Difference between revisions of "OpenFOAM/C2/Basic-Post-Processing-using-ParaView/English"

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Line 129: Line 129:
 
|-
 
|-
 
|Menu bar >> click '''the lastFrame''' button.
 
|Menu bar >> click '''the lastFrame''' button.
|Now go to the '''Menu bar''' and click '''the lastFrame''' button.
+
|Now go to the '''Menu bar''' and click the '''lastFrame''' button.
  
 
|-
 
|-
Line 199: Line 199:
 
I have already copied this file in my work folder.  
 
I have already copied this file in my work folder.  
  
Then run the '''simulation''' using '''simpleFoam'''.
+
And run the '''simulation''' using '''simpleFoam'''.
  
 
|-
 
|-
|
+
|Terminal
|Now open this solved '''case''' file in the '''command terminal'''.
+
  
 +
Type '''cd ..'''
  
Here I will type '''cd ..'''
+
Type '''cd motorBike'''
  
'''cd motorBike'''
+
|Now open this solved '''case''' file in the '''command terminal'''.
  
  
To see the content inside type '''ls'''
+
Here I will type '''cd space dot dot'''
  
 +
'''cd space motorBike'''
  
You will see all these files here.
+
|-
 +
|Type '''ls'''
 +
|To see the content inside type '''ls'''
  
  
Now to '''post-process''' this '''simulation''', type '''paraFoam''' in the '''command terminal'''.
+
You will see all these files here.
 +
 
 +
|-
 +
|Type '''paraFoam'''
 +
|Now to '''post-process''' this '''simulation''', type '''paraFoam''' in the '''command terminal'''.
  
  
 
This will open the '''ParaView''' window.
 
This will open the '''ParaView''' window.
 
|-
 
|-
| ParaView Window >>Visual Narration >>Visual Narration >>
+
| ParaView Window >>click '''Apply''' in '''Properties''' panel.
 
| To visualize the '''domain geometry''', click '''Apply''' button on the top left corner of the '''Properties''' panel.
 
| To visualize the '''domain geometry''', click '''Apply''' button on the top left corner of the '''Properties''' panel.
  
 +
|-
 +
|'''Menu bar''' >> click on '''lastFrame''' button
 +
|To include the last iteration, click on the '''lastFrame''' button on the '''Menu bar'''.
  
To include the last iteration, click on the '''lastFrame''' button on the '''Menu bar'''.
+
|-
 +
|'''Tool Bar''' >> directional view >> '''+Y'''.
 +
|Go to the '''Tool Bar''' and set the directional view to '''+Y'''.
  
 +
|-
 +
|In drop-down >> Change '''vtkBlockColors''' to U
 +
|Change the '''vtkBlockColors''' to '''U''' from the drop-down options.
  
Go to the '''Tool Bar''' and set the directional view to '''+Y'''.
+
|-
 +
|Scroll down '''Properties panel''' to '''Opacity'''
 +
|Now scroll down on the '''Properties panel''' to '''Opacity'''.
  
 +
|-
 +
|Reduce the '''Opacity'''
 +
|Reduce the '''Opacity''' to make the domain transparent like this.
  
Change the '''vtkBlockColors''' to U from the drop down options.
 
  
 +
You will be able to see the motor bike with the rider through the domain now.
  
Now scroll down on the '''Properties panel''' to '''Opacity'''.
+
|-
 +
|'''Tool Bar''' >> click on '''stream Tracer''' filter
 +
|To create '''streamlines''' around the motor bike, click on '''stream Tracer''' filter on the '''Tool Bar'''.
  
  
Reduce the '''Opacity''' to make the domain transparent like this.
+
This will add a new component within the '''Pipeline''' browser.
  
 +
|-
 +
|'''Properties''' panel >>'''Seeds section''' >> change '''Point''' to '''(5 0 1) '''
  
You will be able to see the motor bike with the rider through the domain now.
 
  
 
+
Change '''Number of Points''' to '''15'''
To create '''streamlines''' around the motor bike click on '''stream Tracer''' filter on the '''Tool Bar'''.
+
 
+
 
+
This will add a new component within the '''Pipeline''' browser.
+
  
  
Here in the '''Properties''' panel change the '''Point''' to '''(5 0 1) '''coordinates within '''Seeds section'''.
+
Change the '''Radius''' to '''1'''
 +
|Here in the '''Properties''' panel change the '''Point''' to '''(5 0 1) '''coordinates within '''Seeds section'''.
  
  
Line 259: Line 279:
  
  
This show the number of stream lines you want to create.
+
This show the number of '''stream lines''' you want to create.
  
  
Line 265: Line 285:
  
  
This changes the radius of the stream line points.
+
This changes the radius of the '''stream line''' points.
  
  
 
Keep the rest of the values as default.
 
Keep the rest of the values as default.
  
 +
|-
 +
|Click '''Apply'''
 +
|After all changes have been made, click '''Apply''' on the '''Properties''' menu of the '''stream Tracer'''.
  
After all changes have been made, click '''Apply''' on the '''Properties''' menu of the '''stream Tracer'''.
 
  
 
+
You can see '''stream lines''' around the motor bike along with their magnitude.
You can see stream lines around the motor bike along with their magnitude.
+
  
  
 
Thus we have learned to create '''stream lines''' in '''ParaView'''.
 
Thus we have learned to create '''stream lines''' in '''ParaView'''.
  
 +
|-
 +
|Close '''ParaView''' window.
 +
|After this close the '''ParaView''' window.
  
After this close the '''ParaView''' window.
+
|-
 +
|
 +
|We will go to the next problem statement.
  
 
We will go to the next problem statement.
 
 
|-
 
|-
 
| Slide 10 : '''Problem Statement-Clip and Slice Filters'''
 
| Slide 10 : '''Problem Statement-Clip and Slice Filters'''
| '''Clip and Slice Filters'''* OpenFOAM has provided an inbuilt case file for {{anchor|DdeLink1641993596885}} '''hotRadiationRoom'''
+
| '''Clip and Slice Filters'''
 
+
* '''OpenFOAM''' has provided an '''inbuilt case''' file for '''hotRadiationRoom'''
  
 
|-
 
|-
 
| Slide 11 : '''Problem Statement-Clip and Slice Filters'''
 
| Slide 11 : '''Problem Statement-Clip and Slice Filters'''
 
| Here we will:
 
| Here we will:
* focus on post-processing of the '''hotRadiationRoom''' solution
+
* focus on '''post-processing''' of the '''hotRadiationRoom''' solution
 
* '''learn to '''use filters like''' clip '''and '''slice '''in '''ParaView'''
 
* '''learn to '''use filters like''' clip '''and '''slice '''in '''ParaView'''
  
 
|-
 
|-
| Terminal >>Visual Narration >>
+
| Terminal >> Open case file as per narration
| To open the '''hotRadiationRoom''' case file
+
|  
 +
*To open the '''hotRadiationRoom case''' file
 +
*go to the '''hotRadiationRoom''' tutorial in '''BuoyantSimpleFoam '''within''' heatTransfer case''' directory.
  
Go to the '''hotRadiationRoom''' tutorial in '''BuoyantSimpleFoam '''within''' heatTransfer case directory.  
+
You can find this within '''OpenFOAM-4.1>tutorials '''directory.
  
You can find this within OpenFOAM-4.1>tutorials '''directory.
+
|-
 
+
|
 
+
|I have already copied this file in my work folder and '''run''' the '''simulation''' using '''BuoyantSimpleFoam'''.
I have already copied this file in my work folder and '''run''' the '''simulation''' using '''BuoyantSimpleFoam'''.
+
  
  
 
Now open this solved '''case''' file in the '''command terminal'''.
 
Now open this solved '''case''' file in the '''command terminal'''.
  
 
+
|-
Here I will type  
+
|Type
 +
'''cd /opt/openfoam4/tutorials/heatTransfer/buoyantSimpleFoam/hotRadiationRoom'''
 +
|Here I will type  
 
'''cd /opt/openfoam4/tutorials/heatTransfer/buoyantSimpleFoam/hotRadiationRoom'''
 
'''cd /opt/openfoam4/tutorials/heatTransfer/buoyantSimpleFoam/hotRadiationRoom'''
  
 
+
|-
To see the content inside type '''ls'''.
+
|Type '''ls'''
 +
|To see the content inside type '''ls'''.
  
  
 
You will see all these files here.
 
You will see all these files here.
  
 
+
|-
Now to '''post-process''' this '''simulation''', type '''paraFoam''', in the '''command terminal'''.
+
|'''Terminal''' >> type '''paraFoam'''
 +
|Now to '''post-process''' this '''simulation''', type '''paraFoam''', in the '''command terminal'''.
  
  
Line 326: Line 355:
  
 
|-
 
|-
| ParaView Window >>
+
| ParaView Window >> click '''Apply''' button
 
| To visualize the '''domain geometry''', click '''Apply''' button on the top left corner of the '''Properties''' panel.
 
| To visualize the '''domain geometry''', click '''Apply''' button on the top left corner of the '''Properties''' panel.
  
Line 332: Line 361:
 
This will show the '''domain geometry''' on the '''Graphic''' window.
 
This will show the '''domain geometry''' on the '''Graphic''' window.
  
 
+
|-
Now if you scroll down within the '''Properties''' menu.
+
|Scroll inside '''Properties''' menu
 +
|Now scroll down within the '''Properties''' menu.
  
  
 
You will see the different types of '''Volume Field''' available for visualization.
 
You will see the different types of '''Volume Field''' available for visualization.
  
 
+
|-
Here we will visualize the '''Temperature field''' within the '''domain'''.
+
|'''Volume Field''' >> check '''T variable''' >> click on '''Apply'''.
 +
|Here we will visualize the '''Temperature field''' within the '''domain'''.
  
  
 
For this check the '''T variable''' within the '''Volume Field''' and click on '''Apply'''.
 
For this check the '''T variable''' within the '''Volume Field''' and click on '''Apply'''.
  
 
+
|-
Now go to the '''Tool Bar'''.
+
|Toolbar drop-down >> change '''vtkBlockColors''' to '''T'''
 +
|Now go to the toolbar.
  
  
Line 353: Line 385:
 
This will show the initial '''flow conditions''' on the '''Graphic '''window.
 
This will show the initial '''flow conditions''' on the '''Graphic '''window.
  
 +
|-
 +
|Toolbar >> set directional view to '''+Z'''.
 +
|Go to the toolbar and set the directional view to '''+Z'''.
  
Go to the '''Tool Bar''' and set the directional view to '''+Z'''.
+
|-
 
+
|Menu bar >> click '''Play'''
 
+
|Now go to the '''Menu bar''' and click '''Play''' button.
Now go to the '''Menu bar''' and click '''Play''' button.
+
  
  
Line 365: Line 399:
 
This will visualize the flow temperature field after 900 iterations.
 
This will visualize the flow temperature field after 900 iterations.
  
 
+
|-
Now click and scroll on the '''Graphic''' window.  
+
|Scroll '''Graphic''' window.
 +
|Now click and scroll on the '''Graphic''' window.  
  
 
You can clearly see the temperature gradient due to radiation near the hot object.
 
You can clearly see the temperature gradient due to radiation near the hot object.
Line 376: Line 411:
 
Thus we need to get a sectional or planar view of the field.
 
Thus we need to get a sectional or planar view of the field.
 
|-
 
|-
| '''ParaView Window >>''' Visual Narration >>
+
| '''ParaView Window >> toolbar >> click on '''clip''' filter
 
| First we will learn to create a sectional view of the field.
 
| First we will learn to create a sectional view of the field.
  
  
To do this, click on the '''clip''' filter on the '''Tool''' Bar.
+
To do this, click on the '''clip''' filter on the toolbar.
  
  
 
This will add a new component to the '''Pipeline''' window.
 
This will add a new component to the '''Pipeline''' window.
  
 +
|-
 +
|'''Properties''' panel >> select '''Y Normal'''.
 +
|Now in the '''Properties''' panel select '''Y Normal'''.
  
Now in the '''Properties''' panel select '''Y Normal'''.
+
|-
 +
|Scroll '''Graphic''' window >> shift '''reference''' section
 +
|Scroll on the '''Graphic''' window like this. Then shift the '''reference''' section to the middle of the hot box.
  
 +
|-
 +
|'''Properties''' panel >> click '''Apply'''
 +
|After this click '''Apply''' on the '''Properties''' panel.
  
Scroll on the '''Graphic''' window like this. Then shift the reference section to the middle of the hot box.
+
|-
 +
|Toolbar >> change view direction to '''+Y'''
 +
|Now change the view direction to '''+Y''' on the toolbar.
  
  
After this click '''Apply''' on the '''Properties''' panel.
+
Thus you can see the sectional view of the temperature field.
 
+
 
+
Now change the view direction to '''+Y''' on the toolbar.
+
 
+
 
+
Thus you can see the sectional view of the temperature field
+
  
 +
|-
 +
|Delete this filter
 +
|Now delete this filter to visualize the full domain from the '''Properties''' panel.
  
Now delete this filter to visualize the full domain from the '''Properties''' panel.
 
 
|-
 
|-
| '''ParaView Window >>'''
+
| '''ParaView Window >>''' toolbar >> click on '''slice''' filter
 
| Now we will learn to create a planar view of the field.
 
| Now we will learn to create a planar view of the field.
  
Line 412: Line 453:
 
This will add a new component to the '''Pipeline''' window.
 
This will add a new component to the '''Pipeline''' window.
  
 +
|-
 +
|'''Properties''' panel >> select '''Y Normal'''.
 +
|Now in the '''Properties''' panel select '''Y Normal'''.
  
Now in the Properties panel select '''Y Normal'''.
+
|-
 
+
|Scroll '''Graphic''' window >> toolbar >> change view direction to '''+Z'''
 
+
|Scroll on the '''Graphic''' window like this.  
Scroll on the '''Graphic''' window like this.  
+
  
  
 
Now change the view direction to '''+Z''' on the toolbar.
 
Now change the view direction to '''+Z''' on the toolbar.
  
 +
|-
 +
|'''Graphic''' window >> shift '''reference''' section
 +
|Then shift the '''reference''' section to the middle of the hot box.
  
Then shift the reference section to the middle of the hot box.
+
|-
 +
|'''Properties''' panel >> click '''Apply'''
 +
|After this click '''Apply''' on the '''Properties''' panel.
  
 
+
|-
After this click '''Apply''' on the '''Properties''' panel.
+
|toolbar >> change view direction to '''+Y'''
 
+
|Now change the view direction to '''+Y''' on the toolbar.
 
+
Now change the view direction to '''+Y''' on the toolbar.
+
  
  
Line 436: Line 482:
 
| Close the '''ParaView''' window.
 
| Close the '''ParaView''' window.
 
|-
 
|-
Slide 12: Summary
+
|Slide 12: Summary
 
|Let us summarize.
 
|Let us summarize.
  
  
 
In this tutorial, we learnt some basic '''Post-Processing''' using '''ParaView'''.
 
In this tutorial, we learnt some basic '''Post-Processing''' using '''ParaView'''.
|-
+
 
|Slide 13: Summary
+
Under this we have learnt to
| Under this we have learnt to
+
 
*Visualize field variable
 
*Visualize field variable
*Create Velocity Vectors
+
*Create '''Velocity Vectors'''
*Create Stream lines
+
*Create '''Stream lines'''
*Use clip and slice filters
+
*Use '''clip''' and '''slice''' filters
  
 
|-
 
|-
| Slide 14: Exercise
+
| Slide 13: Exercise
|You can use the discussed utilities on other inbuilt case files.
+
|You can use the discussed utilities on other '''inbuilt case''' files.
  
  
 
This will help you understand the post-processing using ParaView better.
 
This will help you understand the post-processing using ParaView better.
 
|-
 
|-
| Slide 15:
+
| Slide 14:
  
 
Forum to answer questions
 
Forum to answer questions
Line 462: Line 507:
  
 
|-
 
|-
| Slide 16:
+
| Slide 15:
  
 
Forum to answer questions
 
Forum to answer questions
Line 468: Line 513:
  
 
|-
 
|-
|Slide 17:
+
|Slide 16:
  
 
Case Study Project
 
Case Study Project
| The '''FOSSEE ''' team coordinates the Case Study project.
+
| The '''FOSSEE ''' team coordinates the '''Case Study project'''.
 
|-
 
|-
| Slide 18:
+
| Slide 17:
  
 
Lab Migration Project
 
Lab Migration Project
 
|  
 
|  
 
|-
 
|-
| Slide 19:
+
| Slide 18:
  
 
Acknowledgement
 
Acknowledgement

Latest revision as of 18:35, 26 August 2019

Tutorial : Basic Post-Processing using ParaView

Script : Subhasree Basu

Narration : Deepa Vedartham

Keywords: OpenFOAM-5, Velocity vectors, Stream lines, slice, clip, ParaView, Spoken Tutorial


Visual Cue Narration
Slide 1 : Title Hello and welcome to the spoken tutorial on Basic Post-Processing using ParaView.
Slide 2 : Learning Objectives In this tutorial, we will learn some basic visualization techniques in ParaView.
Slide 3 : Learning Objectives Under this we will learn:
  1. Variable visualization
  2. Velocity vector visualization
  3. Streamlines visualization
  4. Slice and Clip filters

Slide 4 :

System Requirement

To record this tutorial I am using
  • Ubuntu Linux Operating system 16.04 LTS
  • OpenFOAM version 4.1
  • ParaView version 5.0
Slide 5 :

Pre-requisite

To practice this tutorial, the user should have
  • Basic knowledge of Linux terminal commands
  • Experience with simulating cases in OpenFOAM
  • Working skills in ParaView

If not, please go through the previous OpenFOAM spoken tutorials on this website: https://spoken-tutorial.org/

Slide 6 : Problem Statement-Variable Visualization Variable visualization
  • OpenFOAM has provided an inbuilt case file for pitzDaily.
Slide 7 : Problem Statement-Variable Visualization Here we will:
  • focus on post-processing of the pitzDaily solution
  • learn to visualize flow field variables like velocity, pressure, vorticity, etc.
  • learn to visualize velocity vector within the flow field
Slide You can find the pitzDaily case file within the simpleFoam directory within OpenFOAM-4.0>tutorials directory.


I have already copied this file in my work folder and run the simulation in my machine using simpleFoam.

Open a command Terminal. Now we will open this solved case file in the command terminal.
Type cd /opt/openfoam4/tutorials/incompressible/simpleFoam/pitzDaily Here I will type:

cd /opt/openfoam4/tutorials/incompressible/simpleFoam/pitzDaily

Type ls To see the content inside this folder type ls.


You will see all these files here.

Type paraFoam Now to post-process this simulation, type paraFoam, in the command terminal.


This will open the ParaView window.

ParaView Window >> click Apply To visualize the domain geometry click Apply button.

This is on the top left corner of the Properties panel.

Graphic window >> This will show the domain geometry on the Graphic window.
Scroll down >> point to the different types of Volume fields Now scroll down within the Properties panel.


You will see the different types of Volume Fields available for visualization.


Here we will visualize the velocity field within the domain.

Check the U variable For this, check the U variable within the Volume Field.


Please note that the U variable is available to visualization, by default.

Go to the toolbar. Now go to the toolbar.
Drop-down >>change vtkBlockColors to U Change the vtkBlockColors to U from the drop-down options.


This will show the initial flow conditions on the Graphic window.

Menu bar >> click the lastFrame button. Now go to the Menu bar and click the lastFrame button.
Velocity field pattern You can see the velocity field pattern of the converged solution.


This will visualize the flow velocity field after 298 iterations.


Thus we have learnt to visualize field variables in ParaView.

Click on the Glyph filter >> point to the Pipeline window. After this we will learn to visualize velocity vectors.


To do this, click on the Glyph filter on the toolbar.


This will add a new component to the Pipeline window.

Scroll within the Glyph Properties panel. Now within the Glyph Properties panel make sure the
  • Glyph type is arrow
  • Scale Mode is off
  • Scaling Factor is 0.003


Keep the rest as default.

Click Apply button. Click Apply button on the top left corner of the Properties panel.


You will see small velocity vectors visualized within the domain.

Point to circulation zone and magnitude of velocity. You can now clearly see the circulation zone and magnitude of velocity.


Thus we have learned to create velocity vector in a flow field.

Close ParaView window After this close ParaView window.

Now let us go back to the next problem statement.

Slide 8 : Problem Statement-Streamlines Visualization Streamlines Visualization

OpenFOAM has provided an inbuilt case file for flow over a motorBike.

Slide 9 : Problem Statement-Streamlines Visualization Here we will:
  • focus on post-processing of the motorBike solution
  • learn to create stream lines and view them in ParaView
Terminal >> Visual Narration >> You can find the motorBike case file in the simpleFoam directory within OpenFOAM-4.1>tutorials directory.


I have already copied this file in my work folder.

And run the simulation using simpleFoam.

Terminal

Type cd ..

Type cd motorBike

Now open this solved case file in the command terminal.


Here I will type cd space dot dot

cd space motorBike

Type ls To see the content inside type ls


You will see all these files here.

Type paraFoam Now to post-process this simulation, type paraFoam in the command terminal.


This will open the ParaView window.

ParaView Window >>click Apply in Properties panel. To visualize the domain geometry, click Apply button on the top left corner of the Properties panel.
Menu bar >> click on lastFrame button To include the last iteration, click on the lastFrame button on the Menu bar.
Tool Bar >> directional view >> +Y. Go to the Tool Bar and set the directional view to +Y.
In drop-down >> Change vtkBlockColors to U Change the vtkBlockColors to U from the drop-down options.
Scroll down Properties panel to Opacity Now scroll down on the Properties panel to Opacity.
Reduce the Opacity Reduce the Opacity to make the domain transparent like this.


You will be able to see the motor bike with the rider through the domain now.

Tool Bar >> click on stream Tracer filter To create streamlines around the motor bike, click on stream Tracer filter on the Tool Bar.


This will add a new component within the Pipeline browser.

Properties panel >>Seeds section >> change Point to (5 0 1)


Change Number of Points to 15


Change the Radius to 1

Here in the Properties panel change the Point to (5 0 1) coordinates within Seeds section.


This will change the location of the center of the stream lines.


Now change the Number of Points to 15.


This show the number of stream lines you want to create.


Change the Radius to 1.


This changes the radius of the stream line points.


Keep the rest of the values as default.

Click Apply After all changes have been made, click Apply on the Properties menu of the stream Tracer.


You can see stream lines around the motor bike along with their magnitude.


Thus we have learned to create stream lines in ParaView.

Close ParaView window. After this close the ParaView window.
We will go to the next problem statement.
Slide 10 : Problem Statement-Clip and Slice Filters Clip and Slice Filters
  • OpenFOAM has provided an inbuilt case file for hotRadiationRoom
Slide 11 : Problem Statement-Clip and Slice Filters Here we will:
  • focus on post-processing of the hotRadiationRoom solution
  • learn to use filters like clip and slice in ParaView
Terminal >> Open case file as per narration
  • To open the hotRadiationRoom case file
  • go to the hotRadiationRoom tutorial in BuoyantSimpleFoam within heatTransfer case directory.

You can find this within OpenFOAM-4.1>tutorials directory.

I have already copied this file in my work folder and run the simulation using BuoyantSimpleFoam.


Now open this solved case file in the command terminal.

Type

cd /opt/openfoam4/tutorials/heatTransfer/buoyantSimpleFoam/hotRadiationRoom

Here I will type

cd /opt/openfoam4/tutorials/heatTransfer/buoyantSimpleFoam/hotRadiationRoom

Type ls To see the content inside type ls.


You will see all these files here.

Terminal >> type paraFoam Now to post-process this simulation, type paraFoam, in the command terminal.


This will open the ParaView window.

ParaView Window >> click Apply button To visualize the domain geometry, click Apply button on the top left corner of the Properties panel.


This will show the domain geometry on the Graphic window.

Scroll inside Properties menu Now scroll down within the Properties menu.


You will see the different types of Volume Field available for visualization.

Volume Field >> check T variable >> click on Apply. Here we will visualize the Temperature field within the domain.


For this check the T variable within the Volume Field and click on Apply.

Toolbar drop-down >> change vtkBlockColors to T Now go to the toolbar.


Change the vtkBlockColors to T from the drop down options.


This will show the initial flow conditions on the Graphic window.

Toolbar >> set directional view to +Z. Go to the toolbar and set the directional view to +Z.
Menu bar >> click Play Now go to the Menu bar and click Play button.


You can see the temperature field pattern of the converged solution.


This will visualize the flow temperature field after 900 iterations.

Scroll Graphic window. Now click and scroll on the Graphic window.

You can clearly see the temperature gradient due to radiation near the hot object.


But we are unable to visualize the whole section.


Thus we need to get a sectional or planar view of the field.

ParaView Window >> toolbar >> click on clip filter First we will learn to create a sectional view of the field.


To do this, click on the clip filter on the toolbar.


This will add a new component to the Pipeline window.

Properties panel >> select Y Normal. Now in the Properties panel select Y Normal.
Scroll Graphic window >> shift reference section Scroll on the Graphic window like this. Then shift the reference section to the middle of the hot box.
Properties panel >> click Apply After this click Apply on the Properties panel.
Toolbar >> change view direction to +Y Now change the view direction to +Y on the toolbar.


Thus you can see the sectional view of the temperature field.

Delete this filter Now delete this filter to visualize the full domain from the Properties panel.
ParaView Window >> toolbar >> click on slice filter Now we will learn to create a planar view of the field.


To do this, click on the slice filter on the toolbar.


This will add a new component to the Pipeline window.

Properties panel >> select Y Normal. Now in the Properties panel select Y Normal.
Scroll Graphic window >> toolbar >> change view direction to +Z Scroll on the Graphic window like this.


Now change the view direction to +Z on the toolbar.

Graphic window >> shift reference section Then shift the reference section to the middle of the hot box.
Properties panel >> click Apply After this click Apply on the Properties panel.
toolbar >> change view direction to +Y Now change the view direction to +Y on the toolbar.


Thus you can see a plane section view of the temperature field.

Close the ParaView window and switch to the slides Close the ParaView window.
Slide 12: Summary Let us summarize.


In this tutorial, we learnt some basic Post-Processing using ParaView.

Under this we have learnt to

  • Visualize field variable
  • Create Velocity Vectors
  • Create Stream lines
  • Use clip and slice filters
Slide 13: Exercise You can use the discussed utilities on other inbuilt case files.


This will help you understand the post-processing using ParaView better.

Slide 14:

Forum to answer questions

Please post your timed queries in this forum.
Slide 15:

Forum to answer questions

Please post your general queries on OpenFOAM in this forum.
Slide 16:

Case Study Project

The FOSSEE team coordinates the Case Study project.
Slide 17:

Lab Migration Project

Slide 18:

Acknowledgement


https://spoken-tutorial.org

The Spoken Tutorial Project is funded by NMEICT, MHRD, Govt. of India.


For more details, visit this website.

Thank You This is Deepa Vedartham from IIT Bombay signing off. Thanks for watching.

Contributors and Content Editors

DeepaVedartham, Nancyvarkey