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Specifies if the fluxes should be computed and written out as a gridded output (on or off). Fluxes corresponding to northward, southward, eastward, westward, upward and downward directions are calculated for each grid cell of the output grid.The control surfaces are placed in the middle of each output grid cell. The default value is off.
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Particle Splitting Constant
Specifies the
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time constant for particle splitting in seconds. Particles are split into two after every N seconds given here. If -1 is given here particle splitting is not used. The default value is
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-1 (no splitting).
Sync Interval
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All processes are synchronized with this time interval, therefore, all other time constants must be multiples of this value. Output interval and Output Averaging Interval must be at least twice of this value. The default value is 900.
Ctl
Specifies the list of height levels of the gridded output. The levels are given in metres units???. CTL must be >1 for time steps shorter than the Lagrangian time scale If CTL<0, a purely random walk simulation is done. The default value is an empty list -4.
Vertical Timestep Reduction
Specifies the list of height levels of the gridded output. The levels are given in metres units. The default value is an empty listreduction factor (as an integer) for time step used for vertical wind. The default value is 4.
Dump Particle Possition
Specifies the list of height levels of the gridded output. The levels are given in metres units. The default value is an empty list.
Subgrid Terrain
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Enables subgridscale terrain parametrization (increase of mixing heights due to subgridscale orographic variations) (on or off). The default value is
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off.
Convection
Specifies the list of height levels of the gridded output. The levels are given in metres units. The default value is an empty listEnables convection parametrization (on or off). The default value is off.
Age Spectra
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Enables the
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calculation of age spectra (on or off). If it is on Ageclasses must be defined. The default value is
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off.
Output For Each Release
Specifies the list of height levels of the gridded output. The levels are given in metres units. The default value is an empty list.
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Specifies the list of height levels of the gridded output. The levels are given in metres units. The default value is an empty list.
Flextra Time
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Flextra Step
Specifies the forecast steps in hours. Here a list of values is given. Available when Flextra Prepare Mode is Forecast.
Flextra Period Start Date
Specifies the start date of the period. Available when Flextra Prepare Mode is Period.
Flextra Period Start Time
Specifies the start time of the period. Available when Flextra Prepare Mode is Period.
Flextra Period End Date
Specifies the end date of the period. Available when Flextra Prepare Mode is Period.
Flextra Period End Time
Specifies the end time of the period. Available when Flextra Prepare Mode is Period.
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Specifies the time step of the period in hours. The allowed values are as follows: 3 or 6. Available when Flextra Prepare Mode is Period.
Flextra Area
Specifies the area of the output grid in south/west/north/east format. The default value is -90/-180/90/180.
Flextra Grid
Specifies the resolution of the output grid in dx/dy format, where dx is the grid increment in east-west direction, while dy is the grid increment in north-south direction (both in units of degrees). The default value is: 1/1.
Flextra Top Level
Only data on and below this model level will be used to generate the FLEXTRA input fields. This level can be specified either as a model level or as a pressure value. In the latter case FLEXTRA Prepare will use the data retrieved for the first date to determine the topmost model level. The default value of this parameter is 1, which means that all the model levels will be used if Flextra Top Level Units is set to Model Levels.
Flextra Top Level Units
Specifies the units of the value of Flextra Top Level. The allowed values are Model Levels or hPa. The default value is Model Levels.
Flextra Reuse Input
If this parameter is set On FLEXTRA Prepare checks the existence of the data files to be generated and if they are already in place no new data is retrieved and processed. If it is Off all the fields are always retrieved and processed and the existing data files are overwritten. The same happens to the AVAILABLE file. The existence of a FLEXTRA input GRIB file is checked by using the file name and a set of GRIB API keys from the first message in the file. These keys are as follows: date, time, stepRange, gridType, iDirectionIncrement, jDirectionIncrement, latitudeOfFirstGridPoint, latitudeOfLastGridPoint, longitudeOfFirstGridPoint, longitudeOfLastGridPoint.
Flextra Output Path
Specifies the output directory (it has to be an absolute path) where the GRIB files and the AVAILABLE file will be generated. If this directory does not exist Metview will create it. The output GRIB files have the following naming convention: ENyymmddhh.
1. Simulation direction, 1 for forward, -1 for backward in time
2. Beginning date and time of simulation. Must be given in format
YYYYMMDD HHMISS, where YYYY is YEAR, MM is MONTH, DD is DAY, HH is HOUR,
MI is MINUTE and SS is SECOND. Current version utilizes UTC.
3. Ending date and time of simulation. Same format as 3.
4. Average concentrations are calculated every SSSSS seconds.
5. The average concentrations are time averages of SSSSS seconds
duration. If SSSSS is 0, instantaneous concentrations are outputted.
6. The concentrations are sampled every SSSSS seconds to calculate the time
average concentration. This period must be shorter than the averaging time.
7. Time constant for particle splitting. Particles are split into two
after SSSSS seconds, 2xSSSSS seconds, 4xSSSSS seconds, and so on.
8. All processes are synchronized with this time interval (lsynctime).
Therefore, all other time constants must be multiples of this value.
Output interval and time average of output must be at least twice lsynctime.
9. CTL must be >1 for time steps shorter than the Lagrangian time scale
If CTL<0, a purely random walk simulation is done
10.IFINE=Reduction factor for time step used for vertical wind
11.IOUT determines how the output shall be made: concentration
(ng/m3, Bq/m3), mixing ratio (pptv), or both, or plume trajectory mode,
or concentration + plume trajectory mode.
In plume trajectory mode, output is in the form of average trajectories.
12.IPOUT determines whether particle positions are outputted (in addition
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0=no output, 1 output every output interval, 2 only at end of the
simulation
13.Switch on/off subgridscale terrain parameterization (increase of
mixing heights due to subgridscale orographic variations)
14.Switch on/off the convection parameterization
15.Switch on/off the calculation of age spectra: if yes, the file AGECLASSES
must be available
16. If IPIN=1, a file "partposit_end" from a previous run must be available in
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set to 1. For forward calculation both possibilities are applicable.
18. If IFLUX is set to 1, fluxes of each species through each of the output
boxes are calculated. Six fluxes, corresponding to northward, southward,
eastward, westward, upward and downward are calculated for each grid cell of
the output grid. The control surfaces are placed in the middle of each
output grid cell. If IFLUX is set to 0, no fluxes are determined.
19. If MDOMAINFILL is set to 1, the first box specified in file RELEASES is used
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