CALPUFF and Postprocessors

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values in time provided in Input Group 5. Note that the temporal variation factors are specific to both the species and the air mass. Input Group 2 names the six species that will be emitted along the boundary of the computational domain. Input Group 3 defines the properties of each air-mass that is either constant, or that uses the factored time variation. In subgroup 3a, each air-mass is given a name and an index, followed by the thickness of the layer associated with the air-mass, and the concentration of each species. The name is used to identify airmass properties in subsequent sections of the file, and the index is used to associate each air-mass type with specific cells along each boundary of the domain. Concentrations are entered in the order defined in Input Group 2. Here we have used generic names to suggest the characteristics of each air-mass, and have provided concentrations for each species. This is only intended to illustrate the structure of the BCON.DAT file, and should not be interpreted as typical values suitable for any application. Subgroup 3b provides the temporal variation factors for the number of species/air-mass combinations indicated in Input Group 1 (NSBC). Only SO 2 for each of three air-masses (clean, urban, and model) is given a temporal variation here. Input Group 4 assigns the air-mass types to cells along each boundary, using index values assigned in subgroups 3a and 5a. All cells along the north boundary and the south boundary are assigned to names NORTH and SOUTH, respectively. The cells along the west and east boundaries are entered in pairs, assigned to the variable name WEST-EAST. All of these assignments should be oriented to produce a "map-like" representation of the domain, with north at the top. Input Group 5 defines any remaining air-mass types with properties that may vary hourly. Subgroup 5a assigns the air-mass name and index, and subgroup 5b identifies the time-period that is included in the data records. The input group terminator (!END!) for 5b must be followed immediately by the data records. The first record of each time period defines the range of hours for which the concentration data are valid by listing the beginning date(YYYYJJJ) and hour(HH), and the ending date and hour. The hour is denoted by the time at the end of the hour (00-23 LST). For example, a 3-hour period would be: 1987056 23 1987057 01 and a 1-hour period would be: 1987056 23 1987056 23 Subsequent records of each time period provide the data for each air-mass. Each record contains the airmass name (in single quotes), the layer-top (m), and the concentration of each species (units specified by IBCU). MAR 2006 – CALPUFF F-165
Table F-32 Boundary Condition File (BCON.DAT) ----------------------------------------------------------------------- CALPUFF Boundary Condition Data File ----------------------------------------------------------------------- INPUT GROUP: 1 -- General Specifications -------------- a Dataset documentation Dataset version (VRSBC) No default ! VRSBC = 5.4 ! Dataset label (LBLBC) No default ! LBLBC = example ! Number of segments along boundaries of computational domain North and South (NBCX) No default ! NBCX = 17 ! East and West (NBCY) No default ! NBCY = 17 ! Units for boundary concentrations provided below (IBCU) Default: 1 ! IBCU = 2 ! 1 = g/m**3 2 = ug/m**3 3 = ppm 4 = ppb Number of air-mass types: Constant or factored variation [Group 3] (NTYPEBC1) No Default ! NTYPEBC1 = 3 ! Arbitrary time variation [Group 5] (NTYPEBC2) No Default ! NTYPEBC2 = 1 ! Number of air-mass species (NSPECBC) No Default ! NSPECBC = 5 ! Number of air-mass type / species combinations with variable concentration scaling factors provided below in (3b) (NSBC) Default: 0 ! NSBC = 3 ! -------- a The form of the BCON file may change in the future. Identify this file as being consistent with the version of CALPUFF for which it was prepared. (NOTE: The dataset label is processed as a 12-character name) !END! ------------------------------------------------------------------------------- INPUT GROUP: 2 -- Species list -------------- Concentrations for the following species are provided at the boundary, in the following order: ! CSPEC = HNO3 ! !END! ! CSPEC = NO3 ! !END! ! CSPEC = SO4 ! !END! ! CSPEC = NOX ! !END! ! CSPEC = SO2 ! !END! Molecular weight (g/mole) for each species (used ONLY if IBCU=3,4 to convert to mass concentration) * SO2 = * * SO4 = * *END* ----------------------------------------------------------------------- MAR 2006 – CALPUFF F-166
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Development of the Next Generation
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F. CALPUFF MODEL FILES The CALPUFF
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are all equivalent). The variable t
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Table F-1 Input Groups in the CALPU
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Table F-2 Sample CALPUFF Control Fi
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Table F-2 (Continued) Sample CALPUF
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Table F-3 CALPUFF Control File Inpu
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Table F-3 (Continued) CALPUFF Contr
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Table F-3 (Continued) Control File
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Table F-3 (Continued) Control File
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Table F-3 (Concluded) CALPUFF Contr
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c --- c --- c --- c --- c --- c ---
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write(iunit)CLABTK,NDATHR,TEMPK wri
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Table F-4 (Continued) CALMET.DAT fi
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Table F-4 (Concluded) CALMET.DAT fi
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Table F-5 (Continued) CALMET.DAT fi
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F.2.2 ISCMET.DAT CALPUFF can be dri
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Table F-6 Sample ISCMET.DAT files (
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Table F-8 ISCMET.DAT File - Data Re
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table. A description of the content
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Table F-10 PLMMET.DAT File - Header
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F.2.4 SURFACE.DAT and PROFILE.DAT I
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Table F-12 Sample SURFACE.DAT file
Page 118 and 119: Table F-14 SURFACE.DAT File - Data
Page 120 and 121: F.3 Point Source Emissions File Wit
Page 122 and 123: PTEMARB.DAT File - Header Records T
Page 124 and 125: Table F-17 (Continued) PTEMARB.DAT
Page 126 and 127: Table F-17 (Concluded) PTEMARB.DAT
Page 128 and 129: Table F-18 PTEMARB.DAT - Time-Invar
Page 130 and 131: Table F-19 (Concluded) PTEMARB.DAT
Page 132 and 133: Table F-20 Sample BAEMARB.DAT file
Page 134 and 135: Table F-21 BAEMARB.DAT - Header Rec
Page 136 and 137: Table F-21 (Continued) BAEMARB.DAT
Page 138 and 139: BAEMARB.DAT File - Data Records The
Page 140 and 141: Table F-23 BAEMARB.DAT - Time-Varyi
Page 142 and 143: F.5 Line Source Emissions File With
Page 144 and 145: LNEMARB.DAT File - Header Records T
Page 146 and 147: Table F-25 (Continued) LNEMARB.DAT
Page 148 and 149: Table F-25 (Concluded) LNEMARB.DAT
Page 150 and 151: Table F-26 LNEMARB.DAT - Time-Invar
Page 152 and 153: Table F-27 (Continued) LNEMARB.DAT
Page 154 and 155: Table F-27 (Concluded) LNEMARB.DAT
Page 156 and 157: Table F-28 Sample VOLEMARB.DAT file
Page 158 and 159: Table F-29 VOLEMARB.DAT - Header Re
Page 160 and 161: Table F-29 (Continued) VOLEMARB.DAT
Page 162 and 163: VOLEMARB.DAT File - Data Records Th
Page 164 and 165: Table F-30 VOLEMARB.DAT - Time-Inva
Page 166 and 167: Table F-31 (Concluded) VOLEMARB.DAT
Page 170 and 171: Table F-32 (Continued) Boundary Con
Page 172 and 173: Table F-32 (Continued) Boundary Con
Page 174 and 175: Table F-33 BCON.DAT File Inputs Var
Page 176 and 177: Table F-33 (Concluded) BCON.DAT Fil
Page 178 and 179: Table F-34 Sample User-Specified De
Page 180 and 181: Table F-35 Sample Hourly Ozone Data
Page 182 and 183: Table F-36 OZONE.DAT - Header Recor
Page 184 and 185: Table F-37 OZONE.DAT - Time-Invaria
Page 186 and 187: F.10 User-Specified Chemical Transf
Page 188 and 189: F.11 Site-Specific Turbulence Data
Page 190 and 191: Table F-40 Sample CTDMPLUS Terrain
Page 192 and 193: Table F-42 HILL.DAT File - Record G
Page 194 and 195: F.13 Subgrid Scale Coastal Boundary
Page 196 and 197: COASTLN.DAT File - Header Record Th
Page 198 and 199: COASTLN.DAT File - Data Records The
Page 200 and 201: Table F-47 COASTLN.DAT - Data Recor
Page 202 and 203: Table F-48 Sample Mass Flux Boundar
Page 204 and 205: Table F-49 FLUXBDY.DAT - Header Rec
Page 206 and 207: Table F-50 FLUXBDY.DAT - Data Heade
Page 208 and 209: F.15 CALPUFF Output Files F.15.1 Li
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Table F-52 (Continued) Unformatted
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Table F-52 (Concluded) Unformatted
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Table F-53 Unformatted CONC.DAT Fil
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F.15.4 Dry Flux File (DFLX.DAT) The
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Table F-54 Unformatted DFLX.DAT fil
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DFLX.DAT File - Data Records The DF
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Character*132 COMMENT Character*80
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Table F-57 Unformatted WFLX.DAT Fil
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F.15.6 Relative Humidity File for V
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Table F-58 Unformatted VISB.DAT fil
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VISB.DAT File - Data Records The VI
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Table F-60 Sample Debug Puff-Tracki
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F.15.8 Mass Flux List File (MASSFLX
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F.15.9 Mass Balance List File (MASS
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F.16 OPTHILL When the subgrid scale
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The following procedure is recommen
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Table F-64 OPTHILL Input and Output
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Figure F-2 Map of terrain surroundi
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Table F-67 OPTHILL Output File for
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This process is simplified somewhat
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G.1 PRTMET Meteorological Display P
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Table G-1 PRTMET Input and Output F
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Table G-2 (Continued) PRTMET Contro
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Table G-2 (Concluded) PRTMET Contro
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Table G-3 Sample PRTMET Control Fil
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Table G-3 Sample PRTMET Control Fil
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Table G-4 Sample PRTMET List File (
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Table G-6 Sample vector plot file x
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G.2 APPEND The APPEND program is de
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Table G-9 APPEND Control File Struc
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Table G-11 Sample APPEND List File
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G.3 CALSUM The CALSUM program is de
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Table G-13 CALSUM Control File Stru
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Table G-15 Sample CALSUM List File
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G.4 POSTUTIL POSTUTIL operates on o
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The name and full path of each file
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Table G-17 (Continued) POSTUTIL Con
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Table G-18 Sample POSTUTIL Control
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Table G-18 (Continued) Sample POSTU
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INPUT GROUP: 2 -- Species Processin
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1 g of SO 2 contributes 0.500000 g
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Table G-19 (Continued) Sample POSTU
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Table G-19 (Concluded) Sample POSTU
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When CALPOST is directed to perform
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Table G-20 (concluded) CALPOST Inpu
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G.6 CALPOST Input Files G.6.1 User
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Table G-21 CALPOST Control File Inp
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Table G-21 (Continued) CALPOST Cont
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Table G-21 (Concluded) CALPOST Cont
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Table G-22 (Continued) Sample CALPO
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INPUT GROUP: 2 -- Visibility Parame
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Table G-22 (Concluded) Sample CALPO
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Table G-24 Sample Background Concen
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Table G-26 Sample Nephelometer File
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G.7.4 Time-series File(s) CALPOST c
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Table G-27 (Concluded) Sample CALPO
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Table G-29 Sample DATA Plot-File (P
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Table G-30 (Concluded) Plot-File GR
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Table G-32 Time-series File Record
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VOLUME II & III REFERENCES Allwine,
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Strimaitis, D.G., R.J. Yamartino, E
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