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TUFLOW CATCH Tutorial M02 Results QGIS: Difference between revisions

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<font color="red"><font size=18>Page Under Construction</font></font>
== Introduction ==
UseReview the TUFLOW CATCH plugininterventions tooutput createsummary. aReview TUFLOW CATCH JSON file to reviewhow the TUFLOWtreatment HPC and TUFLOWdevices FVare resultsremoving simultaneouslypollutants.
 
Refer to <u>[[TUFLOW_CATCH_Tutorial_M01_Results_QGIS | TUFLOW CATCH Tutorial 1]]</u> for information on timeseries outputs.
 
== TUFLOW CATCH Interventions Output Summary ==
==Create JSON File==
Review the interventions summary:
Create a TUFLOW CATCH JSON file:
<ol>
<li> In Windows File Explorer, navigate to the '''TUFLOWCatch\results''' folder and drag and dropopen '''TC02_001TC02_001_catchment_hydraulic_intervention_summary.tuflow.jsoncsv''' into QGIS.
<li> Go to Processing > Toolbox from the top drop down menu options to open the Processing Toolbox.
<li> This file contains final cumulative flows, masses entering and masses removed for all intervention devices and pollutants. All output masses are in grams.<br>
<li> Go to TUFLOW Catch in the processing tool list and select <font color=red> create page?</font> <u>'Create TUFLOW Catch JSON'</u>. This opens the dialog shown below.
<br>
* Results: Click '...', and select 'Add File(s)...'. Navigate to the '''TUFLOWCatch\results''' folder and select '''TC02_001_catchment_hydraulic.xmdf''' and '''TC02_001_receiving_HD.nc''' (hold Ctrl to select multiple).
[[File: image of summary with arrows pointing to devices and pollutants]]<br>
* Output File: Click '...', and navigate to the '''TUFLOWCatch\results''' folder. Save the output file as '''TC02_001.tuflow.json'''.
<br>
* res_to_res.exe: Click '...', and navigate to the '''TUFLOW_CATCH_Tutorial_Models\exe\res_to_res.2024-02-AA''' folder. Select '''res_to_res_w64.exe'''.
<li> bufferStrip1 has no paddocks near it, and therefore has no pathogen masses entering or being removed.
<li> Click 'Run'. Once the tool has finished, click 'Close'.
<li> If the removed mass is divided by the cumulative mass, the resulting value represents either the removal constant (if a constant removal equation was used), or the average removal performance (if a table removal method was used). For example, in trench1, the removal performance for SED_CLAY is calculated by: rem SED_CLAY [g] / cum SED_CLAY [g] = 0.4. This matches the removal constant defined in the .tcc. In contrast, bufferStrip1 uses a table removal method for SED_CLAY, resulting in: rem SED_CLAY [g] / cum SED_CLAY [g] = 0.999. This shows that bufferStrip1 removed significantly more clay than trench1. The graph below demonstrates this calculation for each pollutant across all the treatment devices: <br>
<li> In Windows File Explorer, navigate to the '''TUFLOWCatch\results''' folder and drag and drop '''TC02_001.tuflow.json''' into QGIS.
<br>
<li> This will open up a 'Temporal Controller' dock. Hit F7, to open the 'Layer Styling' panel. The Temporal Controller dock and the Layer Styling panel will be used to review the simulation outputs.
[[File: image as described above. eg in onenote]]<br>
<br>
<li> <font color=red>other showthings waterto flowing through culvert?show?</font>
</ol>
 
==TUFLOW CATCH Map Outputs ==
CreateReview athe TUFLOW CATCH map outputs using the JSON file:
<ol>
<li> Open tuflow viewer <font color=red>???</font>
<li>In the Layer Styling panel, select 'Conc WQ_PATH_ECOLI_ALICE_100ML' as the result type. Update the symbology as needed.
<li>In the Temporal Controller dock, use the time slider to view the pathogen concentration results. Notice how the ecoli is removed by the treatment devices. In areas where there are no interventions, the pollutant concentrations are much higher (i.e. the eastern waterhole).
<br>
{{Video|name=}}<br>
</ol>
 
Use the TUFLOW Viewer to review the TUFLOW HPC map outputs:
==TUFLOW CATCH Map Outputs==
Review the TUFLOW CATCH outputs using the JSON file:
<ol>
<li>Open TUFLOW Viewer from the TUFLOW Plugin toolbar and open the simulation results. Select File > Load Results - Map Outputs. Navigate to the '''TUFLOWCatch\results''' folder and select '''TC02_001_catchment_hydraulic.xmdf'''.
<li> In the Layer Styling panel, go to the 'Datasets' tab. There is a list of all available output types. Select 'Depth'.
<li>In Gothe toTUFLOW theViewer panel, select 'Contours'Conc tabSED_CLAY'. UpdateFor consistency, the 'Depth'same symbology as neededthe JSON has been applied in the video below.
<li>Zoom in to bufferStrip1. Use the Plot Time Series tool (from Map Multi) to place a point on either side of the device to see how bufferStrip1 is removing the sediment.
<li> In the Temporal Controller dock, use the time slider to view the depth results throughout the model simulation.
<br>
{{Video|name=}}<br>
<li>Using the same process as above, observe the mass removal occurring at the other devices.
<li> In the Datasets tab, select 'Velocity' - both the contours [[File: image of contour button]] and the vectors [[File: image of vector button]].
<li> In the Vectors tab, set 'Arrow Length' to 'Scaled to Magnitude'.
<li> Use the time slider to observe the water flowing from the catchment area into the TUFLOW FV model domain.
<li> <font color=red> show water flowing through culvert??</font>
<br>
{{Video|name=}}<br>
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|uplink=[[TUFLOW_CATCH_Tutorial_M02#Check_Files_and_Results_Output| Back to TUFLOW CATCH Tutorial 2]]
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