Difference between revisions of "Day 14"

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Today we will concentrate on external and compressible flow. With the knowledge from [https://wiki.openfoam.com/index.php?title=Day_13 Day 13] about the thermodynamic models we will concentrate on high compressibility, as the physics behind these phenomena are not trivial. We will focus on
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Today we will continue with programming. There are two tutorial, these tutorials explain a lot.  
  
* external flows
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Go back to [https://wiki.openfoam.com/index.php?title=%223_weeks%22_series "3 weeks" series].
* high compressibility
 
  
Go back to [https://wiki.openfoam.com/index.php?title=%223_weeks%22_series "3 weeks" series].
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=[https://wiki.openfoam.com/Programming_by_Hakan_Nilsson Advanced programming by Håkan Nilsson]=
  
=[https://wiki.openfoam.com/Hairpin_by_Joel_Guerrero Hairpin voritces]=
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Here you will find an introduction to advanced programming in OpenFOAM by Håkan Nilsson at Chalmers University of Technology. You will learn about
  
This tutorial gives you an extensive introduction to the flow around a hemisphere, which can be seen as one of the simplest case of an external flow. The challenge here is to correctly set up the case and run it. By now you should have the experience and the knowledge to do so. The focus is on
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* implementation of a turbulence model
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* implementation of a boundary condition
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* implementation of a function object
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* debugging in OpenFOAM
  
* understanding the physics
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=[https://wiki.openfoam.com/Coupling_a_membrane_with_pretension_to_point_displacement_Michael_Alletto Imlement how to impose a movement of the mesh at a given boundary]=
* case setup and workflow
 
* meshing
 
* running the simulation
 
** steady-state
 
** transient
 
* data evaluation
 
* mesh refinement
 
  
=[https://wiki.openfoam.com/External_flows_by_Robert_Lee External flows]=
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Here you will learn how to couple two different physical problems in OpenFoam. In this specific case you will use the equation of motion of a membrane with pretension to impose the movement of the mesh at a given boundary. You will learn about
  
In this tutorial you will learn about highly compressible flows and the steps required to correctly model them. As the physics behind the topic is not trivial, you will go through three simulation cases to understand the idea behind the case setups. The focus is on following topics:
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* implementation of more advanced models in OpenFOAM
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* finite area
  
* Magnus effect
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=End of day 14=
* space capsule atmospheric entry simulation
 
* hyperloop drag simulation
 
  
=[https://wiki.openfoam.com/Compressible_flows_by_Sergei_Strijhak Compressible flows]=
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We arrived at the end of Day 14. Hopefully the detailed information from today will further help you with your own problem setting.  
  
=End of day 14=
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If you have not already done so, try to start with your own problem at this stage.
  
We arrived at the end of Day 14. The tutorial series is nearly at the end, but don't be sad, we still have one full day of joy and happiness for you. See you tomorrow!
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The tutorial series is nearly at the end, but don't be sad, we still have one full day of joy and happiness for you. See you tomorrow!

Latest revision as of 07:20, 5 May 2023

Today we will continue with programming. There are two tutorial, these tutorials explain a lot.

Go back to "3 weeks" series.

Advanced programming by Håkan Nilsson

Here you will find an introduction to advanced programming in OpenFOAM by Håkan Nilsson at Chalmers University of Technology. You will learn about

  • implementation of a turbulence model
  • implementation of a boundary condition
  • implementation of a function object
  • debugging in OpenFOAM

Imlement how to impose a movement of the mesh at a given boundary

Here you will learn how to couple two different physical problems in OpenFoam. In this specific case you will use the equation of motion of a membrane with pretension to impose the movement of the mesh at a given boundary. You will learn about

  • implementation of more advanced models in OpenFOAM
  • finite area

End of day 14

We arrived at the end of Day 14. Hopefully the detailed information from today will further help you with your own problem setting.

If you have not already done so, try to start with your own problem at this stage.

The tutorial series is nearly at the end, but don't be sad, we still have one full day of joy and happiness for you. See you tomorrow!