; This file can be space-delimited or comma-delimited, or a mixture. ; Comment characters are #, ;, and !. Blank lines are ignored. ; Omitting optional keywords is the same as giving their default values. ; START, STOP, and TimeZone are the only required keywords, the rest are optional. ; Keywords are case in-sensitve, filenames are not (depends on your OS). ; INPUT ../wrfout/ ; Filenames may contain spaces, if enclosed in quotes. # START and STOP can be either of the forms below, or YYYY-MM-DD_HH:mm:ss. start 2019010100 ; start time in LST for TimeZone, hour-ending format stop 2022010100 ; end time in LST for TimeZone, hour-ending format # TimeZone is relative to GMT, i.e. -5 (GMT-05) is the US East Coast TimeZone -5 ! default is zero, i.e. GMT-00 # MMIFv3.x auto-detects if INPUT files are MM5 or WRF files, so METFORM # needs to be included only if MMIF guesses wrong, and you need to over-ride. # MetForm WRF # ORIGIN (optional) can be used to OVER-RIDE the origin of X,Y projected # coordinate system, which is normally set from the parameters of the MM5/WRF # file. This keyword is REQUIRED for Mercator projections. # origin 40.0 -97.0 ! RPO Projection # GRID has three options: IJ, LL (or latlon), or KM (or PROJ,LCC,PS,EM), # followed by two lower-left coordinates, and two upper-right coordinates. # Default is to output the whole grid, after trimming 5 points off each edge. grid IJ -5,-5 -5,-5 ! default # LAYERS has three options: TOP, MID, or K; followed by the values to be used. # TOP and MID are in meters. Default is from the EPA/FLM 2009 Guidance. # TOP is preferred: MMIF interpolates between MID points to get TOPs. layers TOP 25 50 75 100 125 150 175 200 250 300 350 400 450 500 600 700 800 900 1000 1500 2000 2500 3000 3500 4000 4500 5000 ! FLM CALMET Guidance (2009) # PG STABILITY class calculation method is either SRDT or GOLDER (default) # PG stability is used only for CALPUFF output. stability GOLDER ! default # CALSCI_MIXHT is either WRF (default) or MMIF, to pass-through or # re-calculate the WRF mixing height for CALPUFF and SCICHEM outputs. # Use AER_MIXHT (below) for AERMET and AERMOD modes. CALSCI_MIXHT WRF ! default # AER_MIXHT (WRF, MMIF, or AERMET) controls the source of mixing height # values you want to use in AERMET mode. # AER_MIN_MIXHT is the lower bound on both Convective and Mechanical # Mixing Heights in AERMOD mode. # AER_MIN_OBUK is the lower bound on Monin-Obukhov length, such that # ABS(L) > AER_min_Obuk, in AERMOD mode. # AER_MIN_SPEED is the lower bound on windspeed in AERMOD mode, # passed through to THRESHOLD in AERMET mode. aer_mixht MMIF ! default aer_min_mixht 1.0 ! default (same as AERMET) aer_min_obuk 1.0 ! default (same as AERMET) aer_min_speed 0.0 ! default (following Apr 2018 MMIF Guidance) POINT LL 38.328 -75.091 -5 Output aercoare useful USWind_OceanCityBuoy.info.inp Output aercoare data USWind_OceanCityBuoy_AERCOARE.csv POINT LL 38.460 -74.692 -5 Output aercoare useful USWind_Buoy44009.info.inp Output aercoare data USWind_Buoy44009_AERCOARE.csv POINT LL 38.3467 -74.7605 -5 Output aercoare useful USWind_Centroid.info.inp Output aercoare data USWind_Centroid_AERCOARE.csv POINT LL 38.309 -75.123 -5 Output aermet BAT USWind_KOXB.BAT ! basename for SFC/PFL files Output aermet CSH USWind_KOXB.csh ! basename for SFC/PFL files Output aermet useful USWind_KOXB.useful.txt Output aermet onsite USWind_KOXB.dat Output aermet upperair USWind_KOXB.fsl Output aermet aersfc USWind_KOXB.aersfc.dat # See the Users Guide for the OUTPUT keyword details # INPUT gives filenames of either MM5 or WRF files