Creo Tutorials > Creo Flow Analysis Tutorials > Additional Tutorials > Creo Flow Analysis Additional Tutorials > Tutorial 4 - Cavitation over an Orifice > Cavitation over an Orifice: Exercise 6—Analyzing Results
  
Cavitation over an Orifice: Exercise 6—Analyzing Results
This exercise describes how the results are analyzed during and after the simulation. To hide CAD surfaces (not the fluid domain), switch between CAD Bodies and Flow Analysis Bodies.
Viewing the Pressure Contours on a Boundary
Vapor Volume Fraction: [-] : Cavitation
1
0
1. In the Post-processing group, click Section View and create a sections. Section 01 appears under Derived Surfaces.
2. Select Section 01.
3. In the Properties panel, Model tab, set values for the options as listed below:
TypePlane Z
Position — 0
4. In the Properties panel, View tab, for Surface, set values for the options as listed below:
SurfaceYes
GridNo
OutlineNo
VariableVapor Volume Fraction: [-] : Cavitation
Min — 0
Max — 1
Plotting the Mass Flux at the Inlet and Outlet Boundaries
The mass balance is monitored with the mass flux plots.
1. In the Flow Analysis Tree, under Boundary Conditions > General Boundaries.
2. Select inlet and outlet.
3. Click XYPlot. A new entity xyplot1 is added in the Flow Analysis Tree under Results > Derived Surfaces > XY Plots.
4. Select xyplot1.
5. In the Properties panel, set the Variable as Mass Flux.
6. Select Combine Lines under Mode.
7. Click Stop and Run, if required.
Plotting the Mass Flux at the Outlet Boundary
The mass flow rate at outlet is monitored with the mass flux plot for calculating coefficient of discharge.
1. In the Flow Analysis Tree, under Boundary Conditions > General Boundaries.
2. Select outlet.
3. Click XYPlot. A new entity xyplot2 is added in the Flow Analysis Tree under Results > Derived Surfaces > XY Plots.
4. Select xyplot2.
5. In the Properties panel, set the Variable as Mass Flux.
Viewing the Velocity Magnitude Streamlines in the Domain
Velocity Magnitude: [m/s] : Flow
22
0
1. In the Post-processing group, click Stream Lines. Under Results > Streamlines, Streamline 01 is selected. The Streamline 01Properties dialog box opens.
2. In the Properties panel, Model tab, select the following values for the options listed:
Line Thickness—0.0001
Animation Time Size—0.001
3. In the Properties panel, View tab, under Surface, select the following values for the options listed:
VariableVelocity Magnitude: [m/s] : Flow
Min—0.0
Max—22
4. In the Flow Analysis Tree, under General Boundaries select inlet.
5. In the Properties Panel, Model tab, for Streamline, set Release Particle to Yes and enter 100.