Commit f0c0c9f0 authored by Sabine's avatar Sabine

Updated namelist COMMAND ...

parent 4ad96c54
......@@ -11,5 +11,7 @@
*time a particle is carried in the simulation. *
* *
************************************************
1 Integer Number of age classes
1728000
&AGECLASS
NAGECLASS= 1,
LAGE= 1728000,
/
......@@ -15,23 +15,23 @@
LOUTSAMPLE= 900, ! Interval of output sampling (s), higher stat. accuracy with shorter intervals
ITSPLIT= 99999999, ! Interval of particle splitting (s)
LSYNCTIME= 900, ! All processes are synchronized to this time interval (s)
CTL= -5.0000000, ! CTL>1, ABL time step = (Lagrangian timescale (TL))/CTL, uses LSYNCTIME if CTL<0
CTL= -5.0000000, ! Times step smaller than Lagr. time scale, LSYNCTIME if CTL<0, but can be shorter
IFINE= 4, ! Reduction for time step in vertical transport, used only if CTL>1
IOUT= 1, ! Output type: [1]mass 2]pptv 3]1&2 4]plume 5]1&4, +8 for NetCDF output
IPOUT= 0, ! Particle position output: 0]no 1]every output 2]only at end
LSUBGRID= 0, ! Increase of ABL heights due to sub-grid scale orographic variations;[0]off 1]on
LCONVECTION= 0, ! Switch for convection parameterization;0]off [1]on
LCONVECTION= 0, ! Switch for convection parameterization;[0]off 1]on
LAGESPECTRA= 0, ! Switch for calculation of age spectra (needs AGECLASSES);[0]off 1]on
IPIN= 0, ! Warm start from particle dump (needs previous partposit_end file); [0]no 1]yes
IOUTPUTFOREACHRELEASE= 0, ! Separate output fields for each release in the RELEASE file; [0]no 1]yes
IPIN= 0, ! Warm start from particle dump (needs previous partposit_end file); 0]no [1]yes
IOUTPUTFOREACHRELEASE= 1, ! Separate output fields for each location in the RELEASE file; [0]no 1]yes
IFLUX= 0, ! Output of mass fluxes through output grid box boundaries
MDOMAINFILL= 0, ! Switch for domain-filling, if limited-area particles generated at boundary
IND_SOURCE= 1, ! Unit at source ; [1]mass 2]mass mixing ratio
IND_RECEPTOR= 1, ! Unit at receptor; [1]mass 2]mass mixing ratio 3] wet depo. 4] dry depo.
IND_SOURCE= 1, ! Unit to be used at the ource ; [1]mass 2]mass mixing ratio
IND_RECEPTOR= 1, ! Unit to be used at the receptor; [1]mass 2]mass mixing ratio
MQUASILAG= 0, ! Quasi-Lagrangian mode to track individual numbered particles
NESTED_OUTPUT= 1, ! Output also for a nested domain
LINIT_COND= 0, ! Output sensitivity to initial conditions (bkw mode only) [0]off 1]conc 2]mmr
SURF_ONLY= 0, ! Output only for the lowest model layer, used with LINIT_COND>0
NESTED_OUTPUT= 0, ! Output also for a nested domain
LINIT_COND= 0, ! Output sensitivity to initial conditions (backwards mode only)
SURF_ONLY= 0, ! Output only for the lowest model layer, used w/ LINIT_COND=1 or 2
CBLFLAG= 0, ! Skewed, not Gaussian turbulence in the convective ABL, need large CTL and IFINE
OHFIELDS_PATH= "../../flexin/", ! Default path for OH file
/
********************************************************************************
* *
* Input file for the Lagrangian particle dispersion model FLEXPART *
* Please specify your output grid *
* *
********************************************************************************
1. ------.---- 4X,F11.4
-179.0000 GEOGRAFICAL LONGITUDE OF LOWER LEFT CORNER OF OUTPUT GRID
OUTLONLEFT (left boundary of the first grid cell - not its centre)
2. ------.---- 4X,F11.4
-90.0000 GEOGRAFICAL LATITUDE OF LOWER LEFT CORNER OF OUTPUT GRID
OUTLATLOWER (lower boundary of the first grid cell - not its centre)
3. ----- 4X,I5
720 NUMBER OF GRID POINTS IN X DIRECTION (= No. of cells + 1)
NUMXGRID
4. ----- 4X,I5
360 NUMBER OF GRID POINTS IN Y DIRECTION (= No. of cells + 1)
NUMYGRID
5. ------.--- 4X,F10.3
0.50 GRID DISTANCE IN X DIRECTION
DXOUTLON
6. ------.--- 4X,F10.3
0.50 GRID DISTANCE IN Y DIRECTION
DYOUTLAT
10. -----.- 4X, F7.1
1000.0
LEVEL 1 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
2000.0
LEVEL 2 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
3000.0
LEVEL 3 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
4000.0
LEVEL 4 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
5000.0
LEVEL 5 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
6000.0
LEVEL 6 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
7000.0
LEVEL 7 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
8000.0
LEVEL 8 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
9000.0
LEVEL 9 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
10000.0
LEVEL10 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
11000.0
LEVEL11 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
12000.0
LEVEL12 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
13000.0
LEVEL13 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
14000.0
LEVEL14 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
15000.0
LEVEL15 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
16000.0
LEVEL16 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
17000.0
LEVEL17 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
18000.0
LEVEL18 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
19000.0
LEVEL19 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
20000.0
LEVEL20 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
21000.0
LEVEL20 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
22000.0
LEVEL20 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
23000.0
LEVEL20 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
24000.0
LEVEL20 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
25000.0
LEVEL20 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
26000.0
LEVEL20 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
27000.0
LEVEL20 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
28000.0
LEVEL20 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
29000.0
LEVEL20 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
30000.0
LEVEL20 HEIGHT OF LEVEL (UPPER BOUNDARY)
10. -----.- 4X, F7.1
40000.0
LEVEL20 HEIGHT OF LEVEL (UPPER BOUNDARY)
!*******************************************************************************
! *
! Input file for the Lagrangian particle dispersion model FLEXPART *
! Please specify your output grid *
! *
! OUTLON0 = GEOGRAPHYICAL LONGITUDE OF LOWER LEFT CORNER OF OUTPUT GRID *
! OUTLAT0 = GEOGRAPHYICAL LATITUDE OF LOWER LEFT CORNER OF OUTPUT GRID *
! NUMXGRID = NUMBER OF GRID POINTS IN X DIRECTION (= No. of cells + 1) *
! NUMYGRID = NUMBER OF GRID POINTS IN Y DIRECTION (= No. of cells + 1) *
! DXOUT = GRID DISTANCE IN X DIRECTION *
! DYOUN = GRID DISTANCE IN Y DIRECTION *
! OUTHEIGHTS = HEIGHT OF LEVELS (UPPER BOUNDARY) *
!*******************************************************************************
&OUTGRID
OUTLON0= -25.00,
OUTLAT0= 10.00,
NUMXGRID= 85,
NUMYGRID= 65,
DXOUT= 1.00,
DYOUT= 1.00,
OUTHEIGHTS= 100.0, 500.0, 1000.0 , 50000.0,
/
********************************************************************************
* *
* Input file for the Lagrangian particle dispersion model FLEXPART *
* Please specify your output grid *
* *
********************************************************************************
1. ------.---- 4X,F11.4
-2.0000 GEOGRAFICAL LONGITUDE OF LOWER LEFT CORNER OF OUTPUT GRID
OUTLONLEFT (left boundary of the first grid cell - not its centre)
2. ------.---- 4X,F11.4
-1.0000 GEOGRAFICAL LATITUDE OF LOWER LEFT CORNER OF OUTPUT GRID
OUTLATLOWER (lower boundary of the first grid cell - not its centre)
3. ----- 4X,I5
400 NUMBER OF GRID POINTS IN X DIRECTION (= No. of cells + 1)
NUMXGRID
4. ----- 4X,I5
200 NUMBER OF GRID POINTS IN Y DIRECTION (= No. of cells + 1)
NUMYGRID
5. ------.----- 4X,F12.5
0.01000 GRID DISTANCE IN X DIRECTION
DXOUTLON
6. ------.----- 4X,F12.5
0.01000 GRID DISTANCE IN Y DIRECTION
DYOUTLAT
!*******************************************************************************
! *
! Input file for the Lagrangian particle dispersion model FLEXPART *
! Please specify your output grid *
! *
! OUTLON0 = GEOGRAPHYICAL LONGITUDE OF LOWER LEFT CORNER OF OUTPUT GRID *
! OUTLAT0 = GEOGRAPHYICAL LATITUDE OF LOWER LEFT CORNER OF OUTPUT GRID *
! NUMXGRID = NUMBER OF GRID POINTS IN X DIRECTION (= No. of cells + 1) *
! NUMYGRID = NUMBER OF GRID POINTS IN Y DIRECTION (= No. of cells + 1) *
! DXOUT = GRID DISTANCE IN X DIRECTION *
! DYOUN = GRID DISTANCE IN Y DIRECTION *
!*******************************************************************************
&OUTGRIDN
OUTLON0N= -25.00,
OUTLAT0N= 10.00,
NUMXGRIDN= 85,
NUMYGRIDN= 65,
DXOUTN= 1.00,
DYOUTN= 1.00,
/
&RECEPTORS
RECEPTOR="receptor 1 ",
LON= 0.0000000 ,
LAT= 0.0000000 ,
RECEPTOR="receptor 1",
LON = 0.0000000,
LAT = 0.0000000,
/
&RECEPTORS
RECEPTOR="receptor 2 ",
LON= 1.00000000 ,
LAT= 0.00000000 ,
RECEPTOR="receptor 2",
LON = 1.00000000,
LAT = 0.00000000,
/
***************************************************************************************************************
* *
* *
* *
* Input file for the Lagrangian particle dispersion model FLEXPART *
* Please select your options *
* *
* *
* *
***************************************************************************************************************
*************************************************************************
* *
* *
* *
* Input file for the Lagrangian particle dispersion model FLEXPART *
* Please select your options *
* *
* *
* *
*************************************************************************
&RELEASES_CTRL
NSPEC = 1, ! Total number of species
SPECNUM_REL= 24, ! Species numbers in directory SPECIES
NSPEC = 1,
SPECNUM_REL= 24,
/
&RELEASE ! For each release
IDATE1 = 20120101, ! Release start date, YYYYMMDD: YYYY=year, MM=month, DD=day
ITIME1 = 090000, ! Release start time in UTC HHMISS: HH hours, MI=minutes, SS=seconds
IDATE2 = 20120101, ! Release end date, same as IDATE1
ITIME2 = 090000, ! Release end time, same as ITIME1
LON1 = 0.000, ! Left longitude of release box -180 < LON1 <180
LON2 = 0.000, ! Right longitude of release box, same as LON1
LAT1 = 20.000, ! Lower latitude of release box, -90 < LAT1 < 90
LAT2 = 20.000, ! Upper latitude of release box same format as LAT1
Z1 = 50.000, ! Lower height of release box meters/hPa above reference level
Z2 = 50.000, ! Upper height of release box meters/hPa above reference level
ZKIND = 1, ! Reference level 1=above ground, 2=above sea level, 3 for pressure in hPa
MASS = 1.0000E8, ! Total mass emitted, only relevant for fwd simulations
PARTS = 10000, ! Total number of particles to be released
COMMENT = "RELEASE 1", ! Comment, written in the outputfile
/
&RELEASE
&RELEASE
IDATE1 = 20120101,
ITIME1 = 090000,
IDATE2 = 20120101,
......@@ -37,10 +21,10 @@
LON2 = 0.000,
LAT1 = 20.000,
LAT2 = 20.000,
Z1 = 100.000,
Z2 = 100.000,
Z1 = 50.000,
Z2 = 50.000,
ZKIND = 1,
MASS = 1.0000E8,
PARTS = 10000,
COMMENT = "RELEASE 2",
COMMENT = "RELEASE 1",
/
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