SMS:TUFLOW Project Workflow: Difference between revisions

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!width="800" style="text-align:left;"|7. Define Materials.
!width="800" style="text-align:left;"|6. Define general material properties.
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:# Create new [[SMS:Simulations|simulation]].
:TUFLOW requires both general material data properters and TUFLOW specific materials.
:# Add components to simulation.
:# Open the Materials Data dialog.
:# Set up [[SMS:SRH Model Control|Model Control]] parameters.
:# Add materials.  
:# [[SMS:Model Checker|Check the model]].
:# Simulation execution.
:# Troubleshooting.
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!width="800" style="text-align:left;"|8. TUFLOW simulation setup.
!width="800" style="text-align:left;"|7. TUFLOW simulation setup.
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!width="800" style="text-align:left;"|7. Define materials sets.
!width="800" style="text-align:left;"|8. Define TUFLOW material sets.
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:# Create new material set.
:# Create new material set.
:# Add define material properties.  
:# Add define material properties.  
:# Set up [[SMS:SRH Model Control|Model Control]] parameters.
:# [[SMS:Model Checker|Check the model]].
:# Simulation execution.
:# Troubleshooting.
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Revision as of 19:10, 2 July 2015

In general, to build a TUFLOW model in SMS, use the following steps:

3. Review and edit elevation data.
  1. Review and set object Projections.
  2. Remove erroneous points.
  3. Add breaklines.
  4. Merge datasets.
  5. Stamp new features (channel, roadway embankment, or other).
4. Define model limits (domain).
  1. Generate a Mesh Generator map coverage.
  2. Digitize arcs to define mesh limits.
  3. Define mesh density and type (in Mesh Generator coverage).
  4. Create arcs along key breaklines and notable features (banklines, structures, piers, road embankments, etc.).
  5. Set vertex spacing on arcs to define mesh element size.
  6. Specify mesh type for each polygon (pave / patch / none).
  7. Assign scatter data.
  8. Generate mesh.
5. Set-up boundary conditions.
  1. Create a SRH-2D Boundary Conditions coverage.
  2. Assign boundary conditions to arcs.
    • Inlet Q (options).
    • Exit-H (options, including new normal/critical depth tool).
    • Internal inflows and outflows (highlight approach – hole in mesh).
    • Monitoring Lines.
    • Optional Wall boundary conditions.
    • Structures (culverts, weirs, bridge pressure flow).
6. Define general material properties.
TUFLOW requires both general material data properters and TUFLOW specific materials.
  1. Open the Materials Data dialog.
  2. Add materials.
7. TUFLOW simulation setup.
  1. Create new simulation.
  2. Add components to simulation.
  3. Set up Model Control parameters.
  4. Check the model.
  5. Simulation execution.
  6. Troubleshooting.
8. Define TUFLOW material sets.
  1. Create new material set.
  2. Add define material properties.
9. Run TUFLOW.
  1. Check model simlation.
  2. Run TUFLOW.
10. Review results.
  1. Open _XMDF file.
  2. Results layers.
  3. Observation lines.
  4. Summary table.
  5. Run the Plot Wizard.
  6. Data calculator.
11. Compare datasets.
12. Data visualization.