Starting pFIO input server on Clients Starting pFIO output server on Clients MAPL: INFO: Running with MOAB library for ESMF Mesh: F SHMEM: INFO: NumCores per Node = 6 SHMEM: INFO: NumNodes in use = 1 SHMEM: INFO: Total PEs = 6 SHMEM: INFO: NumNodes in use = 1 Integer*4 Resource Parameter: HEARTBEAT_DT:600 NOT using buffer I/O for file: cap_restart CAP: INFO: Read CAP restart properly, Current Date = 2019/07/01 CAP: INFO: Current Time = 00/00/00 Character Resource Parameter: ROOT_CF:GCHP.rc Character Resource Parameter: ROOT_NAME:GCHP Character Resource Parameter: HIST_CF:HISTORY.rc Character Resource Parameter: MAPL_ENABLE_TIMERS:YES Character Resource Parameter: MAPL_ENABLE_MEMUTILS:YES GCHPctmEnv: INFO: Configured to derive and export mass flux and courant numbers Adding history variables to GCHP Export State: adding export: SpeciesConcVV_O3 adding export: SpeciesConcVV_NO adding export: SpeciesConcVV_NO2 adding export: SpeciesConcVV_OH adding export: SpeciesConcVV_CO adding export: PM25 adding export: Met_T adding export: Met_RH adding export: Met_PBLH adding export: Met_AIRDEN adding export: Met_PMID adding export: Met_PMIDDRY adding export: Met_TropHt adding export: Met_TropP adding export: Met_BXHEIGHT adding export: Met_PS1DRY adding export: Met_PS1WET Reading entire HEMCO configuration file: HEMCO_Config.rc HEMCO verbose output is OFF Reading HEMCO configuration file: HEMCO_Config.rc adding HEMCO export: EmisACET_Total adding HEMCO export: EmisACET_BioBurn adding HEMCO export: EmisACET_Biogenic adding HEMCO export: EmisACET_Ocean adding HEMCO export: EmisACTA_Total adding HEMCO export: EmisACTA_BioBurn adding HEMCO export: EmisALD2_Total adding HEMCO export: EmisALD2_Anthro adding HEMCO export: EmisALD2_BioBurn adding HEMCO export: EmisALD2_Biogenic adding HEMCO export: EmisALD2_Ocean adding HEMCO export: EmisALD2_PlantDecay adding HEMCO export: EmisALD2_Ship adding HEMCO export: EmisALK4_Total adding HEMCO export: EmisALK4_Aircraft adding HEMCO export: EmisALK4_Anthro adding HEMCO export: EmisALK4_BioBurn adding HEMCO export: EmisALK4_Ship adding HEMCO export: EmisBCPI_Total adding HEMCO export: EmisBCPI_Aircraft adding HEMCO export: EmisBCPI_Anthro adding HEMCO export: EmisBCPI_BioBurn adding HEMCO export: EmisBCPI_Ship adding HEMCO export: EmisBCPO_Total adding HEMCO export: EmisBCPO_Anthro adding HEMCO export: EmisBCPO_BioBurn adding HEMCO export: EmisBCPO_Ship adding HEMCO export: EmisBENZ_Total adding HEMCO export: EmisBENZ_Anthro adding HEMCO export: EmisBENZ_BioBurn adding HEMCO export: EmisBENZ_Ship adding HEMCO export: EmisC2H2_Total adding HEMCO export: EmisC2H2_Anthro adding HEMCO export: EmisC2H2_BioBurn adding HEMCO export: EmisC2H2_Ship adding HEMCO export: EmisC2H4_Total adding HEMCO export: EmisC2H4_Anthro adding HEMCO export: EmisC2H4_BioBurn adding HEMCO export: EmisC2H4_Biogenic adding HEMCO export: EmisC2H4_Ship adding HEMCO export: EmisC2H6_Total adding HEMCO export: EmisC2H6_Aircraft adding HEMCO export: EmisC2H6_Anthro adding HEMCO export: EmisC2H6_BioBurn adding HEMCO export: EmisC2H6_Ship adding HEMCO export: EmisC3H8_Total adding HEMCO export: EmisC3H8_Aircraft adding HEMCO export: EmisC3H8_Anthro adding HEMCO export: EmisC3H8_BioBurn adding HEMCO export: EmisC3H8_Ship adding HEMCO export: EmisCH2Br2_Ocean adding HEMCO export: EmisCH2I2_Ocean adding HEMCO export: EmisCH2ICl_Ocean adding HEMCO export: EmisCH2IBr_Ocean adding HEMCO export: EmisCH2O_Total adding HEMCO export: EmisCH2O_Aircraft adding HEMCO export: EmisCH2O_Anthro adding HEMCO export: EmisCH2O_BioBurn adding HEMCO export: EmisCH2O_Ship adding HEMCO export: EmisCH3I_Ocean adding HEMCO export: EmisCHBr3_Ocean adding HEMCO export: EmisCO_Total adding HEMCO export: EmisCO_Aircraft adding HEMCO export: EmisCO_Anthro adding HEMCO export: EmisCO_BioBurn adding HEMCO export: EmisCO_Ship adding HEMCO export: EmisCO2_Total adding HEMCO export: EmisCO2_Anthro adding HEMCO export: EmisCO2_BioBurn adding HEMCO export: EmisCO2_Ship adding HEMCO export: EmisDMS_Ocean adding HEMCO export: EmisDST1_Total adding HEMCO export: EmisDST1_Anthro adding HEMCO export: EmisDST1_Natural adding HEMCO export: EmisDST2_Natural adding HEMCO export: EmisDST3_Natural adding HEMCO export: EmisDST4_Natural adding HEMCO export: EmisEOH_Total adding HEMCO export: EmisEOH_Anthro adding HEMCO export: EmisEOH_BioBurn adding HEMCO export: EmisEOH_Biogenic adding HEMCO export: EmisEOH_PlantDecay adding HEMCO export: EmisEOH_Ship adding HEMCO export: EmisETNO3_Ocean adding HEMCO export: EmisFURA_Total adding HEMCO export: EmisFURA_BioBurn adding HEMCO export: EmisGLYX_Total adding HEMCO export: EmisGLYX_BioBurn adding HEMCO export: EmisH2O_Aircraft adding HEMCO export: EmisHCOOH_Total adding HEMCO export: EmisHCOOH_Anthro adding HEMCO export: EmisHCOOH_Ship adding HEMCO export: EmisHNO3_Ship adding HEMCO export: EmisHONO_Aircraft adding HEMCO export: EmisISOP_Total adding HEMCO export: EmisISOP_BioBurn adding HEMCO export: EmisISOP_Biogenic adding HEMCO export: EmisLIMO_Biogenic adding HEMCO export: EmisMACR_Total adding HEMCO export: EmisMACR_Aircraft adding HEMCO export: EmisMEK_Total adding HEMCO export: EmisMEK_Anthro adding HEMCO export: EmisMEK_BioBurn adding HEMCO export: EmisMEK_Ship adding HEMCO export: EmisMENO3_Ocean adding HEMCO export: EmisMGLY_Total adding HEMCO export: EmisMGLY_BioBurn adding HEMCO export: EmisMOH_Total adding HEMCO export: EmisMOH_Anthro adding HEMCO export: EmisMOH_BioBurn adding HEMCO export: EmisMOH_Biogenic adding HEMCO export: EmisMOH_Ocean adding HEMCO export: EmisMOH_Ship adding HEMCO export: EmisMTPA_Total adding HEMCO export: EmisMTPA_BioBurn adding HEMCO export: EmisMTPA_Biogenic adding HEMCO export: EmisMTPO_Total adding HEMCO export: EmisMTPO_Biogenic adding HEMCO export: EmisMVK_Total adding HEMCO export: EmisMVK_BioBurn adding HEMCO export: EmisNAP_Total adding HEMCO export: EmisNAP_Anthro adding HEMCO export: EmisNAP_BioBurn adding HEMCO export: EmisNH3_Total adding HEMCO export: EmisNH3_Anthro adding HEMCO export: EmisNH3_BioBurn adding HEMCO export: EmisNH3_Natural adding HEMCO export: EmisNH3_Seabirds adding HEMCO export: EmisNH3_Ship adding HEMCO export: EmisNO_Total adding HEMCO export: EmisNO_Aircraft adding HEMCO export: EmisNO_Anthro adding HEMCO export: EmisNO_BioBurn adding HEMCO export: EmisNO_Lightning adding HEMCO export: EmisNO_Ship adding HEMCO export: EmisNO_Soil adding HEMCO export: EmisNO2_Total adding HEMCO export: EmisNO2_Aircraft adding HEMCO export: EmisNO2_Ship adding HEMCO export: EmisO3_Ship adding HEMCO export: EmisOCPI_Total adding HEMCO export: EmisOCPI_Aircraft adding HEMCO export: EmisOCPI_Anthro adding HEMCO export: EmisOCPI_BioBurn adding HEMCO export: EmisOCPI_Ship adding HEMCO export: EmisOCPO_Total adding HEMCO export: EmisOCPO_Anthro adding HEMCO export: EmisOCPO_BioBurn adding HEMCO export: EmisOCPO_Ship adding HEMCO export: EmispFe_Total adding HEMCO export: EmispFe_Anthro adding HEMCO export: EmispFe_Ship adding HEMCO export: EmisPHEN_Total adding HEMCO export: EmisPHEN_BioBurn adding HEMCO export: EmisPOG1_Total adding HEMCO export: EmisPOG1_Anthro adding HEMCO export: EmisPOG1_BioBurn adding HEMCO export: EmisPOG2_Total adding HEMCO export: EmisPOG2_Anthro adding HEMCO export: EmisPOG2_BioBurn adding HEMCO export: EmisPRPE_Total adding HEMCO export: EmisPRPE_Aircraft adding HEMCO export: EmisPRPE_Anthro adding HEMCO export: EmisPRPE_BioBurn adding HEMCO export: EmisPRPE_Biogenic adding HEMCO export: EmisPRPE_Ship adding HEMCO export: EmisRCHO_Total adding HEMCO export: EmisRCHO_Aircraft adding HEMCO export: EmisRCHO_BioBurn adding HEMCO export: EmisSALA_Natural adding HEMCO export: EmisBrSALA_Natural adding HEMCO export: EmisSALAAL_Natural adding HEMCO export: EmisSALACL_Natural adding HEMCO export: EmisSALC_Natural adding HEMCO export: EmisBrSALC_Natural adding HEMCO export: EmisSALCAL_Natural adding HEMCO export: EmisSALCCL_Natural adding HEMCO export: EmisSO2_Total adding HEMCO export: EmisSO2_Aircraft adding HEMCO export: EmisSO2_Anthro adding HEMCO export: EmisSO2_BioBurn adding HEMCO export: EmisSO2_VolcErupt adding HEMCO export: EmisSO2_VolcDegas adding HEMCO export: EmisSO2_Ship adding HEMCO export: EmisSO4_Total adding HEMCO export: EmisSO4_Aircraft adding HEMCO export: EmisSO4_Anthro adding HEMCO export: EmisSO4_Ship adding HEMCO export: EmisSOAP_Total adding HEMCO export: EmisSOAP_Aircraft adding HEMCO export: EmisSOAP_Anthro adding HEMCO export: EmisSOAP_Biogenic adding HEMCO export: EmisSOAP_BioBurn adding HEMCO export: EmisSOAP_Ship adding HEMCO export: EmisSOAS_Biogenic adding HEMCO export: EmisTOLU_Total adding HEMCO export: EmisTOLU_Anthro adding HEMCO export: EmisTOLU_BioBurn adding HEMCO export: EmisTOLU_Ship adding HEMCO export: EmisXYLE_Total adding HEMCO export: EmisXYLE_Anthro adding HEMCO export: EmisXYLE_BioBurn adding HEMCO export: EmisXYLE_Ship adding HEMCO export: HcoLightningFlashRate_Total adding HEMCO export: HcoLightningFlashRate_IntraCld adding HEMCO export: HcoLightningFlashRate_CldGround adding HEMCO export: HcoConvectiveCloudTopHeight Character Resource Parameter: DYCORE:OFF NOTE from PE 0: MPP_DOMAINS_SET_STACK_SIZE: stack size set to 32768. &MPP_IO_NML HEADER_BUFFER_VAL=16384 , GLOBAL_FIELD_ON_ROOT_PE=T, IO_CLOCKS_ON=F, SHUFFLE=0 , DEFLATE_LEVEL=-1 , CF_COMPLIANCE=F, / NOTE from PE 0: MPP_IO_SET_STACK_SIZE: stack size set to 131072. NOTE from PE 0: MPP_DOMAINS_SET_STACK_SIZE: stack size set to 20000000. Integer*4 Resource Parameter: NX:1 Integer*4 Resource Parameter: NY:6 Integer*4 Resource Parameter: IM:24 Integer*4 Resource Parameter: JM:144 Integer*4 Resource Parameter: RUN_DT:600 For k_split (remapping)= 1 n_split is set to 02 for resolution-dt=0025x0025x6- 600.000 Using n_zfilter : 000 Using n_sponge : 001 Using non_ortho : T Starting PEs : 6 Starting Threads : 24 Cubic: cubed-sphere domain decomposition Cubic: cubed-sphere domain decomposition whalo = 3, ehalo = 3, shalo = 3, nhalo = 3 X-AXIS = 24 Cubic: cubed-sphere domain decomposition whalo = 3, ehalo = 3, shalo = 3, nhalo = 3 X-AXIS = 24 Cubic: cubed-sphere domain decomposition whalo = 3, ehalo = 3, shalo = 3, nhalo = 3 X-AXIS = 24 Y-AXIS = 24 whalo = 3, ehalo = 3, shalo = 3, nhalo = 3 X-AXIS = 24 Y-AXIS = 24 Y-AXIS = 24 Cubic: cubed-sphere domain decomposition whalo = 3, ehalo = 3, shalo = 3, nhalo = 3 X-AXIS = 24 Y-AXIS = 24 Y-AXIS = 24 Cubic: cubed-sphere domain decomposition whalo = 3, ehalo = 3, shalo = 3, nhalo = 3 X-AXIS = 24 Y-AXIS = 24 Cubic: cubed-sphere domain decomposition whalo = 1, ehalo = 1, shalo = 1, nhalo = 1 X-AXIS = 24 Y-AXIS = 24 Cubic: cubed-sphere domain decomposition whalo = 1, ehalo = 1, shalo = 1, nhalo = 1 X-AXIS = 24 Y-AXIS = 24 Cubic: cubed-sphere domain decomposition whalo = 1, ehalo = 1, shalo = 1, nhalo = 1 X-AXIS = 24 Y-AXIS = 24 Cubic: cubed-sphere domain decomposition whalo = 1, ehalo = 1, shalo = 1, nhalo = 1 X-AXIS = 24 Y-AXIS = 24 Cubic: cubed-sphere domain decomposition whalo = 1, ehalo = 1, shalo = 1, nhalo = 1 X-AXIS = 24 Y-AXIS = 24 Cubic: cubed-sphere domain decomposition whalo = 1, ehalo = 1, shalo = 1, nhalo = 1 X-AXIS = 24 Y-AXIS = 24 NOTE from PE 0: tracer_manager_init : No tracers are available to be registered. NOTE from PE 0: tracer_manager_init : No tracers are available to be registered. NOTE from PE 0: tracer_manager_init : No tracers are available to be registered. NOTE from PE 0: tracer_manager_init : No tracers are available to be registered. NOTE from PE 0: tracer_manager_init : No tracers are available to be registered. ncnst= 0 num_prog= 0 pnats= 0 dnats= 0 num_family= 0 Grid distance at face edge (km)= 326768.43532825337 RADIUS (m): 0.63710000000000E+07 PI: 0.31415926535898E+01 MAX AREA (m*m): 0.21280966055028E+12 MIN AREA (m*m): 0.95959708752603E+11 GLOBAL AREA (m*m): 0.51006447190982E+15 IDEAL GLOBAL AREA (m*m): 0.51006447190979E+15 Cubed-Sphere Grid Stats : 25 x 25 x 6 Grid Length : min: 326768.44 max: 461715.98 avg: 386515.92 min/max: 0.71 Deviation from Orthogonal : min: 0.00 max: 28.13 avg: 8.60 Aspect Ratio : min: 1.00 max: 1.08 avg: 1.03 Grid_init 72 1 100.00000000000000 Hybrid Sigma-P: minimum allowable surface pressure (hpa)= 14.888888888889058 Corner interpolation coefficient= 1.4728933761817156 Corner interpolation coefficient= 1.4728933761817289 Corner interpolation coefficient= 1.4728933761817260 Corner interpolation coefficient= 1.4728933761817309 Corner interpolation coefficient= 1.4728933761817327 Corner interpolation coefficient= 1.4728933761817253 da_max/da_min= 2.2176980663721220 da_max_c/da_min_c= 2.2606506684909289 Divergence damping Coefficients For small dt= 300.00000000000000 External mode del-2 (m**2/s)= 6284027.9018087257 Internal mode del-2 SMAG dimensionless coeff= 0.0000000000000000 Internal mode del-2 background diff= 0.0000000000000000 Internal mode del-4 background diff= 0.16000000000000000 Vorticity del-4 (m**4/s)= 0.0000000000000000 tracer del-2 diff= 0.0000000000000000 Vorticity del-4 (m**4/s)= 0.0000000000000000 beta= 0.0000000000000000 ===================> MAPL_StateCreateFromSpecNew: var PS2 already exists. Skipping ... Mem/Swap Used (MB) at GCHPctmEnvMAPL_GenericInitialize= 2.989E+03 0.000E+00 GCHPctmEnv: INFO: Configured to expect 'bottom-up' meteorological data from 'ExtData' GCHPctmEnv: INFO: Configured to use dry air pressure in advection GCHPctmEnv: INFO: Configured to correct native mass flux (if using) for humidity Real*4 Resource Parameter: GCHPchem_DT:1200.000000 Integer*4 Resource Parameter: GCHPchem_REFERENCE_TIME:1000 Character Resource Parameter: GCHPchem_INTERNAL_RESTART_FILE:gchp_restart.nc4 Character Resource Parameter: MAPL_ENABLE_BOOTSTRAP:YES Using parallel NetCDF for file: gchp_restart.nc4 Bootstrapping Variable: ARCHV_DRY_TOTN in gchp_restart.nc4 Bootstrapping Variable: ARCHV_WET_TOTN in gchp_restart.nc4 Bootstrapping Variable: AREA in gchp_restart.nc4 Bootstrapping Variable: AeroH2O_SNA in gchp_restart.nc4 Bootstrapping Variable: DEP_RESERVOIR in gchp_restart.nc4 Bootstrapping Variable: DRYPERIOD in gchp_restart.nc4 Bootstrapping Variable: DryDepNitrogen in gchp_restart.nc4 Bootstrapping Variable: GCCTROPP in gchp_restart.nc4 Bootstrapping Variable: GWET_PREV in gchp_restart.nc4 Bootstrapping Variable: H2O2AfterChem in gchp_restart.nc4 Bootstrapping Variable: JNO2 in gchp_restart.nc4 Bootstrapping Variable: JOH in gchp_restart.nc4 Bootstrapping Variable: KPPHvalue in gchp_restart.nc4 Bootstrapping Variable: LAI_PREVDAY in gchp_restart.nc4 Bootstrapping Variable: ORVCSESQ in gchp_restart.nc4 Bootstrapping Variable: PARDF_DAVG in gchp_restart.nc4 Bootstrapping Variable: PARDR_DAVG in gchp_restart.nc4 Bootstrapping Variable: PFACTOR in gchp_restart.nc4 Bootstrapping Variable: SO2AfterChem in gchp_restart.nc4 Bootstrapping Variable: STATE_PSC in gchp_restart.nc4 Bootstrapping Variable: T_DAVG in gchp_restart.nc4 Bootstrapping Variable: T_PREVDAY in gchp_restart.nc4 Bootstrapping Variable: WetDepNitrogen in gchp_restart.nc4 Mem/Swap Used (MB) at GCHPchemMAPL_GenericInitialize= 4.404E+03 0.000E+00 =============================================================================== G E O S - C H E M U S E R I N P U T READ_INPUT_FILE: Opening ./geoschem_config.yml SIMULATION SETTINGS ------------------- Simulation name : fullchem CHEM_INPUTS directory : ./ChemDir/ Species database file : ./species_database.yml Turn on verbose output : F Verbose output printed on : root core only TIMESTEP SETTINGS ----------------- Transport/Convection [sec] : 600 Chemistry/Emissions [sec] : 1200 RRTMG rad transfer [sec] : 10800 TRANSPORT SETTINGS ------------------ Turn on transport? : T CONVECTION SETTINGS ------------------- Turn on cloud convection? : T PBL MIXING SETTINGS ------------------- Turn on PBL mixing? : T Turn on non-local PBL? : T AEROSOL SETTINGS ---------------- Online SULFATE AEROSOLS? : T Metal catalyzed SO2 ox.? : T Online CARBON AEROSOLS? : T Brown Carbon Aerosol? : F BC Absorption Enhancement? : T Hydrophilic BC AE factor : 1.50 Hydrophobic BC AE factor : 1.00 Online COMPLEX SOA? : F Semivolatile POA? : F Online DUST AEROSOLS? : T Acid uptake on dust? : F Online SEA SALT AEROSOLS? : T Accum SEA SALT radii [um] : 0.01 - 0.50 Coarse SEA SALT radii [um] : 0.50 - 8.00 MARINE ORGANIC AEROSOLS? : F Settle strat. aerosols? : T Online SOLID PSC aerosols? : T Allow hom. NAT nucleation? : F NAT supercooling requirement: 3.00K Ice supersaturation req. : 20.00K Perform PSC het. chemistry? : T Use strat. aerosol OD? : T DRY DEPOSITION SETTINGS ----------------------- Turn on dry deposition? : T Dry dep over full PBL? : F Turn on CO2 effect? : F CO2 level : 600.00 CO2 reference level : 380.00 RIX scaling factor : 1.00 WET DEPOSITION SETTINGS ----------------------- Turn on wet deposition? : T CHEMISTRY SETTINGS ------------------ Turn on chemistry? : T Use linear. mesospheric chem: T => Use Linoz for O3? : T Online strat. H2O? : T Use robust strat H2O BC? : T GAMMA HO2 : 0.20 Use auto-reduce solver? : F Use target species threshold: T OH tuning factor: 5.0E-05 NO2 tuning factor: 1.0E-04 Keep halogen spec. active? : F Use append in auto-reduce? : F PHOTOLYSIS SETTINGS ------------------- Turn on photolysis? : T FAST-JX input directory : /BIGDATA2/sysu_lux_5/ExtData/CHEM_INPUTS/FAST_JX/v2021-10/ Online ozone for FAST-JX? : T Ozone from met for FAST-JX? : T TOMS/SBUV ozone for FAST-JX?: F Photolyse nitrate aerosol? : T JNITs scaling of JHNO3 : 100.000 JNIT scaling of JHNO3 : 100.000 JNIT(s) channel A (HONO) : 66.667 JNIT(s) channel B (NO2) : 33.333 NOTE ABOUT OVERHEAD O3 FOR FAST-JX: Online O3 from GEOS-Chem will be used to weight the O3 column within the chemistry grid and O3 from met or TOMS will be used outside the chemistry grid. RRTMG SETTINGS -------------- AOD output wavelength (nm) : 550.0 Turn on radiation? : F Consider longwave? : F Consider shortwave? : F Clear-sky flux? : F All-sky flux? : F OBSPACK SETTINGS ---------------- Turn on ObsPack diagnostic? : F Suppress logfile output? : F ObsPack input file : UNKNOWN ObsPack output file : UNKNOWN LINOZ (LINOZ_READ): Opening ./ChemDir/Linoz_200910/Linoz_March2007.dat TIMESTEPS SETTINGS ------------------ Chemistry Timestep [sec] : 1200 Convection Timestep [sec] : 600 Dynamics Timestep [sec] : 600 Emission Timestep [sec] : 1200 Unit Conv Timestep [sec] : 600 Diagnostic Timestep [sec] : 0 Radiation Timestep [sec] : 10800 =============================================================================== SPECIES NAMES AND INDICES Name ModelId DryDepId WetDepId PhotolId HygGrthId KppSpcId ------------------------------------------------------------------------------- ACET 1 1 - 1 - 221 ACTA 2 2 1 - - 217 AERI 3 3 2 - - 4 ALD2 4 4 3 2 - 263 ALK4 5 - - - - 114 AONITA 6 5 4 - - 5 AROMP4 7 6 5 - - 157 AROMP5 8 7 6 - - 147 ATOOH 9 8 7 3 - 195 BALD 10 9 8 4 - 101 BCPI 11 10 9 - 1 - BCPO 12 11 10 - - - BENZ 13 - - - - 62 BENZP 14 12 11 5 - 106 Br 15 - - - - 273 Br2 16 13 12 6 - 127 BrCl 17 14 13 7 - 134 BrNO2 18 - - 8 - 51 BrNO3 19 15 - 9 - 175 BrO 20 - - 10 - 274 BrSALA 21 16 14 - - 285 BrSALC 22 17 15 - - 277 BUTDI 23 - - - - 6 BZCO3H 24 18 16 11 - 69 BZPAN 25 19 17 - - 97 C2H2 26 - - - - 56 C2H4 27 - - - - 75 C2H6 28 - - - - 159 C3H8 29 - - - - 123 CCl4 30 - - 12 - 52 CFC11 31 - - 13 - 53 CFC113 32 - - 14 - 55 CFC114 33 - - 15 - 45 CFC115 34 - - 16 - 49 CFC12 35 - - 17 - 54 CH2Br2 36 - - 18 - 71 CH2Cl2 37 - - 19 - 70 CH2I2 38 - - 20 - 1 CH2IBr 39 - - 21 - 2 CH2ICl 40 - - 22 - 3 CH2O 41 20 18 23 - 264 CH3Br 42 - - 24 - 99 CH3CCl3 43 - - 25 - 41 CH3Cl 44 - - 26 - 102 CH3I 45 - - 27 - 44 CH4 46 - - - - 188 CHBr3 47 - - 28 - 76 CHCl3 48 - - 29 - 77 Cl 49 - - - - 280 Cl2 50 21 - 30 - 194 Cl2O2 51 - - 31 - 73 ClNO2 52 22 - 32 - 233 ClNO3 53 23 - 33 - 261 ClO 54 24 - 34 - 282 ClOO 55 25 - 35 - 107 CLOCK 56 - - - - - CO 57 - - - - 260 CSL 58 26 19 - - 111 DMS 59 - - - - 92 DST1 60 27 20 - - - DST2 61 28 21 - - - DST3 62 29 22 - - - DST4 63 30 23 - - - EOH 64 31 24 - - 132 ETHLN 65 32 25 36 - 207 ETHN 66 33 26 - - 66 ETHP 67 34 27 37 - 121 ETNO3 68 35 - 38 - 87 ETP 69 36 28 39 - 109 FURA 70 37 29 - - 39 GLYC 71 38 30 40 - 234 GLYX 72 39 31 41 - 220 H1211 73 - - 42 - 57 H1301 74 - - 43 - 46 H2402 75 - - 44 - 47 H2O 76 - - - - 271 H2O2 77 40 32 45 - 209 HAC 78 41 33 46 - 248 HBr 79 42 34 - - 278 HC5A 80 43 35 47 - 190 HCFC123 81 - - 48 - 80 HCFC141b 82 - - 49 - 81 HCFC142b 83 - - 50 - 82 HCFC22 84 - - 51 - 83 HCl 85 44 36 - - 286 HCOOH 86 45 37 - - 210 HI 87 46 38 - - 67 HMHP 88 47 39 52 - 84 HMML 89 48 40 - - 85 HMS 90 49 41 - - 86 HNO2 91 - - 53 - 191 HNO3 92 50 42 54 - 262 HNO4 93 - - 55 - 103 HOBr 94 51 43 56 - 258 HOCl 95 52 44 57 - 269 HOI 96 53 45 58 - 266 HONIT 97 54 46 59 - 131 HPALD1 98 55 - 60 - 184 HPALD2 99 56 - 61 - 186 HPALD3 100 57 - 62 - 126 HPALD4 101 58 - 63 - 128 HPETHNL 102 59 47 64 - 170 I 103 - - - - 267 I2 104 60 48 65 - 142 I2O2 105 61 49 66 - 42 I2O3 106 62 50 67 - 48 I2O4 107 63 51 68 - 40 IBr 108 64 52 69 - 72 ICHE 109 65 53 - - 172 ICl 110 66 54 70 - 100 ICN 111 67 55 71 - 238 ICPDH 112 68 56 72 - 204 IDC 113 69 - - - 108 IDCHP 114 70 57 73 - 124 IDHDP 115 71 58 74 - 141 IDHPE 116 72 59 75 - 161 IDN 117 73 60 76 - 241 IEPOXA 118 74 61 - - 129 IEPOXB 119 75 62 - - 130 IEPOXD 120 76 63 - - 116 IHN1 121 77 64 77 - 218 IHN2 122 78 65 78 - 138 IHN3 123 79 66 79 - 139 IHN4 124 80 67 80 - 212 INDIOL 125 81 68 - - 8 INO 126 - - 81 - 58 INPB 127 82 69 82 - 179 INPD 128 83 70 83 - 149 IO 129 - - 84 - 225 IONITA 130 84 71 - - 98 IONO 131 85 72 85 - 201 IONO2 132 86 73 86 - 268 IPRNO3 133 87 - 87 - 88 ISALA 134 88 74 - - 9 ISALC 135 89 75 - - 10 ISOP 136 - - - - 222 ITCN 137 90 76 88 - 211 ITHN 138 91 77 89 - 240 LIMO 139 92 78 - - 168 LVOC 140 93 79 - - 24 LVOCOA 141 94 80 - - 23 MACR 142 95 - 90 - 249 MACR1OOH 143 96 81 91 - 135 MAP 144 97 82 92 - 68 MCRDH 145 98 83 - - 133 MCRENOL 146 99 84 93 - 162 MCRHN 147 100 85 94 - 197 MCRHNB 148 101 86 95 - 173 MCRHP 149 102 87 96 - 229 MCT 150 103 88 - - 140 MEK 151 - 89 97 - 224 MENO3 152 104 - 98 - 89 MGLY 153 105 90 99 - 230 MOH 154 106 91 - - 216 MONITA 155 107 92 - - 43 MONITS 156 108 93 100 - 176 MONITU 157 109 94 101 - 198 MP 158 - 95 102 - 136 MPAN 159 110 96 103 - 151 MPN 160 - 97 104 - 74 MSA 161 111 98 - - 28 MTPA 162 112 99 - - 152 MTPO 163 113 100 - - 153 MVK 164 114 101 105 - 246 MVKDH 165 115 102 - - 117 MVKHC 166 116 103 106 - 167 MVKHCB 167 117 104 107 - 183 MVKHP 168 118 105 108 - 228 MVKN 169 119 106 109 - 239 MVKPC 170 120 107 110 - 154 N2O 171 - - 111 - 59 N2O5 172 121 - 112 - 171 NH3 173 122 108 - - - NH4 174 123 109 - - - NIT 175 124 110 113 - 60 NITs 176 125 111 114 - 61 NO 177 - - 115 - 283 NO2 178 126 - 116 - 279 NO3 179 - - 117 - 275 NPHEN 180 127 112 118 - 208 NPRNO3 181 128 - 119 - 90 O3 182 129 - 120 - 281 OClO 183 - - 121 - 110 OCPI 184 130 113 - 2 - OCPO 185 131 114 - - - OCS 186 - - 122 - 64 OIO 187 - - 123 - 91 PAN 188 132 115 124 - 65 pFe 189 133 116 - - - PHEN 190 134 117 - - 118 PIP 191 - - 125 - 119 PP 192 135 118 126 - 112 PPN 193 136 119 - - 50 PROPNN 194 137 120 127 - 196 PRPE 195 - 121 - - 256 PRPN 196 138 122 128 - 113 PYAC 197 139 123 129 - 105 R4N2 198 140 124 130 - 200 R4P 199 141 125 131 - 93 RA3P 200 142 126 132 - 94 RB3P 201 143 127 133 - 95 RCHO 202 - - 134 - 257 RIPA 203 144 128 135 - 155 RIPB 204 145 129 136 - 160 RIPC 205 146 130 137 - 169 RIPD 206 147 131 138 - 163 RP 207 148 132 139 - 96 SALA 208 149 133 - 3 - SALAAL 209 150 134 - - 146 SALACL 210 151 135 - - 284 SALC 211 152 136 - 4 - SALCAL 212 153 137 - - 137 SALCCL 213 154 138 - - 272 SO2 214 155 139 - - 276 SO4 215 156 140 140 5 120 SO4s 216 157 141 - - 29 SOAGX 217 158 142 - - 30 SOAIE 218 159 143 - - 31 SOAP 219 - - - - - SOAS 220 160 144 - - - TOLU 221 - - - - 78 XYLE 222 - - - - 79 CO2 223 - - - - 7 LBRO2H 224 - - - - 11 LBRO2N 225 - - - - 12 BRO2 226 - - - - 13 LISOPOH 227 - - - - 14 LISOPNO3 228 - - - - 15 LNRO2H 229 - - - - 16 LNRO2N 230 - - - - 17 NRO2 231 - - - - 18 NAP 232 - - - - 19 LTRO2H 233 - - - - 20 LTRO2N 234 - - - - 21 TRO2 235 - - - - 22 LXRO2H 236 - - - - 25 LXRO2N 237 - - - - 26 XRO2 238 - - - - 27 POx 239 - - - - 32 LOx 240 - - - - 33 PCO 241 - - - - 34 LCO 242 - - - - 35 PSO4 243 - - - - 36 LCH4 244 - - - - 37 PH2O2 245 - - - - 38 N 246 - - - - 63 ETO 247 - - - - 104 HPALD2OO 248 - - - - 115 HPALD1OO 249 - - - - 122 INA 250 - - - - 125 C4HVP1 251 - - - - 143 C4HVP2 252 - - - - 144 IDNOO 253 - - - - 145 ICNOO 254 - - - - 148 ISOPNOO2 255 - - - - 150 ROH 256 - - - - 156 BENZO 257 - - - - 158 ISOPNOO1 258 - - - - 164 IDHNDOO2 259 - - - - 165 IDHNDOO1 260 - - - - 166 H 261 - - - - 174 ETOO 262 - - - - 177 BZCO3 263 - - - - 178 IHPOO1 264 - - - - 180 AROMRO2 265 - - - - 181 IHPOO2 266 - - - - 182 IHPOO3 267 - - - - 185 IHPNDOO 268 - - - - 187 BENZO2 269 - - - - 189 ICHOO 270 - - - - 192 CH3CHOO 271 - - - - 193 PRN1 272 - - - - 199 MCROHOO 273 - - - - 202 MVKOHOO 274 - - - - 203 MACR1OO 275 - - - - 205 PO2 276 - - - - 206 OLNN 277 - - - - 213 OLND 278 - - - - 214 ETO2 279 - - - - 215 IHPNBOO 280 - - - - 219 LIMO2 281 - - - - 223 IEPOXAOO 282 - - - - 226 IEPOXBOO 283 - - - - 227 IDHNBOO 284 - - - - 231 CH2OO 285 - - - - 232 A3O2 286 - - - - 235 PIO2 287 - - - - 236 OTHRO2 288 - - - - 237 IHOO1 289 - - - - 242 IHOO4 290 - - - - 243 INO2D 291 - - - - 244 INO2B 292 - - - - 245 MACRNO2 293 - - - - 247 ATO2 294 - - - - 250 KO2 295 - - - - 251 RCO3 296 - - - - 252 R4O2 297 - - - - 253 R4N1 298 - - - - 254 B3O2 299 - - - - 255 MCO3 300 - - - - 259 MO2 301 - - - - 265 O1D 302 - - - - 270 O 303 - - - - 287 HO2 304 - - - - 288 OH 305 - - - - 289 H2 306 - - - - 290 N2 307 - - - - 291 O2 308 - - 141 - 292 RCOOH 309 - - - - 293 =============================================================================== READ_DRYDEP_INPUTS: Opening ./ChemDir/Olson_Land_Map_201203/Olson_2001_Drydep_Inputs.nc Initializing Fast-JX v7.0 standalone CTM code. FAST-JX (RD_XXX): Opening /BIGDATA2/sysu_lux_5/ExtData/CHEM_INPUTS/FAST_JX/v2021-10/FJX_spec.dat UCI FJX v6.8c JPL10+2013 fixes: Q1d, Acetone! others, derived fort10-2013b.x 18 x-sect: 1 O2 3 180.00 260.00 300.00 x-sect: 2 O3 3 218.00 258.00 298.00 x-sect: 3 O3(1D) 3 200.00 260.00 320.00 x-sect: 4 NO x 1 298.00 x-sect: 5 H2SO4 x 1 298.00 x-sect: 6 H2COa 2 223.00 298.00 x-sect: 7 H2COb 2 223.00 298.00 x-sect: 8 H2O2 2 200.00 300.00 x-sect: 9 CH3OOH 1 298.00 x-sect: 10 NO2 2 200.00 294.00 x-sect: 11 NO3 2 190.00 298.00 x-sect: 12 N2O5 2 233.00 300.00 x-sect: 13 HNO2 1 300.00 x-sect: 14 HNO3 2 200.00 300.00 x-sect: 15 HNO4 1 300.00 x-sect: 16 ClNO3a 2 200.00 300.00 x-sect: 17 ClNO3b 2 200.00 300.00 x-sect: 18 ClNO2 2 210.00 296.00 x-sect: 19 Br2 1 298.00 x-sect: 20 BrNO2 1 298.00 x-sect: 21 Cl2 2 200.00 300.00 x-sect: 22 HOCl 1 300.00 x-sect: 23 OClO 1 204.00 x-sect: 24 ClOO 1 298.00 x-sect: 25 Cl2O2 1 250.00 x-sect: 26 ClO 1 300.00 x-sect: 27 BrO 1 300.00 x-sect: 28 BrNO3 2 200.00 300.00 x-sect: 29 HOBr 1 300.00 x-sect: 30 BrCl 2 200.00 300.00 x-sect: 31 N2O x 2 200.00 300.00 x-sect: 32 CFCl3 x 2 220.00 298.00 x-sect: 33 CF2Cl2 x 2 220.00 300.00 x-sect: 34 F113 x 2 210.00 300.00 x-sect: 35 F114 x 2 210.00 300.00 x-sect: 36 F115 x 1 300.00 x-sect: 37 CCl4 x 2 200.00 300.00 x-sect: 38 CH3Cl x 2 200.00 300.00 x-sect: 39 MeCCl3 x 2 200.00 300.00 x-sect: 40 CH2Cl2 x 2 200.00 300.00 x-sect: 41 CHF2Cl x 2 200.00 300.00 x-sect: 42 F123 x 2 210.00 295.00 x-sect: 43 F141b x 2 200.00 300.00 x-sect: 44 F142b x 2 210.00 298.00 x-sect: 45 CH3Br x 2 200.00 300.00 x-sect: 46 H1211 x 2 200.00 300.00 x-sect: 47 H1301 x 2 200.00 300.00 x-sect: 48 H2402 x 2 200.00 300.00 x-sect: 49 CH2Br2 2 200.00 300.00 x-sect: 50 CHBr3 2 260.00 296.00 x-sect: 51 CF3I 2 243.00 300.00 x-sect: 52 OCS 2 200.00 300.00 x-sect: 53 HAC 1 298.00 x-sect: 54 PAN 2 250.00 298.00 x-sect: 55 CH3NO3 2 200.00 300.00 x-sect: 56 ActAld p 3 177.00 566.00 999.00 x-sect: 57 MeVK p 3 177.00 566.00 999.00 x-sect: 58 MeAcr 1 298.00 x-sect: 59 GlyAld 1 298.00 x-sect: 60 MEKeto p 2 177.00 999.00 x-sect: 61 PrAld 1 298.00 x-sect: 62 MGlyxl p 3 177.00 566.00 999.00 x-sect: 63 Glyxla p 2 177.00 999.00 x-sect: 64 Glyxlb p 2 177.00 999.00 x-sect: 65 Glyxlc p 2 177.00 999.00 x-sect: 66 Acet-a p 3 177.00 566.00 999.00 x-sect: 67 Acet-b 3 235.00 260.00 298.00 x-sect: 68 ONIT1 1 298.00 x-sect: 69 MPN 1 298.00 x-sect: 70 ETHLN 1 298.00 x-sect: 71 PROPNN 1 298.00 x-sect: 72 MVKN 1 298.00 x-sect: 73 MACRN 1 298.00 x-sect: 74 NITP 1 298.00 x-sect: 75 HPALD1 1 298.00 x-sect: 76 HPALD2 1 298.00 x-sect: 77 PrAldP 1 298.00 x-sect: 78 ICN 1 298.00 x-sect: 79 MACRNP 1 298.00 x-sect: 80 MVKCN 1 298.00 x-sect: 81 ENOL 1 298.00 x-sect: 82 ONIT2 1 298.00 x-sect: 83 HP2 1 298.00 x-sect: 84 HMHP 1 298.00 x-sect: 85 CH3I 2 210.00 298.00 x-sect: 86 CH2I2 2 273.00 298.00 x-sect: 87 CH2ICl 2 223.00 298.00 x-sect: 88 CH2IBr 2 273.00 298.00 x-sect: 89 I2 1 295.00 x-sect: 90 HOI 1 298.00 x-sect: 91 IO 1 298.00 x-sect: 92 OIO 1 298.00 x-sect: 93 INO 1 298.00 x-sect: 94 IONO 1 298.00 x-sect: 95 IONO2 1 298.00 x-sect: 96 I2O2 1 298.00 x-sect: 97 I2O3 1 298.00 x-sect: 98 ICl 1 298.00 x-sect: 99 IBr 1 298.00 x-sect:100 MENO3 2 240.00 298.00 x-sect:101 ETNO3 2 240.00 298.00 x-sect:102 IPRNO3 2 240.00 298.00 x-sect:103 NPRNO3 1 298.00 x-sect:104 BALD 1 298.00 FAST-JX (RD_MIE): Opening /BIGDATA2/sysu_lux_5/ExtData/CHEM_INPUTS/FAST_JX/v2021-10/jv_spec_mie.dat jv_spec_mie.dat: Aerosol optical properties at 5 wavelengths (clh, 01/30/10), Aerosol optical: r-eff/rho/Q(@wavel): 200.0 300.0 400.0 600.0 999.0 RAYLE = Rayleigh phase 1 wavel= 200.0 300.0 400.0 600.0 999.0 1 Qext =123.5000123.5000 39.1000 7.7000 1.0000 ISOTR = isotropic 2 wavel= 200.0 300.0 400.0 600.0 999.0 2 Qext = 1.0000 1.0000 1.0000 1.0000 1.0000 ABSRB = fully absorbing 'soot', wavelength indep. 3 wavel= 200.0 300.0 400.0 600.0 999.0 3 Qext = 1.0000 1.0000 1.0000 1.0000 1.0000 S_Bkg = backgrnd stratospheric sulfate (n=1.46, log-norm: r=.09um/sigma=.6) 4 wavel= 200.0 300.0 400.0 600.0 999.0 4 Qext = 2.7541 2.7541 2.4017 1.6454 0.7449 S_Vol = volcanic stratospheric sulfate (n=1.46, log-norm: r=.08um/sigma=.8) 5 wavel= 200.0 300.0 400.0 600.0 999.0 5 Qext = 2.6437 2.6437 2.5603 2.2221 1.5319 W_H01 = water haze (H1/Deirm.) (n=1.335, gamma: r-mode=0.1um / alpha=2) 6 wavel= 200.0 300.0 400.0 600.0 999.0 6 Qext = 2.8438 2.8438 2.3497 1.4037 0.5034 W_H04 = water haze (H1/Deirm.) (n=1.335, gamma: r-mode=0.4um / alpha=2) 7 wavel= 200.0 300.0 400.0 600.0 999.0 7 Qext = 2.2995 2.2995 2.4743 2.6719 2.9565 W_C02 = water cloud (C1/Deirm.) (n=1.335, gamma: r-mode=2.0um / alpha=6) 8 wavel= 200.0 300.0 400.0 600.0 999.0 8 Qext = 2.1410 2.1410 2.1778 2.2287 2.3071 W_C04 = water cloud (C1/Deirm.) (n=1.335, gamma: r-mode=4.0um / alpha=6) 9 wavel= 200.0 300.0 400.0 600.0 999.0 9 Qext = 2.0835 2.0835 2.1064 2.1345 2.1922 W_C08 = water cloud (C1/Deirm.) (n=1.335, gamma: r-mode=8.0um / alpha=6) 10 wavel= 200.0 300.0 400.0 600.0 999.0 10 Qext = 2.0539 2.0539 2.0643 2.0883 2.1236 W_C13 = water cloud (C1/Deirm.) (n=1.335, gamma: r-mode=13.3um / alpha=6) 11 wavel= 200.0 300.0 400.0 600.0 999.0 11 Qext = 2.0440 2.0440 2.0529 2.0716 2.0978 W_L06 = water cloud (Lacis) (n=1.335, r-mode=5.5um / alpha=11/3) 12 wavel= 200.0 300.0 400.0 600.0 999.0 12 Qext = 2.0616 2.0616 2.0747 2.1005 2.1423 Ice-H = hexagonal ice cloud (Mishchenko) 13 wavel= 200.0 300.0 400.0 600.0 999.0 13 Qext = 2.0000 2.0000 2.0000 2.0000 2.0000 Ice-I = irregular ice cloud (Mishchenko) 14 wavel= 200.0 300.0 400.0 600.0 999.0 14 Qext = 2.0000 2.0000 2.0000 2.0000 2.0000 Mdust 0.15 = mineral dust (R.V.Martin) 15 wavel= 200.0 300.0 400.0 600.0 999.0 15 Qext = 4.0154 4.0154 3.0582 1.2133 0.2195 Mdust 0.25 = mineral dust (R.V.Martin) 16 wavel= 200.0 300.0 400.0 600.0 999.0 16 Qext = 2.6560 2.6560 3.9669 3.2556 1.1019 Mdust 0.4 = mineral dust (R.V.Martin) 17 wavel= 200.0 300.0 400.0 600.0 999.0 17 Qext = 2.6071 2.6071 2.1923 3.9815 2.9227 Mdust 0.8 = mineral dust (R.V.Martin) 18 wavel= 200.0 300.0 400.0 600.0 999.0 18 Qext = 2.3459 2.3459 2.3417 2.4688 3.3741 Mdust 1.5 = mineral dust (R.V.Martin) 19 wavel= 200.0 300.0 400.0 600.0 999.0 19 Qext = 2.1925 2.1925 2.2457 2.3919 2.6314 Mdust 2.5 = mineral dust (R.V.Martin) 20 wavel= 200.0 300.0 400.0 600.0 999.0 20 Qext = 2.1427 2.1427 2.1881 2.1559 2.3282 Mdust 4.0 = mineral dust (R.V.Martin) 21 wavel= 200.0 300.0 400.0 600.0 999.0 21 Qext = 2.1045 2.1045 2.1191 2.2094 2.3429 S00(dar) Trop sulphate, RH=00 (n@550=1.53-0.01i log-norm: r=.07um/sigma=1.6) 22 wavel= 200.0 300.0 400.0 600.0 1000.0 22 Qext = 2.3328 2.3328 1.6118 0.7484 0.2108 S50(dar) Trop sulphate, RH=50 (n@550=1.44 0.00i log-norm: r=.09um/sigma=1.6) 23 wavel= 200.0 300.0 400.0 600.0 1000.0 23 Qext = 2.4175 2.4175 1.7099 0.8352 0.2488 S70(dar) Trop sulphate, RH=70 (n@550=1.41 0.00i log-norm: r=.09um/sigma=1.6) 24 wavel= 200.0 300.0 400.0 600.0 1000.0 24 Qext = 2.4852 2.4852 1.7947 0.8963 0.2751 S80(dar) Trop sulphate, RH=80 (n@550=1.40 0.00i log-norm: r=.10um/sigma=1.6) 25 wavel= 200.0 300.0 400.0 600.0 1000.0 25 Qext = 2.5571 2.5571 1.8800 0.9653 0.3040 S90(dar) Trop sulphate, RH=90 (n@550=1.38 0.00i log-norm: r=.11um/sigma=1.6) 26 wavel= 200.0 300.0 400.0 600.0 1000.0 26 Qext = 2.6967 2.6967 2.0587 1.1172 0.3730 S95(dar) Trop sulphate, RH=95 (n@550=1.36 0.00i log-norm: r=.13um/sigma=1.6) 27 wavel= 200.0 300.0 400.0 600.0 1000.0 27 Qext = 2.8355 2.8355 2.2825 1.3212 0.4720 S99(dar) Trop sulphate, RH=99 (n@550=1.34 0.00i log-norm: r=.18um/sigma=1.6) 28 wavel= 200.0 300.0 400.0 600.0 1000.0 28 Qext = 2.9980 2.9980 2.7329 1.8669 0.7986 BC00(rvm) Black C, RH=00 (n@550=1.75-.44i log-norm: r_g=.02um/sigma=1.6) 29 wavel= 200.0 300.0 400.0 600.0 1000.0 29 Qext = 0.9543 0.9543 0.6229 0.3282 0.1694 BC50(rvm) Black C, RH=50 (n@550=1.75-.44i log-norm: r_g=.02um/sigma=1.6) 30 wavel= 200.0 300.0 400.0 600.0 1000.0 30 Qext = 0.9543 0.9543 0.6229 0.3282 0.1694 BC70(rvm) Black C, RH=70 (n@550=1.75-.44i log-norm: r_g=.02um/sigma=1.6) 31 wavel= 200.0 300.0 400.0 600.0 1000.0 31 Qext = 0.9543 0.9543 0.6229 0.3282 0.1694 BC80(rvm) Black C, RH=80 (n@550=1.57-.25i log-norm: r_g=.02um/sigma=1.6) 32 wavel= 200.0 300.0 400.0 600.0 1000.0 32 Qext = 0.8137 0.8137 0.5268 0.2744 0.1397 BC90(rvm) Black C, RH=90 (n@550=1.48-.16i log-norm: r_g=.02um/sigma=1.6) 33 wavel= 200.0 300.0 400.0 600.0 1000.0 33 Qext = 0.7281 0.7281 0.4607 0.2321 0.1137 BC95(rvm) Black C, RH=95 (n@550=1.45-.13i log-norm: r_g=.02um/sigma=1.6) 34 wavel= 200.0 300.0 400.0 600.0 1000.0 34 Qext = 0.7045 0.7045 0.4397 0.2169 0.1034 BC99(rvm) Black C, RH=99 (n@550=1.39-.06i log-norm: r_g=.02um/sigma=1.6) 35 wavel= 200.0 300.0 400.0 600.0 1000.0 35 Qext = 0.7031 0.7031 0.4181 0.1882 0.0776 OC00(rvm) Organic C, RH=00 (n@550=1.53-.006i log-norm: r_g=.07um/sigma=1.6) 36 wavel= 200.0 300.0 400.0 600.0 1000.0 36 Qext = 2.4567 2.4567 1.7461 0.8395 0.2405 OC50(rvm) Organic C, RH=50 (n@550=1.46-.004i log-norm: r_g=.08um/sigma=1.6) 37 wavel= 200.0 300.0 400.0 600.0 1000.0 37 Qext = 2.3664 2.3664 1.6538 0.7904 0.2297 OC70(rvm) Organic C, RH=70 (n@550=1.44-.003i log-norm: r_g=.08um/sigma=1.6) 38 wavel= 200.0 300.0 400.0 600.0 1000.0 38 Qext = 2.3617 2.3617 1.6499 0.7916 0.2319 OC80(rvm) Organic C, RH=80 (n@550=1.43-.003i log-norm: r_g=.09um/sigma=1.6) 39 wavel= 200.0 300.0 400.0 600.0 1000.0 39 Qext = 2.3693 2.3693 1.6588 0.8003 0.2364 OC90(rvm) Organic C, RH=90 (n@550=1.41-.002i log-norm: r_g=.09um/sigma=1.6) 40 wavel= 200.0 300.0 400.0 600.0 1000.0 40 Qext = 2.4065 2.4065 1.7001 0.8328 0.2506 OC95(rvm) Organic C, RH=95 (n@550=1.39-.002i log-norm: r_g=.10um/sigma=1.6) 41 wavel= 200.0 300.0 400.0 600.0 1000.0 41 Qext = 2.4733 2.4733 1.7758 0.8901 0.2747 OC99(rvm) Organic C, RH=99 (n@550=1.36-.001i log-norm: r_g=.12um/sigma=1.6) 42 wavel= 200.0 300.0 400.0 600.0 1000.0 42 Qext = 2.6732 2.6732 2.0282 1.0918 0.3631 SSa00(rvm) Sea Salt (accum), RH=00 (n@550=1.50 log-norm: r=.09um/sigma=1.5) 43 wavel= 200.0 300.0 400.0 600.0 1000.0 43 Qext = 2.5412 2.5412 1.6772 0.7067 0.1570 SSa50(rvm) Sea Salt (accum), RH=50 (n@550=1.37 log-norm: r=.14um/sigma=1.5) 44 wavel= 200.0 300.0 400.0 600.0 1000.0 44 Qext = 2.9302 2.9302 2.2339 1.1660 0.3550 SSa70(rvm) Sea Salt (accum), RH=70 (n@550=1.36 log-norm: r=.15um/sigma=1.5) 45 wavel= 200.0 300.0 400.0 600.0 1000.0 45 Qext = 3.0398 3.0398 2.4455 1.3697 0.4508 SSa80(rvm) Sea Salt (accum), RH=80 (n@550=1.35 log-norm: r=.17um/sigma=1.5) 46 wavel= 200.0 300.0 400.0 600.0 1000.0 46 Qext = 3.1035 3.1035 2.6193 1.5557 0.5476 SSa90(rvm) Sea Salt (accum), RH=90 (n@550=1.34 log-norm: r=.20um/sigma=1.5) 47 wavel= 200.0 300.0 400.0 600.0 1000.0 47 Qext = 3.1322 3.1322 2.9072 1.9502 0.7818 SSa95(rvm) Sea Salt (accum), RH=95 (n@550=1.34 log-norm: r=.25um/sigma=1.5) 48 wavel= 200.0 300.0 400.0 600.0 1000.0 48 Qext = 3.0158 3.0158 3.0937 2.4069 1.1240 SSa99(rvm) Sea Salt (accum), RH=99 (n@550=1.33 log-norm: r=.41um/sigma=1.5) 49 wavel= 200.0 300.0 400.0 600.0 1000.0 49 Qext = 2.4962 2.4962 2.8177 3.0999 2.2905 SSc00(rvm) Sea Salt (coarse), RH=00 (n@550=1.50 log-norm: r=0.4um/sigma=1.8) 50 wavel= 200.0 300.0 400.0 600.0 1000.0 50 Qext = 2.3435 2.3435 2.4489 2.6771 2.8998 SSc50(rvm) Sea Salt (coarse), RH=50 (n@550=1.37 log-norm: r=0.6um/sigma=1.8) 51 wavel= 200.0 300.0 400.0 600.0 1000.0 51 Qext = 2.2492 2.2492 2.3182 2.4842 2.7678 SSc70(rvm) Sea Salt (coarse), RH=70 (n@550=1.36 log-norm: r=0.7um/sigma=1.8) 52 wavel= 200.0 300.0 400.0 600.0 1000.0 52 Qext = 2.2293 2.2293 2.2898 2.4343 2.7189 SSc80(rvm) Sea Salt (coarse), RH=80 (n@550=1.35 log-norm: r=0.8um/sigma=1.8) 53 wavel= 200.0 300.0 400.0 600.0 1000.0 53 Qext = 2.2140 2.2140 2.2684 2.3962 2.6723 SSc90(rvm) Sea Salt (coarse), RH=90 (n@550=1.34 log-norm: r=1.0um/sigma=1.8) 54 wavel= 200.0 300.0 400.0 600.0 1000.0 54 Qext = 2.1887 2.1887 2.2336 2.3331 2.5766 SSc95(rvm) Sea Salt (coarse), RH=95 (n@550=1.34 log-norm: r=1.2um/sigma=1.8) 55 wavel= 200.0 300.0 400.0 600.0 1000.0 55 Qext = 2.1641 2.1641 2.2020 2.2780 2.4698 SSc99(rvm) Sea Salt (coarse), RH=99 (n@550=1.33 log-norm: r=2.0um/sigma=1.8) 56 wavel= 200.0 300.0 400.0 600.0 1000.0 56 Qext = 2.1146 2.1146 2.1402 2.1865 2.2787 FAST-JX (RD_PROF_NC): Opening ./ChemDir/FastJ_201204/fastj.jv_atms_dat.nc %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% Opening file : fastj.jv_atms_dat.nc %% in directory : ./ChemDir/FastJ_201204/ %% %% Successfully read T [K] %% Successfully read O3 [ppm] %% Successfully closed file! %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% FAST-JX (RD_JS_JX): Opening /BIGDATA2/sysu_lux_5/ExtData/CHEM_INPUTS/FAST_JX/v2021-10/FJX_j2j.dat <--J-value data from chemistry code: id#, reaction, factor/fastJX/code(a6) Photochemistry Scheme with 166 J-values 1 O2 PHOTON O O 1.000 mapped to FJX: 1 O2 2 O3 PHOTON O2 O 1.000 mapped to FJX: 2 O3 3 O3 PHOTON O2 O(1D) 1.000 mapped to FJX: 3 O3(1D) 4 H2O PHOTON OH H 0.000 no mapping onto fast-JX H2O 5 HO2 PHOTON OH O 0.000 no mapping onto fast-JX HO2 6 NO PHOTON N O 1.000 mapped to FJX: 4 NO 7 CH2O PHOTON H HO2 CO 1.000 mapped to FJX: 6 H2COa 8 CH2O PHOTON CO H2 1.000 mapped to FJX: 7 H2COb 9 H2O2 PHOTON OH OH 1.000 mapped to FJX: 8 H2O2 10 MP PHOTON CH2O HO2 OH 1.000 mapped to FJX: 9 CH3OOH 11 NO2 PHOTON NO O 1.000 mapped to FJX: 10 NO2 12 NO3 PHOTON NO2 O 0.886 mapped to FJX: 11 NO3 13 NO3 PHOTON NO O2 0.114 mapped to FJX: 11 NO3 14 N2O5 PHOTON NO2 NO3 1.000 mapped to FJX: 12 N2O5 15 HNO2 PHOTON NO OH 1.000 mapped to FJX: 13 HNO2 16 HNO3 PHOTON NO2 OH 1.000 mapped to FJX: 14 HNO3 17 HNO4 PHOTON OH NO3 0.050 mapped to FJX: 15 HNO4 18 HNO4 PHOTON NO2 HO2 0.950 mapped to FJX: 15 HNO4 19 ClNO3 PHOTON Cl NO3 1.000 mapped to FJX: 16 ClNO3a 20 ClNO3 PHOTON ClO NO2 1.000 mapped to FJX: 17 ClNO3b 21 ClNO2 PHOTON Cl NO2 1.000 mapped to FJX: 18 ClNO2 22 Cl2 PHOTON Cl Cl 1.000 mapped to FJX: 21 Cl2 23 Br2 PHOTON Br Br 1.000 mapped to FJX: 19 Br2 24 HOCl PHOTON Cl OH 1.000 mapped to FJX: 22 HOCl 25 OClO PHOTON ClO O 1.000 mapped to FJX: 23 OClO 26 Cl2O2 PHOTON Cl Cl O2 1.000 mapped to FJX: 25 Cl2O2 27 ClO PHOTON Cl O 1.000 mapped to FJX: 26 ClO 28 BrO PHOTON Br O 1.000 mapped to FJX: 27 BrO 29 BrNO3 PHOTON Br NO3 0.850 mapped to FJX: 28 BrNO3 30 BrNO3 PHOTON BrO NO2 0.150 mapped to FJX: 28 BrNO3 31 BrNO2 PHOTON Br NO2 1.000 mapped to FJX: 20 BrNO2 32 HOBr PHOTON Br OH 1.000 mapped to FJX: 29 HOBr 33 BrCl PHOTON Br Cl 1.000 mapped to FJX: 30 BrCl 34 OCS PHOTON SO2 CO 1.000 mapped to FJX: 52 OCS 35 SO2 PHOTON SO O 1.000 no mapping onto fast-JX SO2 36 N2O PHOTON N2 O 1.000 mapped to FJX: 31 N2O 37 CFC11 PHOTON Cl PRODUCTS 1.000 mapped to FJX: 32 CFCl3 38 CFC12 PHOTON Cl PRODUCTS 1.000 mapped to FJX: 33 CF2Cl2 39 CFC113 PHOTON Cl PRODUCTS 1.000 mapped to FJX: 34 F113 40 CFC114 PHOTON Cl PRODUCTS 1.000 mapped to FJX: 35 F114 41 CFC115 PHOTON Cl PRODUCTS 1.000 mapped to FJX: 36 F115 42 CCl4 PHOTON Cl PRODUCTS 1.000 mapped to FJX: 37 CCl4 43 CH3Cl PHOTON Cl PRODUCTS 1.000 mapped to FJX: 38 CH3Cl 44 CH3CCl3 PHOTON Cl PRODUCTS 1.000 mapped to FJX: 39 MeCCl3 45 CH2Cl2 PHOTON Cl PRODUCTS 1.000 mapped to FJX: 40 CH2Cl2 46 HCFC22 PHOTON Cl PRODUCTS 1.000 mapped to FJX: 41 CHF2Cl 47 HCFC123 PHOTON Cl PRODUCTS 1.000 mapped to FJX: 42 F123 48 HCFC141b PHOTON Cl PRODUCTS 1.000 mapped to FJX: 43 F141b 49 HCFC142b PHOTON Cl PRODUCTS 1.000 mapped to FJX: 44 F142b 50 CH3Br PHOTON Br PRODUCTS 1.000 mapped to FJX: 45 CH3Br 51 H1211 PHOTON Br PRODUCTS 1.000 mapped to FJX: 46 H1211 52 H12O2 PHOTON Br PRODUCTS 1.000 mapped to FJX: 46 H1211 53 H1301 PHOTON Br PRODUCTS 1.000 mapped to FJX: 47 H1301 54 H2402 PHOTON Br PRODUCTS 1.000 mapped to FJX: 48 H2402 55 CH2Br2 PHOTON Br PRODUCTS 1.000 mapped to FJX: 49 CH2Br2 56 CHBr3 PHOTON Br PRODUCTS 1.000 mapped to FJX: 50 CHBr3 58 CF3I PHOTON I PRODUCTS 1.000 mapped to FJX: 51 CF3I 59 PAN PHOTON CH3C(O)O2 NO2 1.000 mapped to FJX: 54 PAN 60 R4N2 PHOTON CH3O NO2 1.000 mapped to FJX: 55 CH3NO3 61 ALD2 PHOTON CH3 HCO 1.000 mapped to FJX: 56 ActAld 62 ALD2 PHOTON CH4 CO 1.000 no mapping onto fast-JX ActAlx 63 MVK PHOTON PRPE CO 0.600 mapped to FJX: 57 MeVK 64 MVK PHOTON MCO3 CH2O CO HO2 0.200 mapped to FJX: 57 MeVK 65 MVK PHOTON MO2 RCO3 0.200 mapped to FJX: 57 MeVK 66 MACR PHOTON CO HO2 CH2O MCO 1.000 mapped to FJX: 58 MeAcr 67 MACR PHOTON IMAO3 OH HO2 MCO3 MRO2 CO 0.000 mapped to FJX: 58 MeAcr 68 GLYC PHOTON CH2O HO2 OH CO MOH 1.000 mapped to FJX: 59 GlyAld 69 MEK PHOTON MCO3 EtO2 MO2 RCO 1.000 mapped to FJX: 60 MEKeto 70 RCHO PHOTON EtO2 HO2 CO 1.000 mapped to FJX: 61 PrAld 71 MGLY PHOTON MCO3 CO HO2 1.000 mapped to FJX: 62 MGlyxl 72 GLYX PHOTON HO2 HO2 CO CO 1.000 mapped to FJX: 63 Glyxla 73 GLYX PHOTON H2 CO CO 1.000 mapped to FJX: 64 Glyxlb 74 GLYX PHOTON CH2O CO 1.000 mapped to FJX: 65 Glyxlc 75 HAC PHOTON MeCO3 HCHO HO2 0.600 mapped to FJX: 53 HAC 76 ACET PHOTON MCO3 MO2 1.000 mapped to FJX: 66 Acet-a 77 ACET PHOTON MO2 MO2 CO 1.000 mapped to FJX: 67 Acet-b 78 IDN PHOTON MVK MACR CH2O NO2 GLYC ICN... 1.000 mapped to FJX: 82 ONIT2 79 PRPN PHOTON OH HO2 RCHO NO2 1.000 mapped to FJX: 9 CH3OOH 80 ETP PHOTON OH HO2 ALD2 0.500 mapped to FJX: 9 CH3OOH 81 RA3P PHOTON OH HO2 RCHO 1.000 mapped to FJX: 9 CH3OOH 82 RB3P PHOTON OH HO2 ACET 1.000 mapped to FJX: 9 CH3OOH 83 R4P PHOTON OH HO2 RCHO 1.000 mapped to FJX: 9 CH3OOH 84 PP PHOTON OH HO2 ALD2 CH2 1.000 mapped to FJX: 9 CH3OOH 85 RP PHOTON OH HO2 ALD2 1.000 mapped to FJX: 9 CH3OOH 86 HMHP PHOTON OH OH CH2O 1.000 mapped to FJX: 84 HMHP 87 HPETHNL PHOTON OH CO HO2 CH2O 1.000 mapped to FJX: 77 PrAldP 88 PYAC PHOTON MCO3 CO2 HO2 1.000 mapped to FJX: 62 MGlyxl 89 PROPNN PHOTON NO2 CH2O MCO3 1.000 mapped to FJX: 71 PROPNN 90 MVKHC PHOTON CO HO2 CH2O MCO3 1.000 mapped to FJX: 62 MGlyxl 91 MVKHCB PHOTON GLYX HO2 MCO3 CO MGLY 1.000 mapped to FJX: 61 PrAld 92 MVKHP PHOTON MCO3 GLYC OH HO2 CH2O MGLY 1.000 mapped to FJX: 9 CH3OOH 93 MVKPC PHOTON OH CO MGLY HO2 GLYX MCO3 1.000 mapped to FJX: 77 PrAldP 94 MCRENOL PHOTON CO PYAC OH 1.000 mapped to FJX: 81 ENOL 95 MCRHP PHOTON OH CO HO2 HAC CH2O MGLY 1.000 mapped to FJX: 77 PrAldP 96 MACR1OOH PHOTON OH CO2 MO2 CH2O MCO3 MACR1OOH 1.000 mapped to FJX: 77 PrAldP 97 ATOOH PHOTON OH HO2 RCHO 1.000 mapped to FJX: 9 CH3OOH 98 R4N2 PHOTON NO2 ACET MEK MO2 HO2 ALD2... 1.000 mapped to FJX: 55 CH3NO3 99 MAP PHOTON OH MO2 1.000 mapped to FJX: 9 CH3OOH 100 SO4 PHOTON SO2 OH OH 1.000 mapped to FJX: 5 H2SO4 101 ClOO PHOTON Cl O2 1.000 mapped to FJX: 24 ClOO 102 O3 PHOTON O2 O(1D) 1.000 mapped to FJX: 3 O3(1D) 103 MPN PHOTON HO2 NO3 HCHO 0.050 mapped to FJX: 69 MPN 104 MPN PHOTON MO2 NO2 0.950 mapped to FJX: 69 MPN 105 PIP PHOTON RCHO OH HO2 1.000 mapped to FJX: 8 H2O2 106 ICN PHOTON NO2 CO OH HO2 IDC MVKPC... 1.000 mapped to FJX: 78 ICN 107 ETHLN PHOTON NO2 CH2O CO HO2 1.000 mapped to FJX: 70 ETHLN 108 MVKN PHOTON MCO3 GLYC NO2 ETHLN HO2 OH 1.000 mapped to FJX: 72 MVKN 109 MCRHN PHOTON HAC CO HO2 NO2 1.000 mapped to FJX: 73 MACRN 110 MCRHNB PHOTON PROPNN OH CO HO2 1.000 mapped to FJX: 79 MACRNP 111 MONITS PHOTON MEK NO2 1.000 mapped to FJX: 68 ONIT1 112 MONITU PHOTON RCHO NO2 1.000 mapped to FJX: 68 ONIT1 113 HONIT PHOTON HAC NO2 1.000 mapped to FJX: 68 ONIT1 114 I2 PHOTON I I 1.000 mapped to FJX: 89 I2 115 HOI PHOTON I OH 1.000 mapped to FJX: 90 HOI 116 IO PHOTON I O 1.000 mapped to FJX: 91 IO 117 OIO PHOTON I O2 1.000 mapped to FJX: 92 OIO 118 INO PHOTON I NO 1.000 mapped to FJX: 93 INO 119 IONO PHOTON I NO2 1.000 mapped to FJX: 94 IONO 120 IONO2 PHOTON I NO3 1.000 mapped to FJX: 95 IONO2 121 I2O2 PHOTON I OIO 1.000 mapped to FJX: 96 I2O2 122 CH3I PHOTON I PRODUCTS 1.000 mapped to FJX: 85 CH3I 123 CH2I2 PHOTON I I PRODUCTS 1.000 mapped to FJX: 86 CH2I2 124 CH2ICl PHOTON I Cl PRODUCTS 1.000 mapped to FJX: 87 CH2ICl 125 CH2IBr PHOTON I Br PRODUCTS 1.000 mapped to FJX: 88 CH2IBr 126 I2O4 PHOTON OIO OIO 1.000 mapped to FJX: 96 I2O2 127 I2O3 PHOTON OIO IO 1.000 mapped to FJX: 97 I2O3 128 IBr PHOTON I Br 1.000 mapped to FJX: 99 IBr 129 ICl PHOTON I Cl 1.000 mapped to FJX: 98 ICl 130 NITs PHOTON HNO2 1.000 no mapping onto fast-JX 131 NITs PHOTON NO2 1.000 no mapping onto fast-JX 132 NIT PHOTON HNO2 1.000 no mapping onto fast-JX 133 NIT PHOTON NO2 1.000 no mapping onto fast-JX 134 MENO3 PHOTON NO2 HO2 HCHO 1.000 mapped to FJX: 100 MENO3 135 ETNO3 PHOTON NO2 HO2 ALD2 1.000 mapped to FJX: 101 ETNO3 136 IPRNO3 PHOTON NO2 HO2 ACET 1.000 mapped to FJX: 102 IPRNO3 137 NPRNO3 PHOTON NO2 HO2 RCHO 1.000 mapped to FJX: 103 NPRNO3 138 RIPA PHOTON MVK CH2O OH HO2 1.000 mapped to FJX: 9 CH3OOH 139 RIPB PHOTON MACR CH2O OH HO2 1.000 mapped to FJX: 9 CH3OOH 140 RIPC PHOTON OH HO2 HC5A 1.000 mapped to FJX: 9 CH3OOH 141 RIPD PHOTON OH HO2 HC5A 1.000 mapped to FJX: 9 CH3OOH 142 HPALD1 PHOTON CO OH HO2 IDC MVKPC MCRENOL... 1.000 mapped to FJX: 75 HPALD1 143 HPALD2 PHOTON CO OH HO2 IDC MVKPC MCRENOL... 1.000 mapped to FJX: 76 HPALD2 144 HPALD3 PHOTON CO OH HO2 MVK 1.000 mapped to FJX: 77 PrAldP 145 HPALD4 PHOTON CO OH HO2 MACR 1.000 mapped to FJX: 77 PrAldP 146 IHN1 PHOTON NO2 HC5A HO2 MVKHP CO OH 1.000 mapped to FJX: 68 ONIT1 147 IHN2 PHOTON NO2 MVK HO2 CH2O 1.000 mapped to FJX: 68 ONIT1 148 IHN3 PHOTON NO2 MACR HO2 CH2O 1.000 mapped to FJX: 68 ONIT1 149 IHN4 PHOTON NO2 HC5A HO2 MCRHP CO OH 1.000 mapped to FJX: 68 ONIT1 150 INPB PHOTON NO2 CH2O MVK MACR OH HO2 1.000 mapped to FJX: 74 NITP 151 INPD PHOTON OH HO2 ICN INA 1.000 mapped to FJX: 9 CH3OOH 152 INPD PHOTON NO2 IHOO1 IHOO4 1.000 mapped to FJX: 68 ONIT1 153 ICPDH PHOTON CO HO2 OH MCRHP MVKDH MCRDH 1.000 mapped to FJX: 61 PrAld 154 ICPDH PHOTON OH HO2 CH2O MVKHCB HAC GLYX... 1.000 mapped to FJX: 9 CH3OOH 155 IDHDP PHOTON OH GLYC HAC ICPDH HO2 1.000 mapped to FJX: 83 HP2 156 IDHPE PHOTON OH HO2 MGLY GLYC GLYX HAC 1.000 mapped to FJX: 9 CH3OOH 157 IDCHP PHOTON OH HO2 CO MVKHC MVKHCB MVKPC 1.000 mapped to FJX: 77 PrAldP 158 ITHN PHOTON OH HO2 CH2O MCRHN GLYC HAC... 1.000 mapped to FJX: 9 CH3OOH 159 ITHN PHOTON NO2 HAC HO2 HPETHNL OH GLYC... 1.000 mapped to FJX: 68 ONIT1 160 ITCN PHOTON MGLY OH NO2 GLYC 1.000 mapped to FJX: 79 MACRNP 161 ITCN PHOTON MVKHP MCRHP CO NO2 HO2 1.000 mapped to FJX: 61 PrAld 162 ETHP PHOTON ETO OH 1.000 mapped to FJX: 9 CH3OOH 163 BALD PHOTON BENZO2 HO2 CO 0.060 mapped to FJX: 104 BALD 164 BZCO3H PHOTON BENZO2 OH CO2 1.000 mapped to FJX: 9 CH3OOH 165 BENZP PHOTON BENZO 1.000 mapped to FJX: 9 CH3OOH 166 NPHEN PHOTON HNO2 CO CO2 AROMP4 HO2 1.000 mapped to FJX: 71 PROPNN FAST-JX (RD_AOD): Opening /BIGDATA2/sysu_lux_5/ExtData/CHEM_INPUTS/FAST_JX/v2021-10/so4.dat so4 RRTMG LUT interpolated from GADS (DAR 09/2013) V0.1 - contains Fast-J wavelengths but is the same as the original jv_spec.dat FAST-JX (RD_AOD): Opening /BIGDATA2/sysu_lux_5/ExtData/CHEM_INPUTS/FAST_JX/v2021-10/soot.dat soot RRTMG LUT interpolated from GADS (DAR 09/2013) V0.1 - contains Fast-J wavelengths but is the same as the original jv_spec.dat FAST-JX (RD_AOD): Opening /BIGDATA2/sysu_lux_5/ExtData/CHEM_INPUTS/FAST_JX/v2021-10/org.dat org RRTMG LUT interpolated from GADS (DAR 09/2013) V0.1 - contains Fast-J wavelengths but is the same as the original jv_spec.dat FAST-JX (RD_AOD): Opening /BIGDATA2/sysu_lux_5/ExtData/CHEM_INPUTS/FAST_JX/v2021-10/ssa.dat ssa RRTMG LUT interpolated from GADS (DAR 09/2013) V0.1 - contains Fast-J wavelengths but is the same as the original jv_spec.dat FAST-JX (RD_AOD): Opening /BIGDATA2/sysu_lux_5/ExtData/CHEM_INPUTS/FAST_JX/v2021-10/ssc.dat ssc RRTMG LUT interpolated from GADS (DAR 09/2013) V0.1 - contains Fast-J wavelengths but is the same as the original jv_spec.dat FAST-JX (RD_AOD): Opening /BIGDATA2/sysu_lux_5/ExtData/CHEM_INPUTS/FAST_JX/v2021-10/h2so4.dat h2so4 RRTMG LUT interpolated from GADS (DAR 09/2013) V0.1 - contains Fast-J wavelengths but is the same as the original jv_spec.dat FAST-JX (RD_AOD): Opening /BIGDATA2/sysu_lux_5/ExtData/CHEM_INPUTS/FAST_JX/v2021-10/h2so4.dat h2so4 RRTMG LUT interpolated from GADS (DAR 09/2013) V0.1 - contains Fast-J wavelengths but is the same as the original jv_spec.dat FAST-JX (RD_AOD): Opening /BIGDATA2/sysu_lux_5/ExtData/CHEM_INPUTS/FAST_JX/v2021-10/dust.dat dust RRTMG LUT interpolated from GADS (DAR 09/2013) V0.1 - contains Fast-J wavelengths but is the same as the original jv_spec.dat Wavelength optics read successfully N WAVELENGTHS: 1 WAVELENGTH REQUESTED: 550.00000000000000 WAVELENGTH REQUIRED: 1 ********************************* Using Aerosol type: 3 ABSRB = fully absorbing 'soot', wavelength indep. Using Aerosol type: 10 W_C08 = water cloud (C1/Deirm.) (n=1.335, gamma: r-mode=8.0um / alpha=6) Using Aerosol type: 14 Ice-I = irregular ice cloud (Mishchenko) Using Aerosol type: 15 Mdust 0.15 = mineral dust (R.V.Martin) Using Aerosol type: 16 Mdust 0.25 = mineral dust (R.V.Martin) Using Aerosol type: 17 Mdust 0.4 = mineral dust (R.V.Martin) Using Aerosol type: 18 Mdust 0.8 = mineral dust (R.V.Martin) Using Aerosol type: 19 Mdust 1.5 = mineral dust (R.V.Martin) Using Aerosol type: 20 Mdust 2.5 = mineral dust (R.V.Martin) Using Aerosol type: 21 Mdust 4.0 = mineral dust (R.V.Martin) Using Aerosol type: 22 S00(dar) Trop sulphate, RH=00 (n@550=1.53-0.01i log-norm: r=.07um/sigma=1.6) Using Aerosol type: 23 S50(dar) Trop sulphate, RH=50 (n@550=1.44 0.00i log-norm: r=.09um/sigma=1.6) Using Aerosol type: 24 S70(dar) Trop sulphate, RH=70 (n@550=1.41 0.00i log-norm: r=.09um/sigma=1.6) Using Aerosol type: 25 S80(dar) Trop sulphate, RH=80 (n@550=1.40 0.00i log-norm: r=.10um/sigma=1.6) Using Aerosol type: 26 S90(dar) Trop sulphate, RH=90 (n@550=1.38 0.00i log-norm: r=.11um/sigma=1.6) Using Aerosol type: 29 BC00(rvm) Black C, RH=00 (n@550=1.75-.44i log-norm: r_g=.02um/sigma=1.6) Using Aerosol type: 30 BC50(rvm) Black C, RH=50 (n@550=1.75-.44i log-norm: r_g=.02um/sigma=1.6) Using Aerosol type: 31 BC70(rvm) Black C, RH=70 (n@550=1.75-.44i log-norm: r_g=.02um/sigma=1.6) Using Aerosol type: 32 BC80(rvm) Black C, RH=80 (n@550=1.57-.25i log-norm: r_g=.02um/sigma=1.6) Using Aerosol type: 33 BC90(rvm) Black C, RH=90 (n@550=1.48-.16i log-norm: r_g=.02um/sigma=1.6) Using Aerosol type: 36 OC00(rvm) Organic C, RH=00 (n@550=1.53-.006i log-norm: r_g=.07um/sigma=1.6) Using Aerosol type: 37 OC50(rvm) Organic C, RH=50 (n@550=1.46-.004i log-norm: r_g=.08um/sigma=1.6) Using Aerosol type: 38 OC70(rvm) Organic C, RH=70 (n@550=1.44-.003i log-norm: r_g=.08um/sigma=1.6) Using Aerosol type: 39 OC80(rvm) Organic C, RH=80 (n@550=1.43-.003i log-norm: r_g=.09um/sigma=1.6) Using Aerosol type: 40 OC90(rvm) Organic C, RH=90 (n@550=1.41-.002i log-norm: r_g=.09um/sigma=1.6) Using Aerosol type: 43 SSa00(rvm) Sea Salt (accum), RH=00 (n@550=1.50 log-norm: r=.09um/sigma=1.5) Using Aerosol type: 44 SSa50(rvm) Sea Salt (accum), RH=50 (n@550=1.37 log-norm: r=.14um/sigma=1.5) Using Aerosol type: 45 SSa70(rvm) Sea Salt (accum), RH=70 (n@550=1.36 log-norm: r=.15um/sigma=1.5) Using Aerosol type: 46 SSa80(rvm) Sea Salt (accum), RH=80 (n@550=1.35 log-norm: r=.17um/sigma=1.5) Using Aerosol type: 47 SSa90(rvm) Sea Salt (accum), RH=90 (n@550=1.34 log-norm: r=.20um/sigma=1.5) Using Aerosol type: 50 SSc00(rvm) Sea Salt (coarse), RH=00 (n@550=1.50 log-norm: r=0.4um/sigma=1.8) Using Aerosol type: 51 SSc50(rvm) Sea Salt (coarse), RH=50 (n@550=1.37 log-norm: r=0.6um/sigma=1.8) Using Aerosol type: 52 SSc70(rvm) Sea Salt (coarse), RH=70 (n@550=1.36 log-norm: r=0.7um/sigma=1.8) Using Aerosol type: 53 SSc80(rvm) Sea Salt (coarse), RH=80 (n@550=1.35 log-norm: r=0.8um/sigma=1.8) Using Aerosol type: 54 SSc90(rvm) Sea Salt (coarse), RH=90 (n@550=1.34 log-norm: r=1.0um/sigma=1.8) Using Aerosol type: 4 S_Bkg = backgrnd stratospheric sulfate (n=1.46, log-norm: r=.09um/sigma=.6) Using Aerosol type: 14 Ice-I = irregular ice cloud (Mishchenko) =============================================================================== Photo rxn flags saved for use in PHOTRATE_ADJ: RXN_O2 [ O2 + hv -> O + O ] = 1 RXN_O3_1 [ O3 + hv -> O2 + O ] = 2 RXN_O3_2a [ O3 + hv -> O2 + O(1D) #1 ] = 102 RXN_JNITSa [ NITS + hv -> HNO2 ] = 130 RXN_JNITSb [ NITS + hv -> NO2 ] = 131 RXN_JNITa [ NIT + hv -> HNO2 ] = 132 RXN_JNITb [ NIT + hv -> NO2 ] = 133 RXN_H2SO4 [ SO4 + hv -> SO2 + OH + OH ] = 100 RXN_NO2 [ NO2 + hv -> NO + O ] = 11 =============================================================================== O2 : 1 141 1.0000 O3 : 2 143 1.0000 O3 : 3 120 1.0000 NO : 6 115 1.0000 CH2O : 7 23 1.0000 CH2O : 8 23 1.0000 H2O2 : 9 45 1.0000 MP : 10 102 1.0000 NO2 : 11 116 1.0000 NO3 : 12 117 0.8860 NO3 : 13 117 0.1140 N2O5 : 14 112 1.0000 HNO2 : 15 53 1.0000 HNO3 : 16 54 1.0000 HNO4 : 17 55 0.0500 HNO4 : 18 55 0.9500 ClNO3 : 19 33 1.0000 ClNO3 : 20 33 1.0000 ClNO2 : 21 32 1.0000 Cl2 : 22 30 1.0000 Br2 : 23 6 1.0000 HOCl : 24 57 1.0000 OClO : 25 121 1.0000 Cl2O2 : 26 31 1.0000 ClO : 27 34 1.0000 BrO : 28 10 1.0000 BrNO3 : 29 9 0.8500 BrNO3 : 30 9 0.1500 BrNO2 : 31 8 1.0000 HOBr : 32 56 1.0000 BrCl : 33 7 1.0000 OCS : 34 122 1.0000 N2O : 36 111 1.0000 CFC11 : 37 13 1.0000 CFC12 : 38 17 1.0000 CFC113 : 39 14 1.0000 CFC114 : 40 15 1.0000 CFC115 : 41 16 1.0000 CCl4 : 42 12 1.0000 CH3Cl : 43 26 1.0000 CH3CCl3 : 44 25 1.0000 CH2Cl2 : 45 19 1.0000 HCFC22 : 46 51 1.0000 HCFC123 : 47 48 1.0000 HCFC141b : 48 49 1.0000 HCFC142b : 49 50 1.0000 CH3Br : 50 24 1.0000 H1211 : 51 42 1.0000 H1301 : 53 43 1.0000 H2402 : 54 44 1.0000 CH2Br2 : 55 18 1.0000 CHBr3 : 56 28 1.0000 PAN : 59 124 1.0000 R4N2 : 60 130 1.0000 ALD2 : 61 2 1.0000 ALD2 : 62 2 1.0000 MVK : 63 105 0.6000 MVK : 64 105 0.2000 MVK : 65 105 0.2000 MACR : 66 90 1.0000 MACR : 67 90 0.0000 GLYC : 68 40 1.0000 MEK : 69 97 1.0000 RCHO : 70 134 1.0000 MGLY : 71 99 1.0000 GLYX : 72 41 1.0000 GLYX : 73 41 1.0000 GLYX : 74 41 1.0000 HAC : 75 46 0.6000 ACET : 76 1 1.0000 ACET : 77 1 1.0000 IDN : 78 76 1.0000 PRPN : 79 128 1.0000 ETP : 80 39 0.5000 RA3P : 81 132 1.0000 RB3P : 82 133 1.0000 R4P : 83 131 1.0000 PP : 84 126 1.0000 RP : 85 139 1.0000 HMHP : 86 52 1.0000 HPETHNL : 87 64 1.0000 PYAC : 88 129 1.0000 PROPNN : 89 127 1.0000 MVKHC : 90 106 1.0000 MVKHCB : 91 107 1.0000 MVKHP : 92 108 1.0000 MVKPC : 93 110 1.0000 MCRENOL : 94 93 1.0000 MCRHP : 95 96 1.0000 MACR1OOH : 96 91 1.0000 ATOOH : 97 3 1.0000 R4N2 : 98 130 1.0000 MAP : 99 92 1.0000 SO4 : 100 140 1.0000 ClOO : 101 35 1.0000 O3 : 102 142 1.0000 MPN : 103 104 0.0500 MPN : 104 104 0.9500 PIP : 105 125 1.0000 ICN : 106 71 1.0000 ETHLN : 107 36 1.0000 MVKN : 108 109 1.0000 MCRHN : 109 94 1.0000 MCRHNB : 110 95 1.0000 MONITS : 111 100 1.0000 MONITU : 112 101 1.0000 HONIT : 113 59 1.0000 I2 : 114 65 1.0000 HOI : 115 58 1.0000 IO : 116 84 1.0000 OIO : 117 123 1.0000 INO : 118 81 1.0000 IONO : 119 85 1.0000 IONO2 : 120 86 1.0000 I2O2 : 121 66 1.0000 CH3I : 122 27 1.0000 CH2I2 : 123 20 1.0000 CH2ICl : 124 22 1.0000 CH2IBr : 125 21 1.0000 I2O4 : 126 68 1.0000 I2O3 : 127 67 1.0000 IBr : 128 69 1.0000 ICl : 129 70 1.0000 NITs : 130 114 1.0000 NITs : 131 114 1.0000 NIT : 132 113 1.0000 NIT : 133 113 1.0000 MENO3 : 134 98 1.0000 ETNO3 : 135 38 1.0000 IPRNO3 : 136 87 1.0000 NPRNO3 : 137 119 1.0000 RIPA : 138 135 1.0000 RIPB : 139 136 1.0000 RIPC : 140 137 1.0000 RIPD : 141 138 1.0000 HPALD1 : 142 60 1.0000 HPALD2 : 143 61 1.0000 HPALD3 : 144 62 1.0000 HPALD4 : 145 63 1.0000 IHN1 : 146 77 1.0000 IHN2 : 147 78 1.0000 IHN3 : 148 79 1.0000 IHN4 : 149 80 1.0000 INPB : 150 82 1.0000 INPD : 151 83 1.0000 INPD : 152 83 1.0000 ICPDH : 153 72 1.0000 ICPDH : 154 72 1.0000 IDHDP : 155 74 1.0000 IDHPE : 156 75 1.0000 IDCHP : 157 73 1.0000 ITHN : 158 89 1.0000 ITHN : 159 89 1.0000 ITCN : 160 88 1.0000 ITCN : 161 88 1.0000 ETHP : 162 37 1.0000 BALD : 163 4 0.0600 BZCO3H : 164 11 1.0000 BENZP : 165 5 1.0000 NPHEN : 166 118 1.0000 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%% HEMCO: Harmonized Emissions Component %%%%% %%%%% You are using HEMCO version 3.7.2 %%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% Reading settings & switches of HEMCO configuration file: HEMCO_Config.rc HEMCO verbose output is OFF Reading fields of HEMCO configuration file: HEMCO_Config.rc Using HEMCO extension: ParaNOx (ship emission plumes) HEMCO (PARANOX): Opening /BIGDATA2/sysu_lux_5/ExtData/HEMCO/PARANOX/v2015-02/ship_plume_lut_02ms.txt HEMCO (PARANOX): Opening /BIGDATA2/sysu_lux_5/ExtData/HEMCO/PARANOX/v2015-02/ship_plume_lut_06ms.txt HEMCO (PARANOX): Opening /BIGDATA2/sysu_lux_5/ExtData/HEMCO/PARANOX/v2015-02/ship_plume_lut_10ms.txt HEMCO (PARANOX): Opening /BIGDATA2/sysu_lux_5/ExtData/HEMCO/PARANOX/v2015-02/ship_plume_lut_14ms.txt HEMCO (PARANOX): Opening /BIGDATA2/sysu_lux_5/ExtData/HEMCO/PARANOX/v2015-02/ship_plume_lut_18ms.txt HEMCO (LIGHTNOX): Opening /BIGDATA2/sysu_lux_5/ExtData/HEMCO/LIGHTNOX/v2014-07/light_dist.ott2010.dat Using HEMCO extension: LightNOx (lightning NOx emissions Using HEMCO extension: Volcano (volcanic SO2 emissions) Using HEMCO extension: SeaFlux (air-sea flux emissions) Using HEMCO extension: SoilNOx (soil NOx emissions) Using HEMCO extension: SeaSalt (sea salt aerosol emissions) Using HEMCO extension: MEGAN (biogenic emissions) Using HEMCO extension: GFED (biomass burning) Using HEMCO extension: Inorg_Iodine (HOI and I2 emissions) UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O_01.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O1D_01.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO_01.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO2_01.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO3_01.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JN2O_01.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O_02.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O1D_02.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO_02.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO2_02.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO3_02.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JN2O_02.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O_03.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O1D_03.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO_03.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO2_03.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO3_03.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JN2O_03.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O_04.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O1D_04.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO_04.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO2_04.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO3_04.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JN2O_04.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O_05.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O1D_05.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO_05.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO2_05.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO3_05.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JN2O_05.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O_06.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O1D_06.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO_06.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO2_06.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO3_06.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JN2O_06.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O_07.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O1D_07.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO_07.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO2_07.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO3_07.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JN2O_07.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O_08.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O1D_08.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO_08.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO2_08.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO3_08.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JN2O_08.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O_09.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O1D_09.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO_09.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO2_09.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO3_09.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JN2O_09.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O_10.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O1D_10.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO_10.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO2_10.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO3_10.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JN2O_10.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O_11.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O1D_11.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO_11.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO2_11.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO3_11.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JN2O_11.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O_12.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_O1D_12.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO_12.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO2_12.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JNO3_12.dat UCX (SFCMR_READ): Opening ./ChemDir/UCX_201403/NoonTime/Grid2x25/InitCFC_JN2O_12.dat Mem/Swap Used (MB) at DYNAMICSMAPL_GenericInitialize= 6.691E+03 0.000E+00 Mem/Swap Used (MB) at GCHPMAPL_GenericInitialize= 6.724E+03 0.000E+00 oserver is not split EXPSRC: EXPID: OutputDir/GEOSChem Descr: GEOS-Chem_devel DisableSubVmChecks: F Reading HISTORY RC Files: ------------------------- NOT using buffer I/O for file: HISTORY.rc NOT using buffer I/O for file: DefaultCollection.rcx Setting history alarm for species 1 RingTime: 2019/07/01T00:00 backwards:F Clock Timestep = 00:10 Current Time: 2019/07/01T00:00 backwards:F Freq: 00240000 Dur: 00240000 TM: -1 Collection: DefaultCollection Independent Output Export States: --------------------------------- 1 GCHPchem Initializing Output Stream: DefaultCollection --------------------------- Format: CFIO Mode: time-averaged Nbits: 100 Slices: 869 Deflate: 0 Frequency: 240000 Acc_Interval: 240000 Ref_Date: 20190701 Ref_Time: 0 Duration: 240000 XY-offset: 0 (DcPc: Dateline Center, Pole Center) Fields: SpeciesConcVV_O3 SpeciesConcVV_NO SpeciesConcVV_NO2 SpeciesConcVV_OH SpeciesConcVV_CO PM25 Met_T Met_RH Met_PBLH Met_AIRDEN Met_PMID Met_PMIDDRY Met_TropHt Met_TropP Met_BXHEIGHT Met_PS1DRY Met_PS1WET Mem/Swap Used (MB) at HISTMAPL_GenericInitialize= 6.772E+03 0.000E+00 Mem/Swap Used (MB) at EXTDATAMAPL_GenericInitialize= 6.785E+03 0.000E+00