Commit b13d183c authored by dingwell's avatar dingwell
Browse files

Added and updated examples with new input options

parent 165cd9bc
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YYYYMMDD HHMMSS name of the file(up to 80 characters)
20100518 000000 'wrfout_d02_2010-05-18_00.nc' ' '
20100518 003000 'wrfout_d02_2010-05-18_00.nc' ' '
20100518 010000 'wrfout_d02_2010-05-18_00.nc' ' '
20100518 013000 'wrfout_d02_2010-05-18_00.nc' ' '
20100518 020000 'wrfout_d02_2010-05-18_00.nc' ' '
20100518 023000 'wrfout_d02_2010-05-18_00.nc' ' '
20100518 030000 'wrfout_d02_2010-05-18_03.nc' ' '
20100518 033000 'wrfout_d02_2010-05-18_03.nc' ' '
20100518 040000 'wrfout_d02_2010-05-18_03.nc' ' '
20100518 043000 'wrfout_d02_2010-05-18_03.nc' ' '
20100518 050000 'wrfout_d02_2010-05-18_03.nc' ' '
20100518 053000 'wrfout_d02_2010-05-18_03.nc' ' '
20100518 060000 'wrfout_d02_2010-05-18_06.nc' ' '
20100518 063000 'wrfout_d02_2010-05-18_06.nc' ' '
20100518 070000 'wrfout_d02_2010-05-18_06.nc' ' '
20100518 073000 'wrfout_d02_2010-05-18_06.nc' ' '
20100518 080000 'wrfout_d02_2010-05-18_06.nc' ' '
20100518 083000 'wrfout_d02_2010-05-18_06.nc' ' '
20100518 090000 'wrfout_d02_2010-05-18_09.nc' ' '
20100518 093000 'wrfout_d02_2010-05-18_09.nc' ' '
20100518 100000 'wrfout_d02_2010-05-18_09.nc' ' '
20100518 103000 'wrfout_d02_2010-05-18_09.nc' ' '
20100518 110000 'wrfout_d02_2010-05-18_09.nc' ' '
20100518 113000 'wrfout_d02_2010-05-18_09.nc' ' '
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XXXXXX EMPTY LINES XXXXXXXX
YYYYMMDD HHMMSS name of the file(up to 80 characters)
20100518 000000 'wrfout_d03_2010-05-18_00.nc' ' '
20100518 003000 'wrfout_d03_2010-05-18_00.nc' ' '
20100518 010000 'wrfout_d03_2010-05-18_00.nc' ' '
20100518 013000 'wrfout_d03_2010-05-18_00.nc' ' '
20100518 020000 'wrfout_d03_2010-05-18_00.nc' ' '
20100518 023000 'wrfout_d03_2010-05-18_00.nc' ' '
20100518 030000 'wrfout_d03_2010-05-18_03.nc' ' '
20100518 033000 'wrfout_d03_2010-05-18_03.nc' ' '
20100518 040000 'wrfout_d03_2010-05-18_03.nc' ' '
20100518 043000 'wrfout_d03_2010-05-18_03.nc' ' '
20100518 050000 'wrfout_d03_2010-05-18_03.nc' ' '
20100518 053000 'wrfout_d03_2010-05-18_03.nc' ' '
20100518 060000 'wrfout_d03_2010-05-18_06.nc' ' '
20100518 063000 'wrfout_d03_2010-05-18_06.nc' ' '
20100518 070000 'wrfout_d03_2010-05-18_06.nc' ' '
20100518 073000 'wrfout_d03_2010-05-18_06.nc' ' '
20100518 080000 'wrfout_d03_2010-05-18_06.nc' ' '
20100518 083000 'wrfout_d03_2010-05-18_06.nc' ' '
20100518 090000 'wrfout_d03_2010-05-18_09.nc' ' '
20100518 093000 'wrfout_d03_2010-05-18_09.nc' ' '
20100518 100000 'wrfout_d03_2010-05-18_09.nc' ' '
20100518 103000 'wrfout_d03_2010-05-18_09.nc' ' '
20100518 110000 'wrfout_d03_2010-05-18_09.nc' ' '
20100518 113000 'wrfout_d03_2010-05-18_09.nc' ' '
Those test cases can be run by copying a compiled binary and the flexwrf.input file of a test case in a directory. In addition, data from the directory src_flexwrf_v3.0/data are required for calculating dry deposition for the Cesium species.
The three test cases cover most of the format the input file should have if 2 output grid nests, ageclasses, several species with hourly emission variations are used.
an example of AVAILABLE file with the proper format is given for 2 different domains, assuming that each WRF output has 6 time frames with a time interval output of 30 minutes.
#################################
file flexwrf.input.forward1:
- This case is a forward run (using LDIRECT=1)
- The output gives the concentration and deposition from the total release of the 2 release location by using IOUTPUTFOREACHREL=0
- a passive airtracer and Cesium particles are released (NSPEC=2), without any hourly emission variation (EMITVAR=0)
- 2 output grid are defined. They are defined using latitude/longitude coordinates, the number of grid cells and the grid spacing
- 2 ageclasses are asked by using LAGESPECTRA=1
- The NetCDF output format is selected, with 3 time frames per file.
Because the species #1 is a passive tracer, the dry and wet deposition fields
are empty. The wet and dry deposition fields exist for species #2
This test case can be run by typing
./flexwrf30_pgi_omp flexwrf.input.forward1
if, for instance, an OpenMP is compiled.
#################################
file flexwrf.input.forward2:
- This case is a forward run (using LDIRECT=1)
- The output gives the concentration and deposition from each release location by using IOUTPUTFOREACHREL=1
- a passive airtracer and Cesium particles are released (NSPEC=2), with hourly and daily emission variation (EMITVAR=1)
- 1 output grid is defined. It is defined base on metric coordinates of the WRF output
- No ageclass is used because LAGESPECTRA=0
- The NetCDF output format is selected, with 1 time frame per file. because IOUTPUTFOREACHREL=1, an additional dimension is used in the netcdf file compared to the case flexwrf.input.forward1
This test case can be run by typing
./flexwrf30_pgi_omp flexwrf.input.forward2
if, for instance, an OpenMP is compiled.
#################################
file flexwrf.input.backward1:
- This case is a backward run (using LDIRECT=-1)
- Only one species is emitted, the passive airtracer.
- The output gives the source-receptor relationship of the 3 release locations over Los Angeles Basin. Their vertical location is defined based on pressure
- 1 output grid is defined.
- No ageclass is used because LAGESPECTRA=0
- The binary format is selected. The header file (binary format), latlon*.txt files (ascii format) and grid_time* (binary format) files are generated.
This test case can be run by typing
./flexwrf30_pgi_omp flexwrf.input.backward1
if, for instance, an OpenMP is compiled.
#################################
file flexwrf.input.backward2:
Identical to flexwrf.input.backward1 except that 2 WRF nested output are read. (The nested WRF output files is not available on http://www.flexpart.eu)
In such case, the OUTPUT grid can be defined in WRF coordinates but relative to the outer WRF domain.
=====================FORMER PATHNAMES FILE===================
/scratch2/portfolios/BMC/stela/jbrioude/flexwrf_backward1/
/scratch2/portfolios/BMC/stela/jbrioude/wrfnomodif2/
/scratch2/portfolios/BMC/stela/jbrioude/wrfnomodif2/AVAILABLE2
=============================================================
=====================FORMER COMMAND FILE=====================
-1 LDIRECT: 1 for forward simulation, -1 for backward simulation
20100518 000000 YYYYMMDD HHMISS beginning date of simulation
20100518 110000 YYYYMMDD HHMISS ending date of simulation
3600 SSSSS (int) output every SSSSS seconds
3600 SSSSS (int) time average of output (in SSSSS seconds)
180 SSSSS (int) sampling rate of output (in SSSSS seconds)
999999999 SSSSS (int) time constant for particle splitting (in seconds)
180 SSSSS (int) synchronisation interval of flexpart (in seconds)
10. CTL (real) factor by which time step must be smaller than tl
10 IFINE (int) decrease of time step for vertical motion by factor ifine
1 IOUT 1 concentration, 2 mixing ratio, 3 both, 4 plume traject, 5=1+4
0 IPOUT particle dump: 0 no, 1 every output interval, 2 only at end
0 LSUBGRID subgrid terrain effect parameterization: 1 yes, 0 no
0 LCONVECTION convection: 3 yes, 0 no
3600. DT_CONV (real) time interval to call convection, seconds
0 LAGESPECTRA age spectra: 1 yes, 0 no
0 IPIN continue simulation with dumped particle data: 1 yes, 0 no
0 IFLUX calculate fluxes: 1 yes, 0 no
1 IOUTPUTFOREACHREL CREATE AN OUPUT FILE FOR EACH RELEASE LOCATION: 1 YES, 0 NO
0 MDOMAINFILL domain-filling trajectory option: 1 yes, 0 no, 2 strat. o3 tracer
1 IND_SOURCE 1=mass unit , 2=mass mixing ratio unit
2 IND_RECEPTOR 1=mass unit , 2=mass mixing ratio unit
0 NESTED_OUTPUT shall nested output be used? 1 yes, 0 no
0 LINIT_COND INITIAL COND. FOR BW RUNS: 0=NO,1=MASS UNIT,2=MASS MIXING RATIO UNIT
1 TURB_OPTION 0=no turbulence; 1=diagnosed as in flexpart_ecmwf; 2 and 3=from tke.
0 LU_OPTION 0=old landuse (IGBP.dat); 1=landuse from WRF
1 CBL SCHEME 0=no, 1=yes. works if TURB_OPTION=1
1 SFC_OPTION 0=default computation of u*, hflux, pblh, 1=from wrf
-1 WIND_OPTION 0=snapshot winds, 1=mean winds,2=snapshot eta-dot,-1=w based on divergence
0 TIME_OPTION 1=correction of time validity for time-average wind, 0=no need
0 OUTGRID_COORD 0=wrf grid(meters), 1=regular lat/lon grid
1 RELEASE_COORD 0=wrf grid(meters), 1=regular lat/lon grid
0 IOUTTYPE 0=default binary, 1=ascii (for particle dump only),2=netcdf
3 NCTIMEREC (int) Time frames per output file, only used for netcdf
0 VERBOSE VERBOSE MODE,0=minimum, 100=maximum
=====================FORMER AGECLASESS FILE==================
2 NAGECLASS number of age classes
7200 SSSSSS (int) age class in SSSSS seconds
999999 SSSSSS (int) age class in SSSSS seconds
=====================FORMER OUTGRID FILE=====================
0. OUTLONLEFT geograhical longitude of lower left corner of output grid
0. OUTLATLOWER geographical latitude of lower left corner of output grid
100 NUMXGRID number of grid points in x direction (= # of cells )
120 NUMYGRID number of grid points in y direction (= # of cells )
1 OUTGRIDDEF outgrid defined 0=using grid distance, 1=upperright corner coordinate
1200000. DXOUTLON grid distance in x direction or upper right corner of output grid
1440000. DYOUTLON grid distance in y direction or upper right corner of output grid
2 NUMZGRID number of vertical levels
100.0 LEVEL height of level (upper boundary)
20000.0 LEVEL height of level (upper boundary)
=====================FORMER RECEPTOR FILE====================
0 NUMRECEPTOR number of receptors
=====================FORMER SPECIES FILE=====================
2 NUMTABLE number of variable properties. The following lines are fixed format
XXXX|NAME |decaytime |wetscava |wetsb|drydif|dryhenry|drya|partrho |parmean|partsig|dryvelo|weight |
AIRTRACER -999.9 -9.9E-09 -9.9 -9.9E09 -9.99 29.00
Cs-137 -999.9 1.0E-04 0.80 -9.9 2.5E03 6.0E-7 3.0E-1 -9.99 -9.99
=====================FORMER RELEEASES FILE===================
1 NSPEC total number of species emitted
0 EMITVAR 1 for emission variation
1 LINK index of species in file SPECIES
3 NUMPOINT number of releases
20100518 110000 ID1, IT1 beginning date and time of release
20100518 110000 ID2, IT2 ending date and time of release
-117.6152 XPOINT1 (real) longitude [deg] of lower left corner
34.0450 YPOINT1 (real) latitude [deg] of lower left corner
-117.5952 XPOINT2 (real) longitude [deg] of upper right corner
34.0650 YPOINT2 (real) latitude [DEG] of upper right corner
3 KINDZ (int) 1 for m above ground, 2 for m above sea level, 3 pressure
984.3800 ZPOINT1 (real) lower z-level
972.5500 ZPOINT2 (real) upper z-level
10000 NPART (int) total number of particles to be released
.1000E+01 XMASS (real) total mass emitted
release1 NAME OF RELEASE LOCATION
20100518 110000
20100518 110000
-118.0229
34.1349
-117.9913
34.1356
3
932.270
922.270
10000
.1000E+01
release2
20100518 110000
20100518 110000
-116.9502
33.7114
-116.9183
33.7341
3
687.110
677.110
10000
.1000E+01
release3
=====================FORMER PATHNAMES FILE===================
/scratch2/portfolios/BMC/stela/jbrioude/flexwrf_backward2/
/scratch2/portfolios/BMC/stela/jbrioude/wrfnomodif2/
/scratch2/portfolios/BMC/stela/jbrioude/wrfnomodif2/AVAILABLE2
/scratch2/portfolios/BMC/stela/jbrioude/wrfnomodif2/
/scratch2/portfolios/BMC/stela/jbrioude/wrfnomodif2/AVAILABLE3
=============================================================
=====================FORMER COMMAND FILE=====================
-1 LDIRECT: 1 for forward simulation, -1 for backward simulation
20100518 000000 YYYYMMDD HHMISS beginning date of simulation
20100518 110000 YYYYMMDD HHMISS ending date of simulation
3600 SSSSS (int) output every SSSSS seconds
3600 SSSSS (int) time average of output (in SSSSS seconds)
180 SSSSS (int) sampling rate of output (in SSSSS seconds)
999999999 SSSSS (int) time constant for particle splitting (in seconds)
180 SSSSS (int) synchronisation interval of flexpart (in seconds)
10. CTL (real) factor by which time step must be smaller than tl
10 IFINE (int) decrease of time step for vertical motion by factor ifine
1 IOUT 1 concentration, 2 mixing ratio, 3 both, 4 plume traject, 5=1+4
0 IPOUT particle dump: 0 no, 1 every output interval, 2 only at end
0 LSUBGRID subgrid terrain effect parameterization: 1 yes, 0 no
0 LCONVECTION convection: 3 yes, 0 no
3600. DT_CONV (real) time interval to call convection, seconds
0 LAGESPECTRA age spectra: 1 yes, 0 no
0 IPIN continue simulation with dumped particle data: 1 yes, 0 no
0 IFLUX calculate fluxes: 1 yes, 0 no
1 IOUTPUTFOREACHREL CREATE AN OUPUT FILE FOR EACH RELEASE LOCATION: 1 YES, 0 NO
0 MDOMAINFILL domain-filling trajectory option: 1 yes, 0 no, 2 strat. o3 tracer
1 IND_SOURCE 1=mass unit , 2=mass mixing ratio unit
2 IND_RECEPTOR 1=mass unit , 2=mass mixing ratio unit
0 NESTED_OUTPUT shall nested output be used? 1 yes, 0 no
0 LINIT_COND INITIAL COND. FOR BW RUNS: 0=NO,1=MASS UNIT,2=MASS MIXING RATIO UNIT
1 TURB_OPTION 0=no turbulence; 1=diagnosed as in flexpart_ecmwf; 2 and 3=from tke.
0 LU_OPTION 0=old landuse (IGBP.dat); 1=landuse from WRF
1 CBL SCHEME 0=no, 1=yes. works if TURB_OPTION=1
1 SFC_OPTION 0=default computation of u*, hflux, pblh, 1=from wrf
-1 WIND_OPTION 0=snapshot winds, 1=mean winds,2=snapshot eta-dot,-1=w based on divergence
0 TIME_OPTION 1=correction of time validity for time-average wind, 0=no need
0 OUTGRID_COORD 0=wrf grid(meters), 1=regular lat/lon grid
1 RELEASE_COORD 0=wrf grid(meters), 1=regular lat/lon grid
0 IOUTTYPE 0=default binary, 1=ascii (for particle dump only),2=netcdf
3 NCTIMEREC (int) Time frames per output file, only used for netcdf
0 VERBOSE VERBOSE MODE,0=minimum, 100=maximum
=====================FORMER AGECLASESS FILE==================
2 NAGECLASS number of age classes
7200 SSSSSS (int) age class in SSSSS seconds
999999 SSSSSS (int) age class in SSSSS seconds
=====================FORMER OUTGRID FILE=====================
0. OUTLONLEFT geograhical longitude of lower left corner of output grid
0. OUTLATLOWER geographical latitude of lower left corner of output grid
100 NUMXGRID number of grid points in x direction (= # of cells )
120 NUMYGRID number of grid points in y direction (= # of cells )
1 OUTGRIDDEF outgrid defined 0=using grid distance, 1=upperright corner coordinate
1200000. DXOUTLON grid distance in x direction or upper right corner of output grid
1440000. DYOUTLON grid distance in y direction or upper right corner of output grid
2 NUMZGRID number of vertical levels
100.0 LEVEL height of level (upper boundary)
20000.0 LEVEL height of level (upper boundary)
=====================FORMER RECEPTOR FILE====================
0 NUMRECEPTOR number of receptors
=====================FORMER SPECIES FILE=====================
2 NUMTABLE number of variable properties. The following lines are fixed format
XXXX|NAME |decaytime |wetscava |wetsb|drydif|dryhenry|drya|partrho |parmean|partsig|dryvelo|weight |
AIRTRACER -999.9 -9.9E-09 -9.9 -9.9E09 -9.99 29.00
Cs-137 -999.9 1.0E-04 0.80 -9.9 2.5E03 6.0E-7 3.0E-1 -9.99 -9.99
=====================FORMER RELEEASES FILE===================
1 NSPEC total number of species emitted
0 EMITVAR 1 for emission variation
1 LINK index of species in file SPECIES
3 NUMPOINT number of releases
20100518 110000 ID1, IT1 beginning date and time of release
20100518 110000 ID2, IT2 ending date and time of release
-117.6152 XPOINT1 (real) longitude [deg] of lower left corner
34.0450 YPOINT1 (real) latitude [deg] of lower left corner
-117.5952 XPOINT2 (real) longitude [deg] of upper right corner
34.0650 YPOINT2 (real) latitude [DEG] of upper right corner
3 KINDZ (int) 1 for m above ground, 2 for m above sea level, 3 pressure
984.3800 ZPOINT1 (real) lower z-level
972.5500 ZPOINT2 (real) upper z-level
10000 NPART (int) total number of particles to be released
.1000E+01 XMASS (real) total mass emitted
release1 NAME OF RELEASE LOCATION
20100518 110000
20100518 110000
-118.0229
34.1349
-117.9913
34.1356
3
932.270
922.270
10000
.1000E+01
release2
20100518 110000
20100518 110000
-116.9502
33.7114
-116.9183
33.7341
3
687.110
677.110
10000
.1000E+01
release3
=====================FORMER PATHNAMES FILE===================
/scratch2/portfolios/BMC/stela/jbrioude/test_depo1/
/scratch2/portfolios/BMC/stela/jbrioude/wrfnomodif2/
/scratch2/portfolios/BMC/stela/jbrioude/wrfnomodif2/AVAILABLE2
=============================================================
=====================FORMER COMMAND FILE=====================
1 LDIRECT: 1 for forward simulation, -1 for backward simulation
20100518 000000 YYYYMMDD HHMISS beginning date of simulation
20100518 110000 YYYYMMDD HHMISS ending date of simulation
3600 SSSSS (int) output every SSSSS seconds
3600 SSSSS (int) time average of output (in SSSSS seconds)
180 SSSSS (int) sampling rate of output (in SSSSS seconds)
999999999 SSSSS (int) time constant for particle splitting (in seconds)
180 SSSSS (int) synchronisation interval of flexpart (in seconds)
10. CTL (real) factor by which time step must be smaller than tl
10 IFINE (int) decrease of time step for vertical motion by factor ifine
1 IOUT 1 concentration, 2 mixing ratio, 3 both, 4 plume traject, 5=1+4
0 IPOUT particle dump: 0 no, 1 every output interval, 2 only at end
0 LSUBGRID subgrid terrain effect parameterization: 1 yes, 0 no
0 LCONVECTION convection: 3 yes, 0 no
3600. DT_CONV (real) time interval to call convection, seconds
1 LAGESPECTRA age spectra: 1 yes, 0 no
0 IPIN continue simulation with dumped particle data: 1 yes, 0 no
0 IFLUX calculate fluxes: 1 yes, 0 no
0 IOUTPUTFOREACHREL CREATE AN OUPUT FILE FOR EACH RELEASE LOCATION: 1 YES, 0 NO
0 MDOMAINFILL domain-filling trajectory option: 1 yes, 0 no, 2 strat. o3 tracer
1 IND_SOURCE 1=mass unit , 2=mass mixing ratio unit
2 IND_RECEPTOR 1=mass unit , 2=mass mixing ratio unit
1 NESTED_OUTPUT shall nested output be used? 1 yes, 0 no
0 LINIT_COND INITIAL COND. FOR BW RUNS: 0=NO,1=MASS UNIT,2=MASS MIXING RATIO UNIT
1 TURB_OPTION 0=no turbulence; 1=diagnosed as in flexpart_ecmwf; 2 and 3=from tke.
0 LU_OPTION 0=old landuse (IGBP.dat); 1=landuse from WRF
0 CBL SCHEME 0=no, 1=yes. works if TURB_OPTION=1
1 SFC_OPTION 0=default computation of u*, hflux, pblh, 1=from wrf
1 WIND_OPTION 0=snapshot winds, 1=mean winds,2=snapshot eta-dot,-1=w based on divergence
1 TIME_OPTION 1=correction of time validity for time-average wind, 0=no need
1 OUTGRID_COORD 0=wrf grid(meters), 1=regular lat/lon grid
1 RELEASE_COORD 0=wrf grid(meters), 1=regular lat/lon grid
2 IOUTTYPE 0=default binary, 1=ascii (for particle dump only),2=netcdf
3 NCTIMEREC (int) Time frames per output file, only used for netcdf
0 VERBOSE VERBOSE MODE,0=minimum, 100=maximum
=====================FORMER AGECLASESS FILE==================
2 NAGECLASS number of age classes
7200 SSSSSS (int) age class in SSSSS seconds
999999 SSSSSS (int) age class in SSSSS seconds
=====================FORMER OUTGRID FILE=====================
-123.00 OUTLONLEFT geograhical longitude of lower left corner of output grid
38.0 OUTLATLOWER geographical latitude of lower left corner of output grid
24 NUMXGRID number of grid points in x direction (= # of cells )
28 NUMYGRID number of grid points in y direction (= # of cells )
0 OUTGRIDDEF outgrid defined 0=using grid distance, 1=upperright corner coordinate
0.1250 DXOUTLON grid distance in x direction or upper right corner of output grid
0.1250 DYOUTLON grid distance in y direction or upper right corner of output grid
3 NUMZGRID number of vertical levels
100.0 LEVEL height of level (upper boundary)
1000.0 LEVEL height of level (upper boundary)
20000.0 LEVEL height of level (upper boundary)
================OUTGRID_NEST==========================
-123. OUTLONLEFT geograhical longitude of lower left corner of output grid
38.00 OUTLATLOWER geographical latitude of lower left corner of output grid
24 NUMXGRID number of grid points in x direction (= # of cells )
28 NUMYGRID number of grid points in y direction (= # of cells )
0 OUTGRIDDEF outgrid defined 0=using grid distance, 1=upperright corner coordinate
0.125 DXOUTLON grid distance in x direction or upper right corner of output grid
0.125 DYOUTLON grid distance in y direction or upper right corner of output grid
=====================FORMER RECEPTOR FILE====================
0 NUMRECEPTOR number of receptors
=====================FORMER SPECIES FILE=====================
2 NUMTABLE number of variable properties. The following lines are fixed format
XXXX|NAME |decaytime |wetscava |wetsb|drydif|dryhenry|drya|partrho |parmean|partsig|dryvelo|weight |
AIRTRACER -999.9 -9.9E-09 -9.9 -9.9E09 -9.99 29.00
Cs-137 -999.9 1.0E-04 0.80 -9.9 2.5E03 6.0E-7 3.0E-1 -9.99 -9.99
=====================FORMER RELEEASES FILE===================
2 NSPEC total number of species emitted
0 EMITVAR 1 for emission variation
1 LINK index of species in file SPECIES
2 LINK index of species in file SPECIES
2 NUMPOINT number of releases
20100518 000000 ID1, IT1 beginning date and time of release
20100518 110000 ID2, IT2 ending date and time of release
-123.0000 XPOINT1 (real) longitude [deg] of lower left corner
40.3000 YPOINT1 (real) latitude [deg] of lower left corner
-122.6000 XPOINT2 (real) longitude [deg] of upper right corner
40.6000 YPOINT2 (real) latitude [DEG] of upper right corner
1 KINDZ (int) 1 for m above ground, 2 for m above sea level, 3 pressure
100.000 ZPOINT1 (real) lower z-level
1000.000 ZPOINT2 (real) upper z-level
50000 NPART (int) total number of particles to be released
.1000E+04 XMASS (real) total mass emitted
.1000E+04 XMASS (real) total mass emitted
box1 NAME OF RELEASE LOCATION
20100518 000000
20100518 110000
-122.0000
38.3000
-121.6000
38.6000
1
100.000
1000.000
50000
.5000E+04
.1000E+04
box2
=====================FORMER PATHNAMES FILE===================
/scratch2/portfolios/BMC/stela/jbrioude/flexwrf_forward2/
/scratch2/portfolios/BMC/stela/jbrioude/wrfnomodif2/
/scratch2/portfolios/BMC/stela/jbrioude/wrfnomodif2/AVAILABLE2
=============================================================
=====================FORMER COMMAND FILE=====================
1 LDIRECT: 1 for forward simulation, -1 for backward simulation
20100518 000000 YYYYMMDD HHMISS beginning date of simulation
20100518 110000 YYYYMMDD HHMISS ending date of simulation
3600 SSSSS (int) output every SSSSS seconds
3600 SSSSS (int) time average of output (in SSSSS seconds)
180 SSSSS (int) sampling rate of output (in SSSSS seconds)
999999999 SSSSS (int) time constant for particle splitting (in seconds)
180 SSSSS (int) synchronisation interval of flexpart (in seconds)
10. CTL (real) factor by which time step must be smaller than tl
10 IFINE (int) decrease of time step for vertical motion by factor ifine
1 IOUT 1 concentration, 2 mixing ratio, 3 both, 4 plume traject, 5=1+4
0 IPOUT particle dump: 0 no, 1 every output interval, 2 only at end
0 LSUBGRID subgrid terrain effect parameterization: 1 yes, 0 no
0 LCONVECTION convection: 3 yes, 0 no
3600. DT_CONV (real) time interval to call convection, seconds
0 LAGESPECTRA age spectra: 1 yes, 0 no
0 IPIN continue simulation with dumped particle data: 1 yes, 0 no
0 IFLUX calculate fluxes: 1 yes, 0 no
1 IOUTPUTFOREACHREL CREATE AN OUPUT FILE FOR EACH RELEASE LOCATION: 1 YES, 0 NO
0 MDOMAINFILL domain-filling trajectory option: 1 yes, 0 no, 2 strat. o3 tracer
1 IND_SOURCE 1=mass unit , 2=mass mixing ratio unit
1 IND_RECEPTOR 1=mass unit , 2=mass mixing ratio unit
0 NESTED_OUTPUT shall nested output be used? 1 yes, 0 no
0 LINIT_COND INITIAL COND. FOR BW RUNS: 0=NO,1=MASS UNIT,2=MASS MIXING RATIO UNIT
1 TURB_OPTION 0=no turbulence; 1=diagnosed as in flexpart_ecmwf; 2 and 3=from tke.
0 LU_OPTION 0=old landuse (IGBP.dat); 1=landuse from WRF
1 CBL SCHEME 0=no, 1=yes. works if TURB_OPTION=1
1 SFC_OPTION 0=default computation of u*, hflux, pblh, 1=from wrf
0 WIND_OPTION 0=snapshot winds, 1=mean winds,2=snapshot eta-dot,-1=w based on divergence
0 TIME_OPTION 1=correction of time validity for time-average wind, 0=no need
0 OUTGRID_COORD 0=wrf grid(meters), 1=regular lat/lon grid
1 RELEASE_COORD 0=wrf grid(meters), 1=regular lat/lon grid
2 IOUTTYPE 0=default binary, 1=ascii (for particle dump only),2=netcdf
1 NCTIMEREC (int) Time frames per output file, only used for netcdf
0 VERBOSE VERBOSE MODE,0=minimum, 100=maximum
=====================FORMER AGECLASESS FILE==================
2 NAGECLASS number of age classes
7200 SSSSSS (int) age class in SSSSS seconds
999999 SSSSSS (int) age class in SSSSS seconds
=====================FORMER OUTGRID FILE=====================
0. OUTLONLEFT geograhical longitude of lower left corner of output grid
0. OUTLATLOWER geographical latitude of lower left corner of output grid
100 NUMXGRID number of grid points in x direction (= # of cells )
120 NUMYGRID number of grid points in y direction (= # of cells )
1 OUTGRIDDEF outgrid defined 0=using grid distance, 1=upperright corner coordinate
1200000. DXOUTLON grid distance in x direction or upper right corner of output grid
1440000. DYOUTLON grid distance in y direction or upper right corner of output grid
3 NUMZGRID number of vertical levels
100.0 LEVEL height of level (upper boundary)
1000.0 LEVEL height of level (upper boundary)
20000.0 LEVEL height of level (upper boundary)
=====================FORMER RECEPTOR FILE====================
0 NUMRECEPTOR number of receptors
=====================FORMER SPECIES FILE=====================
2 NUMTABLE number of variable properties. The following lines are fixed format
XXXX|NAME |decaytime |wetscava |wetsb|drydif|dryhenry|drya|partrho |parmean|partsig|dryvelo|weight |
AIRTRACER -999.9 -9.9E-09 -9.9 -9.9E09 -9.99 29.00
Cs-137 -999.9 1.0E-04 0.80 -9.9 2.5E03 6.0E-7 3.0E-1 -9.99 -9.99
=====================FORMER RELEEASES FILE===================
2 NSPEC total number of species emitted
1 EMITVAR 1 for emission variation
1 LINK index of species in file SPECIES
0 0.487 0.932 0-1 local time
1 0.273 0.931 1-2 local time
2 0.169 0.927
3 0.138 0.926
4 0.212 0.928
5 0.492 0.936
6 0.993 0.952
7 1.386 0.975
8 1.493 1.046
9 1.299 1.055
10 1.218 1.061
11 1.204 1.064
12 1.228 1.067
13 1.273 1.068
14 1.334 1.069
15 1.475 1.068
16 1.570 1.024
17 1.645 1.017
18 1.590 1.008
19 1.312 1.007
20 1.021 1.004
21 0.854 0.996
22 0.753 0.981
23 0.580 0.958 23-24 local time
1 1.000 1.000 Monday
2 1.000 1.000 Tuesday
3 1.000 1.000 Wednesday
4 1.000 1.000 Thursday
5 1.000 1.000 Friday
6 1.000 1.000 Saturday
7 1.000 1.000 Sunday
2 LINK index of species in file SPECIES
0 0.487 0.932 0-1 local time
1 0.273 0.931 1-2 local time
2 0.169 0.927
3 0.138 0.926
4 0.212 0.928
5 0.492 0.936
6 0.993 0.952
7 1.386 0.975
8 1.493 1.046
9 1.299 1.055
10 1.218 1.061
11 1.204 1.064
12 1.228 1.067
13 1.273 1.068
14 1.334 1.069
15 1.475 1.068
16 1.570 1.024
17 1.645 1.017
18 1.590 1.008
19 1.312 1.007
20 1.021 1.004
21 0.854 0.996
22 0.753 0.981
23 0.580 0.958 23-24 local time
1 1.000 1.000 Monday
2 1.000 1.000 Tuesday
3 1.000 1.000 Wednesday
4 1.000 1.000 Thursday
5 1.000 1.000 Friday
6 1.000 1.000 Saturday
7 1.000 1.000 Sunday
2 NUMPOINT number of releases
20100518 000000 ID1, IT1 beginning date and time of release
20100518 110000 ID2, IT2 ending date and time of release
-123.0000 XPOINT1 (real) longitude [deg] of lower left corner
40.3000 YPOINT1 (real) latitude [deg] of lower left corner
-122.6000 XPOINT2 (real) longitude [deg] of upper right corner
40.6000 YPOINT2 (real) latitude [DEG] of upper right corner
1 KINDZ (int) 1 for m above ground, 2 for m above sea level, 3 pressure
100.000 ZPOINT1 (real) lower z-level
1000.000 ZPOINT2 (real) upper z-level
50000 NPART (int) total number of particles to be released
.1000E+04 XMASS (real) total mass emitted
.1000E+04 XMASS (real) total mass emitted
release_1 NAME OF RELEASE LOCATION
20100518 000000
20100518 110000
-122.0000
38.3000
-121.6000
38.6000
1
100.000
1000.000
50000
.5000E+04
.1000E+04
release_2
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