CALPUFF and Postprocessors

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INPUT GROUP: 2 -- Species Processing Information -------------- ------------- Subgroup (2a) ------------- The following NSPECINP species will be processed: ! ASPECI = SO2 ! !END! ! ASPECI = SO4 ! !END! ! ASPECI = NO ! !END! ! ASPECI = NO2 ! !END! ! ASPECI = HNO3 ! !END! ! ASPECI = NO3 ! !END! ! ASPECI = PM10 ! !END! ------------- Subgroup (2b) ------------- The following NSPECOUT species will be written: ! ASPECO = N ! !END! ! ASPECO = S ! !END! ! ASPECO = PM10 ! !END! ------------- Subgroup (2c) ------------- Table G-18 (Concluded) Sample POSTUTIL Control File (POSTUTIL.INP) Input Group 2 The following NSPECCMP species will be computed by scaling and summing one or more of the processed input species. Identify the name(s) of the computed species and provide the scaling factors for each of the NSPECINP input species (NSPECCMP groups of NSPECINP+1 lines each): ! CSPECCMP = N ! ! SO2 = 0.0 ! ! SO4 = 0.291667 ! ! NO = 0.466667 ! ! NO2 = 0.304348 ! ! HNO3 = 0.222222 ! ! NO3 = 0.451613 ! ! PM10 = 0.0 ! !END! ! CSPECCMP = S ! ! SO2 = 0.500000 ! ! SO4 = 0.333333 ! ! NO = 0.0 ! ! NO2 = 0.0 ! ! HNO3 = 0.0 ! ! NO3 = 0.0 ! ! PM10 = 0.0 ! !END! ------------- Subgroup (2d) ------------- Each species in NSCALED CALPUFF data files may be scaled before being processed (e.g., to change the emission rate for all sources modeled in the run that produced a data file). For each file, identify the file name and then provide the name(s) of the scaled species and the corresponding scaling factors (A,B where x' = Ax+B). A(Default=1.0) B(Default=0.0) -------------- -------------- * MODDAT =NOFILES.DAT * * SO2 = 1.1, 0.0 * * SO4 = 1.5, 0.0 * * HNO3 = 0.8, 0.0 * * NO3 = 0.1, 0.0 * *END* MAR 2006 -- PostProc G-48
Note the location of the input terminator !END!. This terminator signals the end of a group or a subgroup in the control file, and it also signals the end of an assignment for variables such as MODDAT that appear multiple times. Input Group: 1 Input Group 1 identifies the period to process, and sets parameters that configure POSTUTIL. Note that there is no "run all periods" option as in CALPUFF or CALPOST, so that the period must be explicitly stated. Three "nspec" variables are set: NSPECINP identifies the number of species that are stored as the input data files are read. NSPECOUT identifies the number of species that are written to the output data file. NSPECCMP identifies the number of new species that are computed from those that are stored. For example, you may wish to store 7 of 12 species from the input files, and you may wish to compute 3 new species from these 7, and write the 3 new species plus 5 of the stored species to the output data file for analysis with CALPOST. In this sample, the 6 chemical transformation species are stored, plus the PM10 (! NSPECINP = 7 !), because all 6 are needed to compute the 2 new species (! NSPECCMP = 2 !), the total sulfur and the total nitrogen fluxes. The original PM10 plus the 2 new species are written to the output data file (! NSPECOUT = 3 !) so that the sum of the wet and dry fluxes are available for further analysis. Input Group: 2 The NSPECINP species that are stored for processing are named in Subgroup 2a. Species names must match those used in the CALPUFF runs, but may be entered in any order. Each is read into the data dictionary variable ASPECI. Similarly, the NSPECOUT species are named in Subgroup 2b. These names include the original PM10 species, plus the two new species for total sulfur (S) and total nitrogen (N). Each is read into the data dictionary variable ASPECO. Subgroup 2c provides the information required to compute the new species. New species concentrations or deposition fluxes are constructed using a weighted sum of the concentrations or deposition fluxes of all of the stored species. The weight for each species is entered here. Only SO 2 and SO 4 contribute sulfur mass. Nitrogen mass is contributed by SO 4 (CALPUFF tracks ammonium sulfate as SO 4 ), NO, NO 2 , HNO 3 , and NO 3 (CALPUFF tracks ammonium nitrate as NO3). The atomic weights for the constituent elements are sulfur = 32, oxygen = 16, nitrogen = 14, and hydrogen = 1. The molecular formula for ammonium sulfate is (NH 4 ) 2 SO 4 and ammonium nitrate is (NH 4 )NO 3 . Therefore: MAR 2006 -- PostProc G-49
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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
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F.10 User-Specified Chemical Transf
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F.11 Site-Specific Turbulence Data
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Table F-40 Sample CTDMPLUS Terrain
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Table F-42 HILL.DAT File - Record G
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F.13 Subgrid Scale Coastal Boundary
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COASTLN.DAT File - Header Record Th
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COASTLN.DAT File - Data Records The
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Table F-47 COASTLN.DAT - Data Recor
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Table F-48 Sample Mass Flux Boundar
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Table F-49 FLUXBDY.DAT - Header Rec
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Table F-50 FLUXBDY.DAT - Data Heade
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F.15 CALPUFF Output Files F.15.1 Li
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where the following declarations ap
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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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Page 286 and 287: This process is simplified somewhat
Page 288 and 289: G.1 PRTMET Meteorological Display P
Page 290 and 291: Table G-1 PRTMET Input and Output F
Page 292 and 293: Table G-2 (Continued) PRTMET Contro
Page 294 and 295: Table G-2 (Concluded) PRTMET Contro
Page 296 and 297: Table G-3 Sample PRTMET Control Fil
Page 298 and 299: Table G-3 Sample PRTMET Control Fil
Page 300 and 301: Table G-4 Sample PRTMET List File (
Page 310 and 311: Table G-6 Sample vector plot file x
Page 312 and 313: G.2 APPEND The APPEND program is de
Page 314 and 315: Table G-9 APPEND Control File Struc
Page 316 and 317: Table G-11 Sample APPEND List File
Page 318 and 319: G.3 CALSUM The CALSUM program is de
Page 320 and 321: Table G-13 CALSUM Control File Stru
Page 322 and 323: Table G-15 Sample CALSUM List File
Page 324 and 325: G.4 POSTUTIL POSTUTIL operates on o
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Page 328 and 329: Table G-17 (Continued) POSTUTIL Con
Page 330 and 331: Table G-18 Sample POSTUTIL Control
Page 332 and 333: Table G-18 (Continued) Sample POSTU
Page 336 and 337: 1 g of SO 2 contributes 0.500000 g
Page 338 and 339: Table G-19 (Continued) Sample POSTU
Page 340 and 341: Table G-19 (Concluded) Sample POSTU
Page 342 and 343: When CALPOST is directed to perform
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Page 346 and 347: G.6 CALPOST Input Files G.6.1 User
Page 348 and 349: Table G-21 CALPOST Control File Inp
Page 350 and 351: Table G-21 (Continued) CALPOST Cont
Page 356 and 357: Table G-21 (Concluded) CALPOST Cont
Page 358 and 359: Table G-22 (Continued) Sample CALPO
Page 360 and 361: INPUT GROUP: 2 -- Visibility Parame
Page 364 and 365: Table G-22 (Concluded) Sample CALPO
Page 366 and 367: Table G-24 Sample Background Concen
Page 368 and 369: Table G-26 Sample Nephelometer File
Page 370 and 371: G.7.4 Time-series File(s) CALPOST c
Page 374 and 375: Table G-27 (Concluded) Sample CALPO
Page 376 and 377: Table G-29 Sample DATA Plot-File (P
Page 378 and 379: Table G-30 (Concluded) Plot-File GR
Page 380 and 381: Table G-32 Time-series File Record
Page 382 and 383: VOLUME II & III REFERENCES Allwine,
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Strimaitis, D.G., R.J. Yamartino, E
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