cldchem_onoff=1).

Jordan
 
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