Changeset 24 for trunk/options
- Timestamp:
- May 23, 2014, 11:48:41 AM (10 years ago)
- Location:
- trunk/options
- Files:
-
- 28 edited
Legend:
- Unmodified
- Added
- Removed
-
trunk/options/COMMAND
r4 r24 1 +++++++++++++ HEADER +++++++++++++++++ 2 +++++++++++++ HEADER +++++++++++++++++ 3 +++++++++++++ HEADER +++++++++++++++++ 4 +++++++++++++ HEADER +++++++++++++++++ 5 +++++++++++++ HEADER +++++++++++++++++ 6 +++++++++++++ HEADER +++++++++++++++++ 7 +++++++++++++ HEADER +++++++++++++++++ 8 -1 9 20070930 180000 10 20070931 0 11 3600 12 3600 13 900 14 9999999 15 900 SYNC 16 -5.0 CTL 17 4 IFINE 18 5 IOUT 19 0 IPOUT 20 1 LSUBGRID 21 1 LCONVECTION 22 1 LAGESPECTRA 23 0 IPIN 24 1 IOFR 25 0 IFLUX 26 0 MDOMAINFILL 27 1 IND_SOURCE 28 2 IND_RECEPTOR 29 0 MQUASILAG 30 1 NESTED_OUTPUT 31 2 LINIT_COND INITIAL COND. FOR BW RUNS: 0=NO,1=MASS UNIT,2=MASS MIXING RATIO UNIT 1 ******************************************************************************** 2 * * 3 * Input file for the Lagrangian particle dispersion model FLEXPART * 4 * Please select your options * 5 * * 6 ******************************************************************************** 7 8 1. __ 3X, I2 9 1 10 LDIRECT 1 FOR FORWARD SIMULATION, -1 FOR BACKWARD SIMULATION 11 12 2. ________ ______ 3X, I8, 1X, I6 13 20111210 000000 14 YYYYMMDD HHMISS BEGINNING DATE OF SIMULATION 15 16 3. ________ ______ 3X, I8, 1X, I6 17 20111210 120000 18 YYYYMMDD HHMISS ENDING DATE OF SIMULATION 19 20 4. _____ 3X, I5 21 10800 22 SSSSS OUTPUT EVERY SSSSS SECONDS 23 24 5. _____ 3X, I5 25 10800 26 SSSSS TIME AVERAGE OF OUTPUT (IN SSSSS SECONDS) 27 28 6. _____ 3X, I5 29 900 30 SSSSS SAMPLING RATE OF OUTPUT (IN SSSSS SECONDS) 31 32 7. _________ 3X, I9 33 999999999 34 SSSSSSSSS TIME CONSTANT FOR PARTICLE SPLITTING (IN SECONDS) 35 36 8. _____ 3X, I5 37 900 38 SSSSS SYNCHRONISATION INTERVAL OF FLEXPART (IN SECONDS) 39 40 9. ---.-- 4X, F6.4 41 -5.0 42 CTL FACTOR, BY WHICH TIME STEP MUST BE SMALLER THAN TL 43 44 10. --- 4X, I3 45 4 46 IFINE DECREASE OF TIME STEP FOR VERTICAL MOTION BY FACTOR IFINE 47 48 11. - 4X, I1 49 3 50 IOUT 1 CONCENTRATION (RESIDENCE TIME FOR BACKWARD RUNS) OUTPUT, 2 MIXING RATIO OUTPUT, 3 BOTH,4 PLUME TRAJECT., 5=1+4 51 52 12. - 4X, I1 53 0 54 IPOUT PARTICLE DUMP: 0 NO, 1 EVERY OUTPUT INTERVAL, 2 ONLY AT END 55 56 13. _ 4X, I1 57 1 58 LSUBGRID SUBGRID TERRAIN EFFECT PARAMETERIZATION: 1 YES, 0 NO 59 60 14. _ 4X, I1 61 1 62 LCONVECTION CONVECTION: 1 YES, 0 NO 63 64 15. _ 4X, I1 65 0 66 LAGESPECTRA AGE SPECTRA: 1 YES, 0 NO 67 68 16. _ 4X, I1 69 0 70 IPIN CONTINUE SIMULATION WITH DUMPED PARTICLE DATA: 1 YES, 0 NO 71 72 17. _ 73 0 4X,I1 74 IOFR IOUTPUTFOREACHREL CREATE AN OUPUT FILE FOR EACH RELEASE LOCATION: 1 YES, 0 NO 75 76 18. _ 4X, I1 77 0 78 IFLUX CALCULATE FLUXES: 1 YES, 0 NO 79 80 19. _ 4X, I1 81 0 82 MDOMAINFILL DOMAIN-FILLING TRAJECTORY OPTION: 1 YES, 0 NO, 2 STRAT. O3 TRACER 83 84 20. _ 4X, I1 85 1 86 IND_SOURCE 1=MASS UNIT , 2=MASS MIXING RATIO UNIT 87 88 21. _ 4X, I1 89 1 90 IND_RECEPTOR 1=MASS UNIT , 2=MASS MIXING RATIO UNIT 91 92 22. _ 4X, I1 93 0 94 MQUASILAG QUASILAGRANGIAN MODE TO TRACK INDIVIDUAL PARTICLES: 1 YES, 0 NO 95 96 23. _ 4X, I1 97 0 98 NESTED_OUTPUT SHALL NESTED OUTPUT BE USED? 1 YES, 0 NO 99 100 24. _ 4X, I1 101 2 102 LINIT_COND INITIAL COND. FOR BW RUNS: 0=NO,1=MASS UNIT,2=MASS MIXING RATIO UNIT 103 104 25. _ 4X, I1 105 0 106 SURF_ONLY IF THIS IS SET TO 1, OUTPUT IS WRITTEN ONLY OUT FOR LOWEST LAYER 107 108 109 1. Simulation direction, 1 for forward, -1 for backward in time 110 (consult Seibert and Frank, 2004 for backward runs) 111 112 2. Beginning date and time of simulation. Must be given in format 113 YYYYMMDD HHMISS, where YYYY is YEAR, MM is MONTH, DD is DAY, HH is HOUR, 114 MI is MINUTE and SS is SECOND. Current version utilizes UTC. 115 116 3. Ending date and time of simulation. Same format as 3. 117 118 4. Average concentrations are calculated every SSSSS seconds. 119 120 5. The average concentrations are time averages of SSSSS seconds 121 duration. If SSSSS is 0, instantaneous concentrations are outputted. 122 123 6. The concentrations are sampled every SSSSS seconds to calculate the time 124 average concentration. This period must be shorter than the averaging time. 125 126 7. Time constant for particle splitting. Particles are split into two 127 after SSSSS seconds, 2xSSSSS seconds, 4xSSSSS seconds, and so on. 128 129 8. All processes are synchronized with this time interval (lsynctime). 130 Therefore, all other time constants must be multiples of this value. 131 Output interval and time average of output must be at least twice lsynctime. 132 133 9. CTL must be >1 for time steps shorter than the Lagrangian time scale 134 If CTL<0, a purely random walk simulation is done 135 136 10.IFINE=Reduction factor for time step used for vertical wind 137 138 11.IOUT determines how the output shall be made: concentration 139 (ng/m3, Bq/m3), mixing ratio (pptv), or both, or plume trajectory mode, 140 or concentration + plume trajectory mode. 141 In plume trajectory mode, output is in the form of average trajectories. 142 143 12.IPOUT determines whether particle positions are outputted (in addition 144 to the gridded concentrations or mixing ratios) or not. 145 0=no output, 1 output every output interval, 2 only at end of the 146 simulation 147 148 13.Switch on/off subgridscale terrain parameterization (increase of 149 mixing heights due to subgridscale orographic variations) 150 151 14.Switch on/off the convection parameterization 152 153 15.Switch on/off the calculation of age spectra: if yes, the file AGECLASSES 154 must be available 155 156 16. If IPIN=1, a file "partposit_end" from a previous run must be available in 157 the output directory. Particle positions are read in and previous simulation 158 is continued. If IPIN=0, no particles from a previous run are used 159 160 17. IF IOUTPUTFOREACHRELEASE is set to 1, one output field for each location 161 in the RLEASE file is created. For backward calculation this should be 162 set to 1. For forward calculation both possibilities are applicable. 163 164 18. If IFLUX is set to 1, fluxes of each species through each of the output 165 boxes are calculated. Six fluxes, corresponding to northward, southward, 166 eastward, westward, upward and downward are calculated for each grid cell of 167 the output grid. The control surfaces are placed in the middle of each 168 output grid cell. If IFLUX is set to 0, no fluxes are determined. 169 170 19. If MDOMAINFILL is set to 1, the first box specified in file RELEASES is used 171 as the domain where domain-filling trajectory calculations are to be done. 172 Particles are initialized uniformly distributed (according to the air mass 173 distribution) in that domain at the beginning of the simulation, and are 174 created at the boundaries throughout the simulation period. 175 176 20. IND_SOURCE switches between different units for concentrations at the source 177 NOTE that in backward simulations the release of computational particles 178 takes place at the "receptor" and the sampling of particles at the "source". 179 1=mass units (for bwd-runs = concentration) 180 2=mass mixing ratio units 181 21. IND_RECEPTOR switches between different units for concentrations at the receptor 182 1=mass units (concentrations) 183 2=mass mixing ratio units 184 185 22. MQUASILAG indicates whether particles shall be numbered consecutively (1) or 186 with their release location number (0). The first option allows tracking of 187 individual particles using the partposit output files 188 189 23. NESTED_OUTPUT decides whether model output shall be made also for a nested 190 output field (normally with higher resolution) 191 192 24. LINIT_COND determines whether, for backward runs only, the sensitivity to initial 193 conditions shall be calculated and written to output files 194 0=no output, 1 or 2 determines in which units the initial conditions are provided. 195 196 25. SURF_ONLY: When set to 1, concentration/emission sensitivity is written out only 197 for the surface layer; useful for instance when only footprint emission sensitivity is needed 198 but initial conditions are needed on a full 3-D grid -
trunk/options/COMMAND.alternative
r4 r24 30 30 0 NESTED_OUTPUT SHALL NESTED OUTPUT BE USED? YES, 0 NO 31 31 2 LINIT_COND INITIAL COND. FOR BW RUNS: 0=NO,1=MASS UNIT,2=MASS MIXING RATIO UNIT 32 0 SURF_ONLY IF THIS IS SET TO 1, OUTPUT IS WRITTEN ONLY OUT FOR LOWEST LAYER 32 33 33 34 … … 117 118 conditions shall be calculated and written to output files 118 119 0=no output, 1 or 2 determines in which units the initial conditions are provided. 120 121 25. SURF_ONLY: When set to 1, concentration/emission sensitivity is written out only 122 for the surface layer; useful for instance when only footprint emission sensitivity is needed 123 but initial conditions are needed on a full 3-D grid -
trunk/options/COMMAND.reference
r4 r24 11 11 12 12 2. ________ ______ 3X, I8, 1X, I6 13 20 040720 00000013 20110310 000000 14 14 YYYYMMDD HHMISS BEGINNING DATE OF SIMULATION 15 15 16 16 3. ________ ______ 3X, I8, 1X, I6 17 20 04072112000017 20110310 120000 18 18 YYYYMMDD HHMISS ENDING DATE OF SIMULATION 19 19 … … 101 101 2 102 102 LINIT_COND INITIAL COND. FOR BW RUNS: 0=NO,1=MASS UNIT,2=MASS MIXING RATIO UNIT 103 104 25. _ 4X, I1 105 0 106 SURF_ONLY IF THIS IS SET TO 1, OUTPUT IS WRITTEN ONLY OUT FOR LOWEST LAYER 103 107 104 108 … … 189 193 conditions shall be calculated and written to output files 190 194 0=no output, 1 or 2 determines in which units the initial conditions are provided. 195 196 25. SURF_ONLY: When set to 1, concentration/emission sensitivity is written out only 197 for the surface layer; useful for instance when only footprint emission sensitivity is needed 198 but initial conditions are needed on a full 3-D grid -
trunk/options/RELEASES
r4 r24 1 +++++++++++++++++ HEADER ++++++++++++++++++++ 2 +++++++++++++++++ HEADER ++++++++++++++++++++ 3 +++++++++++++++++ HEADER ++++++++++++++++++++ 4 +++++++++++++++++ HEADER ++++++++++++++++++++ 5 +++++++++++++++++ HEADER ++++++++++++++++++++ 6 +++++++++++++++++ HEADER ++++++++++++++++++++ 7 +++++++++++++++++ HEADER ++++++++++++++++++++ 8 +++++++++++++++++ HEADER ++++++++++++++++++++ 9 +++++++++++++++++ HEADER ++++++++++++++++++++ 10 +++++++++++++++++ HEADER ++++++++++++++++++++ 11 +++++++++++++++++ HEADER ++++++++++++++++++++ 12 5 13 31 14 31 15 31 16 31 17 31 1 ************************************************************************* 2 * * 3 * * 4 * * 5 * Input file for the Lagrangian particle dispersion model FLEXPART * 6 * Please select your options * 7 * * 8 * * 9 * * 10 ************************************************************************* 11 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 12 1 13 ___ i3 Total number of species emitted 18 14 19 20040101 080000 20 20040102 080000 21 8.2500 22 58.3833 23 8.2500 24 58.3833 25 1 26 0.000 27 100.000 28 4000 29 1 30 1 31 1 32 1 33 1 34 rel_bj 15 3 16 ___ i3 Index of species in file SPECIES 35 17 36 20040108 080000 37 20040109 080000 38 8.2500 39 58.3833 40 8.2500 41 58.3833 42 1 43 0.000 44 100.000 45 4000 46 1 47 1 48 1 49 1 50 1 51 rel_bj 18 ========================================================================= 19 20111210 000001 20 ________ ______ i8,1x,i6 Beginning date and time of release 52 21 53 20040115 080000 54 20040116 080000 55 8.2500 56 58.3833 57 8.2500 58 58.3833 59 1 60 0.000 61 100.000 62 4000 63 1 64 1 65 1 66 1 67 1 68 rel_bj 22 20111210 090000 23 ________ ______ i8,1x,i6 Ending date and time of release 69 24 70 20040122 080000 71 20040123 080000 72 8.2500 73 58.3833 74 8.2500 75 58.3833 76 1 77 0.000 78 100.000 79 4000 80 1 81 1 82 1 83 1 84 1 85 rel_bj 25 9.4048 26 ____.____ f9.4 Longitude [DEG] of lower left corner 86 27 87 20040129 080000 88 20040130 080000 89 8.2500 90 58.3833 91 8.2500 92 58.3833 93 1 94 0.000 95 100.000 96 4000 97 1 98 1 99 1 100 1 101 1 102 rel_bj 28 48.5060 29 ____.____ f9.4 Latitude [DEG] of lower left corner 103 30 104 20040205 080000 105 20040206 080000 106 8.2500 107 58.3833 108 8.2500 109 58.3833 110 1 111 0.000 112 100.000 113 4000 114 1 115 1 116 1 117 1 118 1 119 rel_bj 31 9.5067 32 ____.____ f9.4 Longitude [DEG] of upper right corner 120 33 121 20040212 080000 122 20040213 080000 123 8.2500 124 58.3833 125 8.2500 126 58.3833 127 1 128 0.000 129 100.000 130 4000 131 1 132 1 133 1 134 1 135 1 136 rel_bj 34 48.5158 35 ____.____ f9.4 Latitude [DEG] of upper right corner 137 36 138 20040219 080000 139 20040220 080000 140 8.2500 141 58.3833 142 8.2500 143 58.3833 144 1 145 0.000 146 100.000 147 4000 148 1 149 1 150 1 151 1 152 1 153 rel_bj 37 2 38 _________ i9 1 for m above ground, 2 for m above sea level 154 39 155 20040226 080000 156 20040227 080000 157 8.2500 158 58.3833 159 8.2500 160 58.3833 161 1 162 0.000 163 100.000 164 4000 165 1 166 1 167 1 168 1 169 1 170 rel_bj 40 0.00 41 _____.___ f10.3 Lower z-level (in m agl or m asl) 42 43 10.00 44 _____.___ f10.3 Upper z-level (in m agl or m asl) 45 46 20000 47 _________ i9 Total number of particles to be released 171 48 172 20040304 080000 173 20040305 080000 174 8.2500 175 58.3833 176 8.2500 177 58.3833 178 1 179 0.000 180 100.000 181 4000 182 1 183 1 184 1 185 1 186 1 187 rel_bj 49 1.0000E00 50 _.____E__ e9.4 Total mass emitted 188 51 189 20040311 080000 190 20040312 080000 191 8.2500 192 58.3833 193 8.2500 194 58.3833 195 1 196 0.000 197 100.000 198 4000 199 1 200 1 201 1 202 1 203 1 204 rel_bj 205 206 20040318 080000 207 20040319 080000 208 8.2500 209 58.3833 210 8.2500 211 58.3833 212 1 213 0.000 214 100.000 215 4000 216 1 217 1 218 1 219 1 220 1 221 rel_bj 222 223 20040325 080000 224 20040326 080000 225 8.2500 226 58.3833 227 8.2500 228 58.3833 229 1 230 0.000 231 100.000 232 4000 233 1 234 1 235 1 236 1 237 1 238 rel_bj 239 240 20040401 080000 241 20040402 080000 242 8.2500 243 58.3833 244 8.2500 245 58.3833 246 1 247 0.000 248 100.000 249 4000 250 1 251 1 252 1 253 1 254 1 255 rel_bj 256 257 20040408 080000 258 20040409 080000 259 8.2500 260 58.3833 261 8.2500 262 58.3833 263 1 264 0.000 265 100.000 266 4000 267 1 268 1 269 1 270 1 271 1 272 rel_bj 273 274 20040415 080000 275 20040416 080000 276 8.2500 277 58.3833 278 8.2500 279 58.3833 280 1 281 0.000 282 100.000 283 4000 284 1 285 1 286 1 287 1 288 1 289 rel_bj 290 291 20040422 080000 292 20040423 080000 293 8.2500 294 58.3833 295 8.2500 296 58.3833 297 1 298 0.000 299 100.000 300 4000 301 1 302 1 303 1 304 1 305 1 306 rel_bj 307 308 20040429 080000 309 20040430 080000 310 8.2500 311 58.3833 312 8.2500 313 58.3833 314 1 315 0.000 316 100.000 317 4000 318 1 319 1 320 1 321 1 322 1 323 rel_bj 324 325 20040609 080000 326 20040610 080000 327 8.2500 328 58.3833 329 8.2500 330 58.3833 331 1 332 0.000 333 100.000 334 4000 335 1 336 1 337 1 338 1 339 1 340 rel_bj 341 342 20040610 080000 343 20040611 080000 344 8.2500 345 58.3833 346 8.2500 347 58.3833 348 1 349 0.000 350 100.000 351 4000 352 1 353 1 354 1 355 1 356 1 357 rel_bj 358 359 20040617 080000 360 20040618 080000 361 8.2500 362 58.3833 363 8.2500 364 58.3833 365 1 366 0.000 367 100.000 368 4000 369 1 370 1 371 1 372 1 373 1 374 rel_bj 375 376 20040624 080000 377 20040625 080000 378 8.2500 379 58.3833 380 8.2500 381 58.3833 382 1 383 0.000 384 100.000 385 4000 386 1 387 1 388 1 389 1 390 1 391 rel_bj 392 393 20040701 080000 394 20040702 080000 395 8.2500 396 58.3833 397 8.2500 398 58.3833 399 1 400 0.000 401 100.000 402 4000 403 1 404 1 405 1 406 1 407 1 408 rel_bj 409 410 20040708 080000 411 20040709 080000 412 8.2500 413 58.3833 414 8.2500 415 58.3833 416 1 417 0.000 418 100.000 419 4000 420 1 421 1 422 1 423 1 424 1 425 rel_bj 426 427 20040715 080000 428 20040716 080000 429 8.2500 430 58.3833 431 8.2500 432 58.3833 433 1 434 0.000 435 100.000 436 4000 437 1 438 1 439 1 440 1 441 1 442 rel_bj 443 444 20040722 080000 445 20040723 080000 446 8.2500 447 58.3833 448 8.2500 449 58.3833 450 1 451 0.000 452 100.000 453 4000 454 1 455 1 456 1 457 1 458 1 459 rel_bj 460 461 20040729 080000 462 20040730 080000 463 8.2500 464 58.3833 465 8.2500 466 58.3833 467 1 468 0.000 469 100.000 470 4000 471 1 472 1 473 1 474 1 475 1 476 rel_bj 477 478 20040805 080000 479 20040806 080000 480 8.2500 481 58.3833 482 8.2500 483 58.3833 484 1 485 0.000 486 100.000 487 4000 488 1 489 1 490 1 491 1 492 1 493 rel_bj 494 495 20040812 080000 496 20040813 080000 497 8.2500 498 58.3833 499 8.2500 500 58.3833 501 1 502 0.000 503 100.000 504 4000 505 1 506 1 507 1 508 1 509 1 510 rel_bj 511 512 20040819 080000 513 20040820 080000 514 8.2500 515 58.3833 516 8.2500 517 58.3833 518 1 519 0.000 520 100.000 521 4000 522 1 523 1 524 1 525 1 526 1 527 rel_bj 528 529 20040826 080000 530 20040827 080000 531 8.2500 532 58.3833 533 8.2500 534 58.3833 535 1 536 0.000 537 100.000 538 4000 539 1 540 1 541 1 542 1 543 1 544 rel_bj 545 546 20040902 080000 547 20040903 080000 548 8.2500 549 58.3833 550 8.2500 551 58.3833 552 1 553 0.000 554 100.000 555 4000 556 1 557 1 558 1 559 1 560 1 561 rel_bj 562 563 20040909 080000 564 20040910 080000 565 8.2500 566 58.3833 567 8.2500 568 58.3833 569 1 570 0.000 571 100.000 572 4000 573 1 574 1 575 1 576 1 577 1 578 rel_bj 579 580 20040916 080000 581 20040917 080000 582 8.2500 583 58.3833 584 8.2500 585 58.3833 586 1 587 0.000 588 100.000 589 4000 590 1 591 1 592 1 593 1 594 1 595 rel_bj 596 597 20040923 080000 598 20040924 080000 599 8.2500 600 58.3833 601 8.2500 602 58.3833 603 1 604 0.000 605 100.000 606 4000 607 1 608 1 609 1 610 1 611 1 612 rel_bj 613 614 20040930 080000 615 20041001 080000 616 8.2500 617 58.3833 618 8.2500 619 58.3833 620 1 621 0.000 622 100.000 623 4000 624 1 625 1 626 1 627 1 628 1 629 rel_bj 630 631 20041007 080000 632 20041008 080000 633 8.2500 634 58.3833 635 8.2500 636 58.3833 637 1 638 0.000 639 100.000 640 4000 641 1 642 1 643 1 644 1 645 1 646 rel_bj 647 648 20041014 080000 649 20041015 080000 650 8.2500 651 58.3833 652 8.2500 653 58.3833 654 1 655 0.000 656 100.000 657 4000 658 1 659 1 660 1 661 1 662 1 663 rel_bj 664 665 20041021 080000 666 20041022 080000 667 8.2500 668 58.3833 669 8.2500 670 58.3833 671 1 672 0.000 673 100.000 674 4000 675 1 676 1 677 1 678 1 679 1 680 rel_bj 681 682 20041028 080000 683 20041029 080000 684 8.2500 685 58.3833 686 8.2500 687 58.3833 688 1 689 0.000 690 100.000 691 4000 692 1 693 1 694 1 695 1 696 1 697 rel_bj 698 699 20041104 080000 700 20041105 080000 701 8.2500 702 58.3833 703 8.2500 704 58.3833 705 1 706 0.000 707 100.000 708 4000 709 1 710 1 711 1 712 1 713 1 714 rel_bj 715 716 20041111 080000 717 20041112 080000 718 8.2500 719 58.3833 720 8.2500 721 58.3833 722 1 723 0.000 724 100.000 725 4000 726 1 727 1 728 1 729 1 730 1 731 rel_bj 732 733 20041118 080000 734 20041119 080000 735 8.2500 736 58.3833 737 8.2500 738 58.3833 739 1 740 0.000 741 100.000 742 4000 743 1 744 1 745 1 746 1 747 1 748 rel_bj 749 750 20041124 080000 751 20041125 080000 752 8.2500 753 58.3833 754 8.2500 755 58.3833 756 1 757 0.000 758 100.000 759 4000 760 1 761 1 762 1 763 1 764 1 765 rel_bj 766 767 20041125 080000 768 20041126 080000 769 8.2500 770 58.3833 771 8.2500 772 58.3833 773 1 774 0.000 775 100.000 776 4000 777 1 778 1 779 1 780 1 781 1 782 rel_bj 783 784 20041208 080000 785 20041209 080000 786 8.2500 787 58.3833 788 8.2500 789 58.3833 790 1 791 0.000 792 100.000 793 4000 794 1 795 1 796 1 797 1 798 1 799 rel_bj 800 801 20041209 080000 802 20041210 080000 803 8.2500 804 58.3833 805 8.2500 806 58.3833 807 1 808 0.000 809 100.000 810 4000 811 1 812 1 813 1 814 1 815 1 816 rel_bj 817 818 20041216 080000 819 20041217 080000 820 8.2500 821 58.3833 822 8.2500 823 58.3833 824 1 825 0.000 826 100.000 827 4000 828 1 829 1 830 1 831 1 832 1 833 rel_bj 834 835 20041223 080000 836 20041224 080000 837 8.2500 838 58.3833 839 8.2500 840 58.3833 841 1 842 0.000 843 100.000 844 4000 845 1 846 1 847 1 848 1 849 1 850 rel_bj 851 852 20041230 080000 853 20041231 080000 854 8.2500 855 58.3833 856 8.2500 857 58.3833 858 1 859 0.000 860 100.000 861 4000 862 1 863 1 864 1 865 1 866 1 867 rel_bj 868 52 RELEASE_TEST1 53 ________________________________________ character*40 comment 54 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ -
trunk/options/SPECIES/SPECIES_001
r4 r24 9 9 -9.9E-09 Wet deposition - A 10 10 Wet deposition - B 11 -9.9E-09 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 -9.9 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 -9.9 In-cloud scavenging - Ci (S_i=Ci/cl) 14 -9.9 In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 -9.9 Dry deposition (gases) - D 12 16 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_002
r4 r24 9 9 -9.9E-09 Wet deposition - A 10 10 Wet deposition - B 11 -9.9E-09 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 -9.9 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 -9.9 In-cloud scavenging - Ci (S_i=Ci/cl) 14 -9.9 In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 1.5 Dry deposition (gases) - D 12 16 1.0e-02 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_003
r4 r24 9 9 8.0E-06 Wet deposition - A 10 10 0.62 Wet deposition - B 11 2.0E-7 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 0.36 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 0.1 In-cloud scavenging - Ci (S_i=Ci/cl) 14 1. In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 1.2 Dry deposition (gases) - D 12 16 3.0e-03 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_004
r4 r24 9 9 1.0E-05 Wet deposition - A 10 10 0.62 Wet deposition - B 11 2.0E-7 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 0.36 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 0.1 In-cloud scavenging - Ci (S_i=Ci/cl) 14 1. In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 1.6 Dry deposition (gases) - D 12 16 1.0e-02 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_005
r4 r24 9 9 5.0E-05 Wet deposition - A 10 10 0.62 Wet deposition - B 11 2.0E-7 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 0.36 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 0.1 In-cloud scavenging - Ci (S_i=Ci/cl) 14 1. In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 1.9 Dry deposition (gases) - D 12 16 1.0e+14 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_006
r4 r24 9 9 -9.9E-09 Wet deposition - A 10 10 Wet deposition - B 11 -9.9E-09 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 -9.9 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 -9.9 In-cloud scavenging - Ci (S_i=Ci/cl) 14 -9.9 In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 1.6 Dry deposition (gases) - D 12 16 1.0e+05 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_007
r4 r24 9 9 1.0E-04 Wet deposition - A 10 10 0.62 Wet deposition - B 11 2.0E-7 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 0.36 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 0.1 In-cloud scavenging - Ci (S_i=Ci/cl) 14 1. In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 1.4 Dry deposition (gases) - D 12 16 1.0e+05 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_008
r4 r24 9 9 -9.9E-09 Wet deposition - A 10 10 0.62 Wet deposition - B 11 -9.9E-09 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 -9.9 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 -9.9 In-cloud scavenging - Ci (S_i=Ci/cl) 14 -9.9 In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 2.0 Dry deposition (gases) - D 12 16 1.0e+05 Dry deposition (gases) - Henrys const. … … 39 43 16 1.463 1.162 40 44 17 1.426 1.141 41 18 1.326 1.117 45 18 1.326 1.117 42 46 19 1.225 1.109 43 47 20 1.082 1.095 -
trunk/options/SPECIES/SPECIES_009
r4 r24 9 9 -9.9E-09 Wet deposition - A 10 10 Wet deposition - B 11 -9.9E-09 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 -9.9 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 -9.9 In-cloud scavenging - Ci (S_i=Ci/cl) 14 -9.9 In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 1.3 Dry deposition (gases) - D 12 16 6.0e+03 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_010
r4 r24 9 9 -9.9E-09 Wet deposition - A 10 10 Wet deposition - B 11 -9.9E-09 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 -9.9 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 -9.9 In-cloud scavenging - Ci (S_i=Ci/cl) 14 -9.9 In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 2.6 Dry deposition (gases) - D 12 16 3.6e+00 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_011
r4 r24 9 9 9.9E-05 Wet deposition - A 10 10 0.62 Wet deposition - B 11 2.0E-7 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 0.36 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 0.1 In-cloud scavenging - Ci (S_i=Ci/cl) 14 1. In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 1.1 Dry deposition (gases) - D 12 16 2.0e+14 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_012
r4 r24 9 9 5.0E-06 Wet deposition - A 10 10 0.62 Wet deposition - B 11 2.0E-7 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 0.36 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 0.1 In-cloud scavenging - Ci (S_i=Ci/cl) 14 1. In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 -9.9 Dry deposition (gases) - D 12 16 1.0E-09 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_013
r4 r24 9 9 5.0E-06 Wet deposition - A 10 10 0.62 Wet deposition - B 11 2.0E-7 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 0.36 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 0.1 In-cloud scavenging - Ci (S_i=Ci/cl) 14 1. In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 -9.9 Dry deposition (gases) - D 12 16 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_014
r4 r24 9 9 8.0E-05 Wet deposition - A 10 10 0.62 Wet deposition - B 11 2.0E-7 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 0.36 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 0.1 In-cloud scavenging - Ci (S_i=Ci/cl) 14 1. In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 2.7 Dry deposition (gases) - D 12 16 1.0e+05 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_015
r4 r24 9 9 1.0E-04 Wet deposition - A 10 10 0.80 Wet deposition - B 11 2.0E-7 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 0.36 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 0.1 In-cloud scavenging - Ci (S_i=Ci/cl) 14 1. In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 -9.9 Dry deposition (gases) - D 12 16 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_016
r4 r24 9 9 1.0E-04 Wet deposition - A 10 10 0.80 Wet deposition - B 11 2.0E-7 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 0.36 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 0.1 In-cloud scavenging - Ci (S_i=Ci/cl) 14 1. In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 -9.9 Dry deposition (gases) - D 12 16 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_017
r4 r24 9 9 1.0E-04 Wet deposition - A 10 10 0.80 Wet deposition - B 11 2.0E-7 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 0.36 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 0.1 In-cloud scavenging - Ci (S_i=Ci/cl) 14 1. In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 -9.9 Dry deposition (gases) - D 12 16 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_018
r4 r24 9 9 1.0E-04 Wet deposition - A 10 10 0.80 Wet deposition - B 11 2.0E-7 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 0.36 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 0.1 In-cloud scavenging - Ci (S_i=Ci/cl) 14 1. In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 -9.9 Dry deposition (gases) - D 12 16 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_019
r4 r24 9 9 -9.9E-09 Wet deposition - A 10 10 Wet deposition - B 11 -9.9E-09 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 -9.9 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 -9.9 In-cloud scavenging - Ci (S_i=Ci/cl) 14 -9.9 In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 -9.9 Dry deposition (gases) - D 12 16 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_020
r4 r24 9 9 1.0E-04 Wet deposition - A 10 10 0.80 Wet deposition - B 11 2.0E-7 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 0.36 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 0.1 In-cloud scavenging - Ci (S_i=Ci/cl) 14 1. In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 -9.9 Dry deposition (gases) - D 12 16 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_021
r4 r24 6 6 **************************************************************************** 7 7 Xe-133 Tracer name 8 198720.0 Species half life8 453168.0 Species half life 9 9 -9.9E-09 Wet deposition - A 10 10 Wet deposition - B 11 -9.9E-09 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 -9.9 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 -9.9 In-cloud scavenging - Ci (S_i=Ci/cl) 14 -9.9 In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 -9.9 Dry deposition (gases) - D 12 16 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_022
r4 r24 9 9 -9.9E-09 Wet deposition - A 10 10 Wet deposition - B 11 -9.9E-09 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 -9.9 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 -9.9 In-cloud scavenging - Ci (S_i=Ci/cl) 14 -9.9 In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 -9.9 Dry deposition (gases) - D 12 16 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_024
r4 r24 9 9 -9.9E-09 Wet deposition - A 10 10 Wet deposition - B 11 -9.9E-09 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 -9.9 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 -9.9 In-cloud scavenging - Ci (S_i=Ci/cl) 14 -9.9 In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 -9.9 Dry deposition (gases) - D 12 16 Dry deposition (gases) - Henrys const. -
trunk/options/SPECIES/SPECIES_025
r4 r24 9 9 2.0E-05 Wet deposition - A 10 10 0.8 Wet deposition - B 11 2.0E-7 In-cloud scavenging - Ai (cl=Ai*prec**Bi) 12 0.36 In-cloud scavenging - Bi (cl=Ai*prec**Bi) 13 0.1 In-cloud scavenging - Ci (S_i=Ci/cl) 14 1. In-cloud scavenging - Di (wetscav=S_i*prec/3.6E6/clouds_h/Di) 11 15 -9.9 Dry deposition (gases) - D 12 16 Dry deposition (gases) - Henrys const.
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