TUFLOW CATCH Tutorial M01 Results QGIS: Difference between revisions
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<li> In Windows File Explorer, navigate to the '''TUFLOWCATCH\bc_dbase''' folder and open '''TC01_001_catchment_hydraulic_receiving.csv'''.
<li> This file contains incoming flow and concentrations at an interval of 5mins. This interval is defined via the <tt><font color=blue>Catch BC Output Interval Lateral </font><font color=red>==</font> 300</tt> command in the .tcc.
→ '''<span style="color:#b300ff;">Suggestion:</span>''' <span style="color:#b300ff;">Consider:</span> <span style="color:black;">"2. This file contains incoming flow and pollutant concentrations at 5-minute intervals, as defined by the <tt><font color=blue>Catch BC Output Interval Lateral </font><font color=red>==</font> 300</tt> command in the .tcc file."<br>
<li> Salinity and dissolved oxygen are both constant, so the outputs should be constant throughout the entire simulation. <br>
→ '''<span style="color:#b300ff;">Suggestion:</span>''' <span style="color:#b300ff;">Consider:</span> <span style="color:black;">"3. Salinity and dissolved oxygen are constant throughout the simulation, and the corresponding output values should reflect this.<br>
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[[File: graph of constant pollutants over time]]<br>
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<li> Alive and dead E coli have been defined with the same pollutant export parameters, so their outputs should be equal. <br>
→ '''<span style="color:#b300ff;">Suggestion:</span>''' <span style="color:#b300ff;">Consider:</span> <span style="color:black;">"4. Alive and dead E. coli have been assigned the same pollutant export parameters, so their outputs should be identical."<br>
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[[File: graph of ecoli over time?]]<br>
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<li> When plotting flow vs pollutants, there is a noticeable spike in pollutant levels when the dry store release threshold is reached, followed by a gradual decline through the remainder of the simulation. <br>
→ '''<span style="color:#b300ff;">Suggestion:</span>''' <span style="color:#b300ff;">Consider:</span> <span style="color:black;">"5. When plotting flow against pollutant levels, a noticeable spike appears once the dry store release threshold is reached, followed by a gradual decline for the remainder of the simulation."<br>
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[[File: graph of flow vs pollutant concentrations, pathogens on separate graph]]<br>
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<ol>
<li> In Windows File Explorer, navigate to the '''TUFLOWCATCH\bc_dbase''' folder and open '''TC01_001_catchment_hydraulic_mass_balance.csv'''.
<li> This file contains the total of the surface and groundwater flow (m^3) and associated pollutant masses leaving the TUFLOW HPC model to the receiving polygon. The outputs are written in the same interval as the '''TC01_001_catchment_hydraulic_receiving.csv'''.
→ '''<span style="color:#b300ff;">Suggestion:</span>''' <span style="color:#b300ff;">Consider:</span> <span style="color:black;">"2. This file contains the total surface and groundwater flow (m³) and associated pollutant masses leaving the TUFLOW HPC model and entering the receiving polygon. Outputs are written at the same interval as '''TC01_001_catchment_hydraulic_receiving.csv'''."<br>
<li> No groundwater has been simulated in the model, <font color=red> need to do this still</font><br>
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