CALPUFF and Postprocessors
CALPUFF and Postprocessors CALPUFF and Postprocessors
Table F-67 OPTHILL Output File for Axis #1 of Sample Hill *** Optimal SCALE and EXPO factors -- Axis #1 of example problem *** EVOL TIME LIMIT = 60. SECONDS SKIP = 10 NUMBER OF PARAMETERS FOR THIS STUDY : 4 PARAMETER START VALUE STEP CONTROL LOWER LIMIT UPPER LIMIT --------- ----------- ----------- ---------- ---------- 1 RELIEF 0.3000E+03 0.0000E+00 0.3000E+03 0.3000E+03 2 AXMAX 0.2000E+04 0.0000E+00 0.2000E+04 0.2000E+04 3 EXPO 0.2000E+01 0.2000E+01 0.1000E+00 0.1000E+02 4 SCALE 0.2000E+04 0.1000E+04 0.2000E+02 0.2000E+06 CALCULATIONS STARTED RETURN VALUE: 2 NORMAL RETURN FUNCTION VALUE: 0.50303 PARAMETER VALUES: RELIEF = 300.00000 AXMAX = 2000.00000 EXPO = 1.90651 SCALE = 1522.94500 Distance Height Fitted Value 564.0 239.0 237.4 826.0 178.0 186.4 1062.0 150.0 139.9 1193.0 117.0 115.5 1508.0 56.0 63.0 MAR 2006 – CALPUFF F-281
Table F-68 OPTHILL Output File for Axis #2 of Sample Hill .*** Optimal SCALE and EXPO factors -- Axis #2 of example problem *** EVOL TIME LIMIT = 60. SECONDS SKIP = 10 NUMBER OF PARAMETERS FOR THIS STUDY : 4 PARAMETER START VALUE STEP CONTROL LOWER LIMIT UPPER LIMIT ---------- ----------- ----------- ---------- ----------- 1 RELIEF 0.3000E+03 0.0000E+00 0.3000E+03 0.3000E+03 2 AXMAX 0.1500E+04 0.0000E+00 0.1500E+04 0.1500E+04 3 EXPO 0.2000E+01 0.2000E+01 0.1000E+00 0.1000E+02 4 SCALE 0.1500E+04 0.7500E+03 0.1500E+02 0.1500E+06 CALCULATIONS STARTED RETURN VALUE: 2 NORMAL RETURN FUNCTION VALUE: 2.17504 PARAMETER VALUES: RELIEF = 300.00000 AXMAX = 1500.00000 EXPO = 1.23912 SCALE = 2895.90200 Distance Height Fitted Value 302.0 239.0 244.0 551.0 178.0 189.1 708.0 150.0 154.7 970.0 117.0 99.5 1311.0 56.0 33.5 MAR 2006 – CALPUFF F-282
- Page 234 and 235: Table F-54 (Continued) Unformatted
- Page 236 and 237: DFLX.DAT File - Data Records The DF
- Page 238 and 239: Table F-55 (Concluded) Unformatted
- Page 240 and 241: Character*132 COMMENT Character*80
- Page 242 and 243: Table F-56 (Continued) Unformatted
- Page 244 and 245: Table F-56 (Continued) Unformatted
- Page 246 and 247: Table F-56 (Continued) Unformatted
- Page 248 and 249: Table F-56 (Continued) Unformatted
- Page 250 and 251: Table F-56 (Concluded) Unformatted
- 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 258 and 259: Table F-58 (Continued) Unformatted
- Page 260 and 261: Table F-58 (Continued) Unformatted
- Page 262 and 263: Table F-58 (Continued) Unformatted
- Page 264 and 265: Table F-58 (Continued) Unformatted
- Page 266 and 267: VISB.DAT File - Data Records The VI
- Page 268 and 269: Table F-59 (Concluded) Unformatted
- 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
- 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 302 and 303: Table G-4 Sample PRTMET List File (
- Page 304 and 305: Table G-4 Sample PRTMET List File (
- Page 306 and 307: Table G-4 Sample PRTMET List File (
- Page 308 and 309: 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
- Page 326 and 327: The name and full path of each file
- 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
Table F-68<br />
OPTHILL Output File for Axis #2 of Sample Hill<br />
.*** Optimal SCALE <strong>and</strong> EXPO factors -- Axis #2 of example problem ***<br />
EVOL TIME LIMIT = 60. SECONDS SKIP = 10<br />
NUMBER OF PARAMETERS FOR THIS STUDY : 4<br />
PARAMETER START VALUE STEP CONTROL LOWER LIMIT UPPER LIMIT<br />
---------- ----------- ----------- ---------- -----------<br />
1 RELIEF 0.3000E+03 0.0000E+00 0.3000E+03 0.3000E+03<br />
2 AXMAX 0.1500E+04 0.0000E+00 0.1500E+04 0.1500E+04<br />
3 EXPO 0.2000E+01 0.2000E+01 0.1000E+00 0.1000E+02<br />
4 SCALE 0.1500E+04 0.7500E+03 0.1500E+02 0.1500E+06<br />
CALCULATIONS STARTED<br />
RETURN VALUE: 2 NORMAL RETURN FUNCTION VALUE: 2.17504<br />
PARAMETER VALUES:<br />
RELIEF = 300.00000<br />
AXMAX = 1500.00000<br />
EXPO = 1.23912<br />
SCALE = 2895.90200<br />
Distance Height Fitted Value<br />
302.0 239.0 244.0<br />
551.0 178.0 189.1<br />
708.0 150.0 154.7<br />
970.0 117.0 99.5<br />
1311.0 56.0 33.5<br />
MAR 2006 – <strong>CALPUFF</strong><br />
F-282