FLEXPART - Forward simulation
This tutorial demonstrates how to run a forward simulation with FLEXPART and how to visualise the results in various ways.
Using FLEXPART with Metview
Note
Please note that this tutorial requires Metview version 5.0 or later.
Preparations
First start Metview; at ECMWF, the command to use is metview (see Metview at ECMWF for details of Metview versions). You should see the main Metview desktop popping up.
The icons you will work with are already prepared for you - please download the following file:
Download
and save it in your $HOME/metview directory.
You should see it appear on your main Metview desktop, from where you can right-click on it, then choose execute to extract the files.
Alternatively, if at ECMWF then you can copy it like this from the command line:
cp -R /home/graphics/cgx/tutorials/flexpart_tutorial ~/metview
You should now (after a few seconds) see a flexpart*_*tutorial folder. Please open it up.
The input data
The input data is already prepared for you and is located in folder ‘Data’.
You will find a flexpart_prepare() icon that was used to generate the data in folder ‘Prepare’.
The corresponding macro code can also be found there.
You do not need to run the data preparation. However, if you wish to do so please note that it requires MARS access and you must set the Output Path parameter accordingly.
Note
Please enter folder ‘forward’ to start working.
Note
In this tutorial we will run a forward simulation by releasing some SO2 from the Icelandic volcano Eyjafjallajokull.
The simulation itself is defined by the ‘fwd_conc’ flexpart_run() icon and the ‘rel_volcano’ flexpart_release() icon, respectively.
Both these are encompassed in a single macro called ‘fwd_conc.mv’.
For simplicity will use this macro to examine the settings in detail.
The macro starts with defining the release like this:
rel_volcano = flexpart_release(
name : "VOLCANO",
starting_date : 0,
starting_time : 15,
ending_date : 2,
ending_time : 12,
area : [63.63,-19.6,63.63,-19.6],
top_level : 9000,
bottom_level : 1651,
particle_count : 10000,
masses : 1000000
)
This says that the release will happen over a 45 h period between heights 1651 and 10000 m at the location of the volcano and we will release 1000 tons of material in total.
Note
the species is not defined here (will be defined in
flexpart_run())we used dates relative to the starting date of the simulation (see also in
flexpart_run())
The actual simulation is carried out by calling flexpart_run():
#Run flexpart (asynchronous call!)
r = flexpart_run(
output_path : "result_fwd",
input_path : "../data",
starting_date : 20120517,
starting_time : 12,
ending_date : 20120519,
ending_time : 12,
output_field_type : "conc",
output_flux : "on",
output_area : [40,-25,66,10],
output_grid : [0.25,0.25],
output_levels : [500,1000,2000,3000,4000,5000,6000,7000,8000,9000,10000,11000,12000,13000,14000,15000],
release_species : 8,
releases : rel_volcano,
release_units : "mass",
receptor_units : "mass"
)
print(r)
Here we defined both the input and output paths and specified the simulation period, the output grid and levels as well. We also told FLEXPART to generate gridded mass concentration and flux fields on output.
Note
The actual species to release are defined as an integer number (for details about using the species see here). With the default species settings number 8 stands for SO2.
If we run this macro (or alternatively right-click execute the flexpart_run() icon) the results (after a minute or so) will be available in folder ‘result_fwd’.
The computations actually took place in a temporary folder then Metview copied the results to the output folder.
If we open folder ‘result_fwd’ we will see three files:
conc_s001.grib is a GRIB file containing the gridded concentration fields
flux_s001.grib is a GRIB file containing the gridded flux fields
log.txt is the log file generated by FLEXPART
Note
Please note that these are not the original outputs form FLEXPART but were converted to more suitable ones for Metview. For details about the FLEXPART outputs click here.
To process and visualise the results please see these pages: