################################# ##### Grid Specifications ##### ################################# im: III # I gridpoints jm: JJJ # J gridpoints lm: KKK # Number of atmospheric layers tph0d: TPHD # Central geographic latitude of grid (degrees) tlm0d: TLMD # Central geographic longitude of grid (degrees, positive east) wbd: WBD # Grid's western boundary (rotated degrees) sbd: SBD # Grid's southern boundary (rotated degrees) ################################ ##### Grid Decomposition ##### ################################ inpes: INPES # Number of compute tasks in the I direction jnpes: JNPES # Number of compute tasks in the J direction ################################# #### Specify the I/O tasks #### ################################# quilting: true # Do you want asynchronous quilting/history writes? write_groups: 1 write_tasks_per_group: WRTSK ############################################ ##### Fundamental Timestep (seconds) ##### ############################################ dt_int: DTINT # Integer seconds dt_num: 0 # Numerator of fractional second dt_den: 1 # Denominator of fractional second filt_dt_int: DTINT # Filter integer seconds filt_dt_num: 0 # Filter numerator of fractional sec filt_dt_den: 1 # Filter denominator of fractional sec ################################# ##### Forecast Start Time ##### ################################# start_year: YYYY start_month: MM start_day: DD start_hour: HH start_minute: 0 start_second: 0 ############################################################# ##### Forecast Length / Restarting / Output Frequency ##### ############################################################# nhours_fcst: LLL # Length of the forecast (hours) minutes_history: STT # Frequency of history output (minutes) nhours_dfini: 0 restart: false # True--> A restarted run minutes_restart: 720 # Frequency of restart output (minutes) avg_max_length: 3600 # Time in seconds when averaged fields are reset rst_out_00: false # True--> Write 00h history in restarted run write_last_restart: true # True--> Write last restart file freerun: true # True--> Original # False--> 5X divergence dumping in NDAS forec. ########################### ##### General Modes ##### ########################### global: DOM # True--> Global ; False--> Regional hydro: false # True--> Hydrostatic ; False--> Nonhydrostatic adiabatic: false # True--> Adiabatic ; False--> Diabatic oper: false ########################### ##### Printouts ##### ########################### print_all: true # Print all statements to err file print_diag: true # Print diagnostics (CALL FIELD_STATS) print_esmf: false # Print ESMF return signals print_output: false # Print info on records written into history/restart file print_timing: true # Print timing info (CPU time) NetCDF_4D_out: true # Limit NetCDF arrays to 4 dimensions maximum #################### ##### Ensemble ##### #################### ENS_SPS: false RUN_CONTINUE: false total_member: 1 PE_MEMBER01: 0 ###################### ##### Dynamics ##### ###################### secadv: true # True--> 2nd order advection ; False--> 4th order advection smag2: 0.2 # Smagorinsky constant for 2nd order diffusion codamp: 9.0 # Divergence damping constant wcor: 0.2 # Divergence correction factor idtadt: 2 # Number of adjustment timesteps between tracer advection calls (normally 1) #num_tracers_chem: 8 # Number of specified chem/aerosol "tracer" scalars lnsh: 1 # Number of boundary blending rows for H points lnsv: 1 # Number of boundary blending rows for V points #MONARCH ##################################################### ##### Aerosol - chem species and number of bins ##### ##################################################### num_tracers_chem: NCHEM # Number of specified chem/aerosol "tracer" scalars #AEROSOLS (true if >1, false if =0) num_ash: 0 # Number of volcanic ash bins num_dust: NDUST # Number of dust transport bins (only 8 works - 4 also planned) - if num_dust:0 --> don't run dust num_salt: 0 # Number of sea salt tranport bins (only 8 works) num_om: 0 # Number of organic matter transport bins (only 7 works - hydrophobic/hydrophilic) # 1:POM phob., 2:POM phil., 3:Dentener SOA phob. or not used in Tsigaridis SOA # 4:Dentener SOA phil. or Tsigaridis SOA ISOPP1A, 5:Tsigaridis SOA ISOPP2A # 6:Tsigaridis SOA APIN1A, 7:Tsigaridis SOA APIN2A num_bc: 0 # Number of black carbon transport bins (only works 2 - hydrophobic/hydrophilic) num_so4: 0 # Number of sulphate transport bins (only works 1 - bulk SO4 aerosol) num_no3: 0 # Number of nitrate transport bins (not active - 3?) num_nh4: 0 # Number of ammonium transport bins (not active - 1?) num_unspc: 0 # Number of unspeciated transport bins (2 planned) num_aero_uci: 0 # Number of secondary aerosols bins in uci_aerosols (not active) bc_aero: false # Do we have aerosol BC for parent domain on regional runs #GAS CHEMISTRY MECHANISM chem_mech: 0 # 0 no gas chemistry # 1 CB-IV chemical mechanism from KPP 32(gases) # 2 CBM05 chemical mechanism from KPP 53(gases) # 22 CBM05 chemical mech. with EBI-solver from CMAQ 53(gases) # 3 CBM05+NH3 chemical mech. with EBI-solver from CMAQ 73(gases) # 4 gas tracer 1=1(aero) # 6 SU-SOA-GLOBAL MECHANISM 40=16(du_ss)+10(om_bc_su)+14(gas) # 7 NH4-NO3-SO4-SOA-GLOBAL MECHANISM 44=16(du_ss)+10(om_bc_su)+3(no3_nh4)+xx(gases) # 37 CBM05+MECH_7_AERO 107=77(gases)+30(aerosols_bin) do_partmc: false # flag indicating whether to solve chemistry with PartMC-PhlexChem chem_ste: 0 # 0 no stratosphere ozone # 1 Cariollev2.9 linear Strt. ozone model # 2 Climatology # 3 COPCAT linear Strt. ozone model chem_ic: CCCC # 0 initialize from ideal conditions # 1 initialize from a previous run # 2 initialize from inca chem data # 3 initialize from global nmmb-ctm run # 4 initialize from a previous run of different resolution num_bc_chem: 0 # Number of chemical species in BC for parent domain on regional runs nemis: 4 # Number of dynamics timesteps between reads to emission files nphot: 20 # Number of dynamics timesteps between recompute photolysis rates idtad_chem: 2 # Number of adjustment timesteps between aerosol/chem advection calls ngas: 4 # Number of dynamics timesteps between calls to gas-phase chemistry dcal: BBBB # Dust emission calibration factor # 0.3*2.*0.8*1.6 !Paper Perez et al. (2011) Global 1ºx1.4º # 0.15*1.7 !analysis initial data 0.25x0.25x40 # 0.3 !Reanalysis 2 - GLDAS 0.5x0.5x40 vert regional dcalbin1: PERT1 # Perturbabion for the calibration factor (dust emission) per bin dcalbin2: PERT2 dcalbin3: PERT3 dcalbin4: PERT4 dcalbin5: PERT5 dcalbin6: PERT6 dcalbin7: PERT7 dcalbin8: PERT8 perturb_usth: PEUS1 #Perturbabion for the threshold on the friction velocity (dust emission) couple_dust: EEEE # True--> dust from history file; False--> no initial dust couple_netcdf: true # True--> history file in netcdf; False--> history file in binary recycle_soil: true # True--> smc,stc,sh2o from history file; False--> smc,stc,sh2o from global analysis num_veg: 99 # Number of landuse types (see vegtypes in dust_start.f) nhrs_spinup: SFFF # hours of spin-up fecan: FFFF # Fecan coefficient (typically >= 1) smccoef: SMCCOEF # soil moisture scaling (typically <= 1) # recommended to use either fecan or smccoef and not both at the same time cthr: CTHR # erosion threshold scaling (typically <= 1) bcl_mp_c: BMPC # tuning factor for coarse dust below cloud scavenging (grid scale clouds) bcl_mp_m: BMPM # tuning factor for medium dust below cloud scavenging (grid scale clouds) bcl_mp_f: BMPF # tuning factor for fine dust below cloud scavenging (grid scale clouds) bcl_bmj_c: BBMJC # tuning factor for coarse dust below cloud scavenging (convective clouds) bcl_bmj_m: BBMJM # tuning factor for medium dust below cloud scavenging (convective clouds) bcl_bmj_f: BBMJF # tuning factor for fine dust below cloud scavenging (convective clouds) icl_mp: IMP # tuning factor for dust incloud scavenging (grid scale clouds) icl_bmj: IBMJ # tuning factor for dust incloud scavenging (convective clouds) vsed5: VSED5 # correction factor of sedimentation velocity for bin 5 dust to correct for diffusive scheme vsed6: VSED6 # correction factor of sedimentation velocity for bin 6 dust to correct for diffusive scheme vsed7: VSED7 # correction factor of sedimentation velocity for bin 7 dust to correct for diffusive scheme vsed8: VSED8 # correction factor of sedimentation velocity for bin 8 dust to correct for diffusive scheme sedim_type: SEDIM_TYPE # sedimentation scheme (0-implicit,1 explicit) both upwind (pretty diffusive) vdry: VDRY # tuning factor for dry deposition velocity (excluding gravitational settling) src: SRC # 0 Old topographic source from Ginoux et al. (2001) derived at 0.25 degrees (DUSCHEME=0-7) # 1 New MODIS DB C6 based foo derived at 0.1 degrees (both natural and antropogenic together) (DUSCHEME=0-7) # 2 New MODIS DB C6 based foo derived at 0.1 degrees (tagged natural and antropogenic) (DUSCHEME=0-7) # 3 Like #1 to identify the location of sources but like #0 (topo) for the calculation of the vertical flux (DUSCHEME=0,1,2) # 4 Like #2 to identify the location of sources but like #0 (topo) for the calculation of the vertical flux (DUSCHEME=0,1,2) # (#3 and #4 are equivalent to #1 and #2 respectively in the case of DUSCHEME>=3) # (For the options above, in the case of DUSCHEME>=3 (Kok, Shao, Klose), SRC is only used to identify the location of the sources) # 5 No source based on topo or MODIS (only DMASK) and no tagging # 6 No source based on topo or MODIS (only DMASK) and tagging for anthropogenic and natural based on MODIS DB dmask: DMASK # 0 Standard desert mask based on monthly vegetation fraction (Perez et al. 2011) # (If SRC=0 it uses the fixed and already masked topo source) # 1 Based on MODIS C5 monthly LAI for the specific year (available for 2003 to 2014) # 2 Based on MODIS C5 monthly LAI climatology (2003 to 2014) # 3 Based on Landsat and MODIS reflectance (Guerschman et al. 2015) (monthly data, 01/2001 to 08/2018) # 4 Based on Landsat and MODIS reflectance (Guerschman et al. 2015) (monthly climatology, 2001-2017) vegf_uni: VEGF_UNI # 0 Use default USGS climatological vegetation for meteorology and land-surface while using vegetation from DMASK/DRAG_PART for dust # 1 Use same vegetation (Guerschman et al. 2015) for meteorology and land-surface as for dust (only applies if DMASK = 3 or 4 and DRAG_PART = 4) szdstr: SZDSTR # 0 Emitted size distribution from D'Almeida # 1 Emitted size distribution from Kok # 2 Emitted size distribution from Ginoux et al. (2001) duscheme: DUSCHEME # 0 Marticorena and Bergametti, NMMB default dust emission scheme (Perez et al 2011) # 1 GOCART dust emission scheme from Paul Ginoux using 10 m wind (Klose et al., 2020) # 2 GOCART dust emission scheme from Paul Ginoux using friction velocity (Klose et al., 2020) # 3 KOK dust emission scheme (Kok et al. 2014) # 4 SHAO (2001), JGR # 5 SHAO (2004), JGR # 6 SHAO et al. (2011), JGR - simplification of #5 vslayer: VSLAYER # 0 NMMB default with viscous sublayer # 1 no viscous sublayer (only applies for NMMB default dust scheme) smccor: SMCCOR # soil moisture correction for threshold friction velocity in DUSCHEMES 0-6 (DUSCHEME 7 has different treatment) # 0 default (2 for DUSCHEME 0; 1 for DUSCHEMES 1-2; 3 for DUSCHEME 3; 4 for DUSCHEMES 4-6) # 1 Belly (1964)/Ginoux et al. (2001) # 2 Fecan et al. (1999) - grav. soil moisture, fixed coefficients (Zender et al., 2003, Perez et al., 2011) # 3 Shao and Jung (2000), Klose et al. (2014) - vol. soil moisture, soil-texture dependent coefficients dragpart: DRAG_PART # 0 no drag partition scheme in the emission # 1 drag partition forllowing Marticorena with X parameter = 10. # 2 drag partition forllowing Marticorena with X parameter = 12255. # 3 drag partition forllowing Marticorena with X parameter = 40. # 4 drag partition following Raupach 1993 (automatically chosen for DUSCHEME >= 4) # [vegetation fraction product determined by DMASK: DMASK=3-4 -> new Guerschman vegetation; else -> USGS climatology] ustdp: USTDP # 0 apply drag partition to ustt # 1 apply drag partition to ust dext: DEXT # 0 default dust extinction (spherical particles) # 1 dust extinction assuming tri-axial spheroids ################################################### ##### Aerosol/chem species processes ############## ##### for model testing ########################### ##### true or false for the different processes ### ################################################### diff_chem: true # Lateral diffusion for chem/aerosol species adv_chem: true # Horizontal and vertical advection for chem/aerosol species sedim: false # Aerosol sedimentation (in vertical advection dynamics_grid_comp) incloud_conv: true # Aerosol In-cloud scavenging from convective clouds bcloud_conv: true # Aerosol below-cloud scavenging from convective clouds incloud_strt: true # Aerosol in-cloud scavenging from stratiform clouds bcloud_strt: true # Aerosol below-cloud scavenging from stratiform clouds conv_trans: true # Convective adjustment of aerosol/chem arrays vdiff_chem: true # vertical diffusion dry_dep: true # Aerosol dry deposition newsedim: true # new aerosol sedimentation in physics_grid_comp nsedim: 4 #adjustment steps between new sedimentation calls lchemon: false # Turn on gas-phase chemistry lemis: true # Gas-phase emissions lemiline: false # Online computation of biogenic emissions lcnst: 0 # Constant emissions 0. variable 1. constant lnewemiss: 7 # 0 Emissions from wrfchem # 1 Emissions from mozart (Emmons et al.,2010) # 2 Emissions from ACCMIP (Lamarque et al.,2010) # 3 Emissions from AQMEII-Phase 2 EU # 4 Emissions from Fukushima # 5 Emissions from ACCMIP BC AND OC # 6 Emissions from CALIOPE-GFAS regional run # 7 Emissions from HERMESv3_monthly-GFAS_daily global run # 8 Emissions from HERMESv3_hourly-GFAS_daily global run lbiomod: 2 # If online biog emiss 1. simple scheme 2. megan scheme lconvemi: 1. # Factor for anthr. emissions input to model lnum_lay_emiss: 6 # Num. vert. layers in emission file 1. mozart 6. poet lnum_emiss_vert: 1 # Difusion of 1st emission layer in n first layers lphot: true # Gas-phase photolysis ldrydep: true # Gas-phase dry deposition lcldchem: true # Gas-phase cloud chemistry lrescld: true # Grid-scale cloud chemistry lconvcld: true # Subgrid-scale cloud chemistry lchem: false # Gas-phase chemical mechanism ########################################################### ##### Aerosol/chem species radiation interaction ########## ##### Only works with RRTM new (rrtmn - see below)######### ########################################################### slfari: 11 # flag for ARI LW/SW calculations (old IAER) # : 0 -> no ARI # : 1 -> only SW # : 10 -> only LW # : 11 -> LW + SW # : 1** -> as before + volcanic ash (always from OPAC) mdlari: XMDL # flag for ARI module (XMDL in proj_*.conf) # : 0 -> OPAC climatology # : 3 -> MONARCH dynamic coupling mlcari: XMLC # flag for multiple call (XMLC in proj_*.conf) # : 0 -> no DRE # : 1 -> DRE of all types # : 2 -> DRE of single types (alone) + all types # : 3 -> DRE of single types (missing) + all types tblari: XTBL # flag for optical table (XTBL in proj_*.conf) # : 1 -> OPAC refractive indices (homogeneous dust components) # : 2 -> OPAC refractive indices + emission p50 for dust imaginary index in (0.25-2.00)µm # : 3 -> mineral refractive indices: external mixing # : 4 -> mineral refractive indices: internal mixing for hematite-clays (Maxwell-Garnett mixing rule) nspari: 10 # number of available aerosol species (for allocation of nxbari) nbnari: 90 # number of available aerosol types (for allocation of fhbari) nxbari: 1 64 8 7 2 1 3 1 2 1 # number of available types for each aerosol species fhbari: 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 1 2 1 2 2 2 2 1 2 2 0 0 0 0 0 0 0 # ARI configuration for each type # : 0 -> no ARI # : 1 -> hydrophobic # : 2 -> hydrophilic #MONARCH ###################################### ##### Digital Filtering Options #### ###################################### filter_method: 0 # 0--->none ; 1--->DFL ; 2---> DDFI ; 3--->TDFI nsecs_dfl: 1800 # HALF foward filter window (s) (DFL) nsecs_bckddfi: 1800 # HALF backward integration duration (s) (DDFI) nsecs_fwdddfi: 3600 # HALF foward filter window (s) (DDFI) nsecs_bcktdfi: 3600 # HALF backward filter window (s) (TDFI) nsecs_fwdtdfi: 3600 # HALF forward filter window (s) (TDFI) radar_init: 0 ############################# ##### Global Summations #### ############################# use_allreduce: true # False--> use mpi send/recv for global sums (reproducible results) # True--> use mpi_allreduce for global sums (much faster) #MONARCH mass_fixer: 0 # impose mass conservation after advection of chem/aerosol tracers # uses mpi_allreduce for global sums in the mass fixer # 0 no mass fixer applied # 1 based on McGregor (2005) (globally diffusive!) # 2 based on Bermejo and Conde (2002) (quite diffusive too) # 3 similar to Bermejo and Conde (2002) with weights additionally scaled by the total grid cell mass (works) # 4 similar to Bermejo and Conde (2002) with weights additionally scaled by the total grid cell mass^2 (recommended) #MONARCH ##################################### ### Precipitation Assimilation #### ##################################### pcpflg: false # True--> assimilation on ; False--> assimilation off pcphr: 6 write_prec_adj: false # True--> create baseline prec. files ; False--> regular run ############################ ### Gravity Wave Drag #### ############################ gwdflg: false # True--> GWD on ; False--> GWD off cdmb: 0.1 # tunable parameter for adjusting mountain blocking cleffamp: 1.00 # tunable parameter, depends on resolution sigfac: 0.00 # tunable parameter factop: 0.50 # de-acceleration limiter rlolev: 500.00 # critical pressure level (check units) dpmin: 5.00 # minimum thickness of the reference layer (check units) #################################### ##### Physics Scheme Options ##### #################################### #--------------------------------- shortwave: rrtm # Radiation schemes longwave: rrtm # gfdl--> GFDL (shortwave and longwave) # gsfc--> Goddard shortwave # dudh--> Dudhia shortwave # rrtm--> RRTM (shortwave and longwave) np3d: 3 # cloud properties for radiation # 3--> ferrier's microphysics cloud scheme (only stratiform cloud) # 4--> zhao/carr/sundqvist microphysics cloud (now available in the NMMB) # 5--> NAM stratiform + convective cloud optical depth and fraction (GFDL type convective cloud) # 8--> Thompson microphysics and special Thompson rrtm SW radiation ialbsrc: 0 # albedo for radiation # >0 --> ialb=1 use modis based albedo for land area # <=0 --> ialb=2 use albedo from noah (default) cldfraction: default # cloud fraction scheme for radiation # default --> according to the choice of np3d # thompson --> thompson co2tf: 1 # co2tf--> Read (0) or generate internally (1) # the GFDL CO2 transmission functions #--------------------------------- convection: bmj # Convection scheme # bmj --> Betts-Miller-Janjic # bmj_dev--> BMJ (development) # kf --> Kain-Fritsch # sas --> Simplified Arakawa-Schubert # gd --> Grell-Devenyi # none --> No convection #--------------------------------- microphysics: fer # Microphysics scheme # fer--> Ferrier # fer_hires--> Ferrier operational # kes--> Kessler # lin--> Lin # tho--> Thompson # wsm3--> WSM3 # gfs--> GFS microphy rhgrd: 0.98 # Onset of condensation spec_adv: .false. # Individual cloud species advected lmprate: .false. # .true.: 4D array called MPRATES containing # 3D microphysics source/sink terms # .false.: One 3D array called MPRATES # with zero values #--------------------------------- turbulence: myj # Turbulence schemes # myj--> Mellor-Yamada-Janjic # gfs--> GFS PBL #--------------------------------- sfc_layer: myj # Surface layer schemes # myj--> Mellor-Yamada-Jamnjic # mm5--> MM5 sfc layer #--------------------------------- land_surface: noah # Land surface schemes # noah--> NOAH scheme # liss--> Janjic LSM ucmcall: 0 # Use (1) or do not use (0) the Urban Canopy Model ivegsrc: 0 # Vegetation map identifier, 0--> USGS, 1--> IGBP #--------------------------------- gfs: false # Select entire GFS physics suite ######################################## ##### Shallow Convection Switches #### ######################################## fres: 1.00 # resolution factor for dsp's (default) fr: 1.00 # land factor for dsp's (dafault) fsl: 0.85 # reduction factor for "slow" dsp's over land (dafault) fss: 0.85 # reduction factor for "slow" dsp's over water (dafault) #fres: 0.80 # resolution factor for dsp's #fr: 1.00 # land factor for dsp's #fsl: 0.85 # reduction factor for "slow" dsp's over land #fss: 0.85 # reduction factor for "slow" dsp's over water entrain: .false. # entrainment newall: .false. # new cloud used at all shallow points newswap: .false. # new clouds at swap shallow points newupup: .false. # new cloud used for both heat and moisture up shallow pts. nodeep: .false. # all deep convection diverted to shallow swap algorythm ############################### ##### Physics Timesteps ##### ############################### nrads: NRADS # Number of dynamics timesteps between calls to shortwave nradl: NRADL # Number of dynamics timesteps between calls to longwave nphs: 4 # Number of dynamics timesteps between calls to landsurface and turbulence nprecip: 8 # Number of dynamics timesteps between calls to convection and microphysics #### #### NOTE: User must set nhrs_udef to .TRUE. and set the emptying frequencies (nhrs_*) to the desired values #### or else all accumulations will automatically be emptied hourly. #### nhrs_udef: true # User defined when fluxes are emptied. # False--> Auto ; True--> User defined: nhrs_prec: 24 # Frequency in hours between times when precip arrays are emptied nhrs_heat: 12 # Frequency in hours between times when heating arrays are emptied nhrs_clod: 12 # Frequency in hours between times when cloud arrays are emptied nhrs_rdlw: 3 # Frequency in hours between times when LW radiation arrays are emptied nhrs_rdsw: 3 # Frequency in hours between times when SW radiation arrays are emptied nhrs_srfc: 12 # Frequency in hours between times when sfc evap/flux arrays are emptied ################################################ #### Write History/Restart Specifications #### ################################################ nemsio_input: false write_hst_bin: false # True--> Write history files in binary format write_hst_nemsio: false # True--> Write history files in NEMSIO format write_hst_netcdf: true # True--> Write history files in NETCDF format write_rst_bin: false # True--> Write restart files in binary format write_rst_nemsio: false # True--> Write restart files in NEMSIO format write_rst_netcdf: false # True--> Write restart files in NETCDF format write_nemsioctl: false # True--> Yes write ctl for nemsio run history files write_donefileflag: false write_fsyncflag: false # True--> Yes write fsync write_dopost: false # True--> Yes run post on quilt post_gribversion: 'grib1' # grib version for post output netcdf_compression: 2 # level of netcdf compression 0= no compression, 4= maximum compression hst_name_base: 'nmmb_hst' rst_name_base: 'nmmb_rst' ################################## #### Nesting Specifications #### ################################## my_domain_id: 1 my_parent_id: 1 n_children: 0 num_domains_total: 1 # The total number of domains in this run (only needed in domain #1's configure file) input_ready: true # Is the initial condition file already prepared? nest_mode: 1-way # Select '1-way' or '2-way' interaction between parents/children ### If any 2-way domains are part of this run then provide the following value. generation: 2 # In which generation is this domain? ### If this domain is a 2-way child then provide the following value. 2way_wgt: 0.5 # Fraction of this child's 2-way data values used by the parent (0.-> all parent; 1.-> all child) ### If this domain is not a nest then the remaining variables ### in 'Nesting Specifications' are ignored. i_parent_start: 122 # Nest southwest corner at this parent I j_parent_start: 133 # Nest southwest corner at this parent J parent_child_space_ratio: 3 # Ratio of this nest's parent's grid increment to its own my_domain_moves: false # Does this domain move? move_type: storm # Type of this domain move (storm, prescribed) ntrack: 00 # the number of nphys steps between tracker calls # only innermost domain needs ntrack>0 max_shift: 2 # Max # of parent grid increments (in I and/or J) this nest can move in one shift (999->no limit) centers_distance: 6.0 # Grid increments on this nest between its and its inner nest's centers before this nest shifts latitude_limit: 60.0 # Nests will not move poleward of this latitude (degrees) ratio_sfc_files: 3 # If domain moves, provide ratio of uppermost parent grid increment to this domain's sfc_conflict: dummy # 'nearest' --> Parent-to-child conflict pts use nearest child pt with same sfc type # 'dummy' --> Child uses dummy values for all conflict pts (reproducible results) nrows_p_upd_w: 2 # West bndry rows of moving nest footprint updated by parent nrows_p_upd_e: 2 # East bndry rows of moving nest footprint updated by parent nrows_p_upd_s: 2 # South bndry rows of moving nest footprint updated by parent nrows_p_upd_n: 2 # North bndry rows of moving nest footprint updated by parent ####################### #### Timing Info #### ####################### nhours_clocktime: 1 # Frequency in hours between clocktime diagnostic prints. npe_print: 1 # The MPI task that will provide the clocktimes. ####################### #### Hurricane #### ####################### run_tc: false # true=use hwrf phys sas_pgcon: 0.55 # convectively forced pressure gradient factor,default=0.55 sas_shal_pgcon: -1 # convectively forced pressure gradient factor sas shallow conv, # '-1' means sas_pgcon is used sas_shalconv: 1 # 1=enable shallow conv,better with gfspblhur scheme sas_mass_flux: 9.0e9 # mass flux limit,default=9e9 sas_mommix: 1.0 # SAS momentum mixing coef var_ric: 1.0 # 1=use variable critical Ri# in gfspblhur coef_ric_l: 0.16 # Regression coef for land Ric,default=0.16 coef_ric_s: 0.16 # Regression coef for sea Ric,default=0.16 alpha: 0.7 # adjustment coef for K in gfspblhur sfenth: 0.0 # GFDL surface-layer enhancement coef disheat: true # true='consider diss heating'