Computational Fluid Dynamics: Difference between revisions

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*'''View → Color Map Editor → Presets''' (the little envelope with a heart)''' → Turbo'''.
*'''View → Color Map Editor → Presets''' (the little envelope with a heart)''' → Turbo'''.
*With the mouse, rotate the slices around so you can see both surfaces.
*With the mouse, rotate the slices around so you can see both surfaces.


[[Image:cfd_slices2.png|1000px]]
[[Image:cfd_slices2.png|1000px]]




Line 57: Line 59:
*Select '''disk_out_ref.exo''' in the Pipeline Browser.  Representation: '''wireframe'''.  On the Properties tab, change '''Opacity''' to '''0.3'''.
*Select '''disk_out_ref.exo''' in the Pipeline Browser.  Representation: '''wireframe'''.  On the Properties tab, change '''Opacity''' to '''0.3'''.
*Use the mouse to zoom into the glyph vectors.
*Use the mouse to zoom into the glyph vectors.


[[Image:cfd_slice_glyph1.png|1000px]]
[[Image:cfd_slice_glyph1.png|1000px]]


==Flow in a fluid==
==Flow in a fluid==
Line 87: Line 92:


Just to create a nice image, I'm going to split the views horizontally, and show this visualization also from the side.
Just to create a nice image, I'm going to split the views horizontally, and show this visualization also from the side.


[[Image:cfd_fluid_velocity_profile1.png|1000px]]
[[Image:cfd_fluid_velocity_profile1.png|1000px]]


==Gradient and Curl==
 
 
==Gradient, Divergence, Vorticity and and Q Criterion==
The '''Gradient''' filter ('''Advanced''' Properties tab) provides Gradient, Divergence, Vorticity and and Q Criterion.  Here is am example, using disk_out_ref.exo. 
 
 
[[Image:cfd_gradient1.png|1000px]]
 
 
 


==Probing a fluid==
==Probing a fluid==


==Volume Rendering==
==Volume Rendering==

Revision as of 02:31, 13 November 2021

Visualizing Computational Fluid Dynamics

This tutorial shows common visualization techniques for cfd datasets. We will be using the dataset disk_out_ref.exo, found in Paraview under File/ Open/ Examples. It has a vector field in it called V.

Slices

  • File → Open → Examples → disk_out_ref.exo.. On the Properties tab, click Apply.
  • +X
  • Filters → Common → Slice. Apply. Unselect the Show Plane.
  • Color by: v.
  • In the pipeline browser, select disk_out_ref.exo
  • Filters → Common → Slice. Y Normal. Apply. Unselect the Show Plane.
  • Color by: pres.
  • View → Color Map Editor → Presets (the little envelope with a heart) → Turbo.
  • With the mouse, rotate the slices around so you can see both surfaces.


Cfd slices2.png


Stream Tracers - lines and tubes

  • File → Open → Examples → disk_out_ref.exo.. On the Properties tab, click Apply.
  • +X
  • Filters → Common → Stream Tracer. v. Seed Type: Point Cloud. Uncheck Show Sphere. Apply.
  • Color by: v.

Lines don't color as nicely as surfaces. Lets add a tube filter around each streamline.

  • Filters → Search. Type Tube. Apply.

Now, we want to know which directions the particles are moving. We will use a glyph filter. Note we place the glyph filter on the streamline, not the tube.

  • Select StreamTracer in the Pipeline Browser.
  • Filters → Common → Glyph. Glyph Type: Cone. Orientation Array: v. Scale Array: v . Very Important - Scale Factor select the recycle button to the right. Apply.
  • Color by: temp.
  • View → Color Map Editor → Presets (the little envelope with a heart) → Black Body Radiation.
  • Reset


Cfd streamtracer1.png


Glyphs perpendicular to a slice

  • File → Open → Examples → disk_out_ref.exo.. On the Properties tab, click Apply.
  • +X

Lets create a half slice. This will be used as the seed plane for glyphs.

  • Filters → Common → Slice. Origin 0, 0, 5. Uncheck Show Plane. Apply.
  • Filters → Common → Clip. Uncheck Show Plane. Apply.

Now, apply glyphs.

  • Filters → Common → Glyph. Glyph Type: Arrow. Orientation Array: v. Scale Array: v . Very Important - Scale Factor select the recycle button to the right. .5X. .5X. Apply.
  • Color by: v. Change Magnitude to Z.

Let's put these glyphs back into context by showing the original dataset.

  • Select disk_out_ref.exo in the Pipeline Browser. Representation: wireframe. On the Properties tab, change Opacity to 0.3.
  • Use the mouse to zoom into the glyph vectors.


Cfd slice glyph1.png


Flow in a fluid

To show a velocity profile we need to sample the dataset with a line, and then create glyphs off of this line. This can be done using a trick in ParaView, i.e., the Plot over Line filter. Note that a Resample to Line filter will be added in ParaView 5.11 or so.

  • File → Open → Examples → disk_out_ref.exo.. On the Properties tab, click Apply.

Lets sample over a line.

  • Filters → Data Analysis → Plot over Line. Y Axis. Change the Z component of the line to 1. Change the Resolution to 40. Apply.
  • Close the LineChartView.
  • In the Pipeline Browser, turn visibility off for disk_out_ref.exo.

We now have a line sampled through the fluid. Lets calculate the negative Z component of V (so it goes the opposite direction on the line from V). That way we can have two profiles, one with V, and one with Vz.

  • Filters → Common → Calculator. Change Result to Vz. Use 0*iHat+0+jHat+-v_Z*kHat for the formula. Apply.

Now we want to create two Glyphs - one from the Calculator filter, and one directly from the Plot over Line filter.

  • The Calculator filter should still be highlighted in the Pipeline Browser.
  • Filters → Common → Glyph. Glyph Type: Arrow. Orientation Array: Vz. Scale Array: Vz . Very Important - Scale Factor select the recycle button to the right. .5X. .5X. Apply.
  • Click on the Color Editor icon. Change the color to Orange. Apply.
  • In the Pipeline Browser select the Plot over Line filter.
  • Filters → Common → Glyph. Glyph Type: Arrow. Orientation Array: v. Scale Array: v . Very Important - Scale Factor select the recycle button to the right. Apply.

Let's put these glyphs back into context by showing the original dataset.

  • Select disk_out_ref.exo in the Pipeline Browser. On the Properties tab, change Opacity to 0.3.

Just to create a nice image, I'm going to split the views horizontally, and show this visualization also from the side.


Cfd fluid velocity profile1.png


Gradient, Divergence, Vorticity and and Q Criterion

The Gradient filter (Advanced Properties tab) provides Gradient, Divergence, Vorticity and and Q Criterion. Here is am example, using disk_out_ref.exo.


Cfd gradient1.png



Probing a fluid

Volume Rendering