Flood Modeller to TUFLOW

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Introduction

Often, there is a requirement to convert aspects of a Flood Modeller model to a TUFLOW ESTRY model. It is possible to convert a Flood Modeller 1D model to a TUFLOW ESTRY format using either the fm_to_estry.exe or fm_to_estry.py utilities. The utilities are available for download from the TUFLOW Gitlab User Group. This Wiki page lists useful examples for using the fm_to_estry.exe and fm_to_estry.py utilities.

If you have any suggestions to be included in these pages, please email support@tuflow.com.

Flood Modeller to ESTRY conversion utility using the fm_to_estry.exe

The fm_to_estry.exe utility creates the relevant TUFLOW ESTRY network layers from a Flood Modeller .dat file. The utility converts:

  • Flood Modeller units to ESTRY node/link inputs (1d_nwk)
  • Flood Modeller section data to ESTRY cross-section GIS (1d_xs) and csv inputs
  • Flood Modeller structures to ESTRY GIS and csv inputs

A number of structure units are supported but not all. A list of currently supported structures is shown below:

  • River
  • Bridge
  • Conduit
  • Interpolates/Replicates
  • Culverts
  • Orifice
    • Flood Relief
    • Inverted Syphon
    • Outfall
  • Weirs
    • Weir
    • SCWeir
    • RNWeir
    • Spill
    • NotWeir
    • Labyrinth Weir
    • Crump Weir
    • Gated Weir
  • Sluices
  • Junction
  • QH Control

If using the fm_to_estry.py Python script, it is possible to add support for additional structures. See below for more details.


Note :The utility does not currently support the conversion of either boundary condition data or logical control rules.

Utility Execution (.exe)

In order to convert a Flood Modeller network to ESTRY using the fm_to_estry executable follow the instructions below.

  1. Download the following file fm_to_estry.0.9.zip from the TUFLOW Gitlab User Group by visiting the Compiled Library section and unzip it to your preferred destination.
  2. Open the file. Then, bring in the relevant files from the Flood Modeller model that requires conversion, in this example the .dat, .gxy and projection files. The projection.shp file will help you to assign your model to the correct projection and can come from an existing TUFLOW model or shapefile in the correct projection. See figure below for the required files:
    Fm2estry 1.png
  3. Create a new .bat file (To do that right click in an empty area in the file. A dialogue will open. Choose New and then Text document. Rename your new Text document by including the .bat extension at the end. For Example: fm_to_estry_example.bat).
  4. Open your batch file and insert the text to convert the Flood Modeller model network to an ESTRY one. Some examples are shown in the following lines, note that if the batch file is held in a different directory to the Flood Modeller files, you will need to the full file path or relative path to reference the files.

    Examples

    1. fm_to_estry.exe flood_modeller.gxy flood_modeller.dat -crs projection.shp

      Converts a Flood Modeller model

    2. fm_to_estry.exe flood_modeller.gxy flood_modeller.dat -crs 32760

      Uses an EPSG number (32760) for the projection

    3. fm_to_estry.exe flood_modeller.gxy flood_modeller.dat -crs projection.shp -out .\output

      Custom Output Directory

    4. fm_to_estry.exe flood_modeller.gxy flood_modeller.dat -crs projection.shp -logfile

      Writes a Log File

    5. fm_to_estry.exe flood_modeller.gxy flood_modeller.dat -crs projection.shp -raw

      Writes GXY to GIS Prior to Conversion

    6. fm_to_estry.exe flood_modeller.gxy flood_modeller.dat -crs projection.shp -mif

      Writes to MIF Format

  5. Save your preferences and close your batch file.
  6. Double click the batch file.
  7. The above steps will return structures from the supported structures list in .shp and .csv file formats to use them to further set up a 1D TUFLOW/ESTRY model. It is recommended that the connectivity is reviewed upstream to downstream to ensure full connectivity of the ESTRY network and generate a network which pass TUFLOW's pre-processing procedure prior to simulation. The figure below illustrates Flood Modeler 1D model conversion to TUFLOW ESTRY.
    Fm2estry 2.jpg
    Fm2estry 3.jpg

Python Script Execution (.py)

Alternatively, rather than run the executable, it is possible to run as a Python script. To run the Python script, replace the fm_to_estry.exe above with python fm_to_estry.py and follow the 2-6 steps which are described in Utility Execution (.exe). To download the Python script file please visit: TUFLOW Gitlab User Group and click on the following icon: Fm2estry 4.jpg


The benefit of this approach is that you can add your own support for structures not currently supported. More details are described in the Section: How to Add New Supported Units, which can be found in the following page: TUFLOW Gitlab user group.

Other Information

It is also possible to use the cross-sections from the Flood Modeller .dat file directly within a TUFLOW/ESTRY simulation. This means that for some simpler models, particularly those without structures, that conversion of the Flood Modeller model to an ESTRY format is not required with the cross-section data being used in a TUFLOW 1D /ESTRY model directly from the .dat file. Please, see the XS Database == command in the TUFLOW user manual for more information.

Summary

When there is a requirement to convert a Flood Modeller 1D network, or part of a network, to TUFLOW ESTRY format this can be time consuming. A set of tools have been provided for you to assist this process. Currently, the tools are restricted to network geometry but if there is user-demand, this can be extended to boundary conditions, logical rules and the production of TUFLOW control files. There are two approaches, using either an executable or a Python tool, both of which undertake the same conversion. The advantage of the Python tool is that it is possible to add user-specified support for additional structures which are not supported currently. Once the Flood Modeller network has been converted to a set of ESTRY layers, these should be checked for connectivity and brought together in the ESTRY Control File to read into a TUFLOW-ESTRY simulation.

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