CALPUFF and Postprocessors

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DFLX.DAT File - Data Records The DFLX.DAT data records consist of a set of "NDFOUT+1" records for each hour of the CALPUFF runs (NDFOUT is the number of species flagged as being stored in the output file). The first record of each set contains the date and hour of the data in the records which follow it. The next "NDFOUT" records contain predicted one-hour averaged dry deposition fluxes in g/m 2 /s for each relevant species (see Table F-55). Sample FORTRAN read statements for the data records (in uncompressed format) are: READ(iunit)nyrb,njulb,nhrb,nsecb,nyre,njule,nhre,nsece READ(iunit) istype,isnum,sname,sxkm,sykm +)) LOOP OVER DRY DEPOSITED SPECIES STORED ON DISK * * GRIDDED RECEPTOR DRY FLUXES * IF(LSGRID)READ(iunit)CDFG,DFLXG * * DISCRETE RECEPTOR DRY FLUXES * IF(NDREC.GT.0)READ(iunit)CDFD,DFLXD * .)) END LOOP OVER DRY DEPOSITED SPECIES STORED ON DISK where the following declarations apply: Character*15 CDFG,CDFD Real DFLXG(nxg,nyg),DFLXD(NDREC) and nxg = IESAMP - IBSAMP+1 nyg = JESAMP - JBSAMP+1 CALPUFF contains an option to compress the data by replacing strings of zeroes with a coded repetition factor. The factor is a negative number whose absolute value indicates the number of consecutive zeroes that have been replaced by the repetition factor. This method is especially useful in reducing the size of the output file when large segments of the receptor arrays lie upwind of the puffs during an hour, thereby producing long strings of zeroes in the output arrays. For example, the following record with data for 20 receptors requires 20 unpacked words: 0.0, 0.0, 0.0, 0.0, 0.0, 1.2, 3.5, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.7, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 These data in packed form would be represented in six words: -5., 1.2, 3.5, -6., 0.7, -6. MAR 2006 – CALPUFF F-233
Table F-55 Unformatted DFLX.DAT File - Data Records (Records 1 and 2 of each set) No. Variable Type Description (Record 1) 1 NYRB integer Year (4 digits) at start of averaging period 2 NJULB integer Julian day at start of averaging period 3 NHRB integer Hour (00-23 LST) at start of averaging period 4 NSECB integer Second (0000-3599 LST) at start of averaging period 5 NYRE integer Year (4 digits) at end of averaging period 6 NJULE integer Julian day at end of averaging period 7 NHRE integer Hour (00-23 LST) at end of averaging period 8 NSECE integer Second (0000-3599 LST) at start of averaging period No. Variable Type a Description (Record 2) 1 ISTYPE integer Source type 2 ISNUM integer Source number of this type 3 SNAME C*16 Source name 4 SXKM real Source X-coordinate (km) in the modeling map projection 5 SYKM real Source Y-coordinate (km) in the modeling map projection a C*16 = Character*16 (Next Data Record) (Included only if LSAMP = TRUE) No. Variable Type Description 1 CDFG C*15 Species name (characters 1-12) and variable flag (characters 13-15) of the data in this record. For example b , "SO2..........DF" corresponds to SO 2 dry flux. Next NXG*NYG DFLXG real array "IAVG" - hour averaged dry deposition fluxes (g/m 2 /s) for each gridded receptor MAR 2006 – CALPUFF F-234
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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
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Table F-14 SURFACE.DAT File - Data
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F.3 Point Source Emissions File Wit
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PTEMARB.DAT File - Header Records T
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Table F-17 (Continued) PTEMARB.DAT
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Table F-17 (Concluded) PTEMARB.DAT
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Table F-18 PTEMARB.DAT - Time-Invar
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Table F-19 (Concluded) PTEMARB.DAT
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Table F-20 Sample BAEMARB.DAT file
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Table F-21 BAEMARB.DAT - Header Rec
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Table F-21 (Continued) BAEMARB.DAT
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BAEMARB.DAT File - Data Records The
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Table F-23 BAEMARB.DAT - Time-Varyi
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F.5 Line Source Emissions File With
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LNEMARB.DAT File - Header Records T
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Table F-25 (Continued) LNEMARB.DAT
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Table F-25 (Concluded) LNEMARB.DAT
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Table F-26 LNEMARB.DAT - Time-Invar
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Table F-27 (Continued) LNEMARB.DAT
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Table F-27 (Concluded) LNEMARB.DAT
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Table F-28 Sample VOLEMARB.DAT file
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Table F-29 VOLEMARB.DAT - Header Re
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Table F-29 (Continued) VOLEMARB.DAT
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VOLEMARB.DAT File - Data Records Th
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Table F-30 VOLEMARB.DAT - Time-Inva
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Table F-31 (Concluded) VOLEMARB.DAT
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values in time provided in Input Gr
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Table F-32 (Continued) Boundary Con
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Table F-32 (Continued) Boundary Con
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Table F-33 BCON.DAT File Inputs Var
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Table F-33 (Concluded) BCON.DAT Fil
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Table F-34 Sample User-Specified De
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Table F-35 Sample Hourly Ozone Data
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Table F-36 OZONE.DAT - Header Recor
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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
Page 210 and 211: where the following declarations ap
Page 212 and 213: Table F-52 (Continued) Unformatted
Page 220 and 221: Table F-52 (Concluded) Unformatted
Page 222 and 223: Table F-53 Unformatted CONC.DAT Fil
Page 224 and 225: F.15.4 Dry Flux File (DFLX.DAT) The
Page 226 and 227: Table F-54 Unformatted DFLX.DAT fil
Page 240 and 241: Character*132 COMMENT Character*80
Page 252 and 253: Table F-57 Unformatted WFLX.DAT Fil
Page 254 and 255: F.15.6 Relative Humidity File for V
Page 256 and 257: Table F-58 Unformatted VISB.DAT fil
Page 266 and 267: VISB.DAT File - Data Records The VI
Page 270 and 271: Table F-60 Sample Debug Puff-Tracki
Page 272 and 273: F.15.8 Mass Flux List File (MASSFLX
Page 274 and 275: F.15.9 Mass Balance List File (MASS
Page 276 and 277: F.16 OPTHILL When the subgrid scale
Page 278 and 279: The following procedure is recommen
Page 280 and 281: Table F-64 OPTHILL Input and Output
Page 282 and 283: Figure F-2 Map of terrain surroundi
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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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