Difference between revisions of "Day 9"

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Welcome to Day 9. Today we will start tackling another big topic in CFD, multiphase modeling. It is important to understand the idea behind the models and how to include them into your simulation. For this reason we will take a look at the available models and take a detailed look at the VOF model and run several simulations to gain experience.
+
Welcome to Day 9. Today we will start tackling another big topic in CFD, multiphase modelling. It is important to understand the idea behind the models and how to include them into your simulation. For this reason we will take a look at the available models and take a detailed look at the VOF model and run several simulations to gain experience.
  
 
Go back to [https://wiki.openfoam.com/index.php?title=%223_weeks%22_series "3 weeks" series].
 
Go back to [https://wiki.openfoam.com/index.php?title=%223_weeks%22_series "3 weeks" series].
  
=[https://wiki.openfoam.com/Multiphase_modeling_%28VOF%29_by_Jozsef_Nagy Multiphase modeling (VOF)]=
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==[https://wiki.openfoam.com/Multiphase_modeling_%28VOF%29_by_Jozsef_Nagy Multiphase modelling (VOF)]==
  
In this tutorial you will get a compact introduction on the theory of the Volume-Of-Fluid (VOF) model and it application. You will understand, which additional entries you require in your simulation setup in order to correctly depict the additional physics in the problem. The focus is on:
+
In this tutorial you will get a compact introduction on the theory of the Volume-Of-Fluid (VOF) model and it application. You will understand, which additional entries you require in your simulation setup in order to correctly depict the additional physics in the problem. The pdf version can be found [https://wiki.openfoam.com/Multiphase_modeling_%28VOF%29_by_Bahram_Haddadi here]. The focus is on:
  
* modeling of two immiscible fluids
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* modelling of two immiscible fluids
 
* case setup
 
* case setup
 
* initial and boundary conditions
 
* initial and boundary conditions
 
* grid refinement
 
* grid refinement
* post processing
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* post-processing
  
=[https://wiki.openfoam.com/Multiphase_modeling_%28VOF%29_by_Joel_Guerrero Multiphase modeling (VOF) - flushing a tank]=
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=[https://wiki.openfoam.com/Multiphase_modeling_%28VOF%29_by_Joel_Guerrero Multiphase modelling (VOF) - flushing a tank]=
  
 
In this next tutorial you will further deepen your knowledge of the theory and gain experience by running further simulations.  
 
In this next tutorial you will further deepen your knowledge of the theory and gain experience by running further simulations.  
  
=[https://wiki.openfoam.com/Multi-Phase_and_Free_Surface_Flows_by_Kenneth_Hoste_and_Hrvoje_Jasak Multiphase, free surface flows and rising bubbles]=
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==[https://wiki.openfoam.com/Free_surface_flows_in_OpenFOAM_by_Victoria_Korchagova Free surface flows]==
 
 
These videos let all the gained information sink. With it you will be able to understand the simulations you ran up until now and you will implement this knowledge in upcoming cases. You will learn about
 
 
 
* multiphase flow modeling
 
* eulerian multiphase model
 
* free surface flow modeling
 
* free surface tracking
 
* lagrangian particle tracking
 
* liquid film model
 
 
 
=[https://wiki.openfoam.com/Multiphase_flows_in_iron_casting_by_Alexander_Vakhrushev Multiphase flows in iron casting]=
 
 
 
This is an interesting application of free surface flow modeling. Take a look at a familiar case setup and modify it in order to model iron casting. The topics covered are:
 
 
 
* VOF equations
 
* interFoam solver structure
 
* walkthrough dam-break case
 
* mold injection
 
* time varying boundary condition
 
* model setup
 
* geometry generation
 
* running a simulation
 
* post-processing
 
 
 
=[https://wiki.openfoam.com/Free_surface_flows_in_OpenFOAM_by_Victoria_Korchagova Free surface flows]=
 
  
 
In this tutorial you will be guided through another application of free surface flows in order to fully internalize the gained knowledge and experience. The focus is on  
 
In this tutorial you will be guided through another application of free surface flows in order to fully internalize the gained knowledge and experience. The focus is on  
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* fields initialization
 
* fields initialization
 
* numerics
 
* numerics
 +
 +
==[https://wiki.openfoam.com/Multi-Phase_and_Free_Surface_Flows_by_Kenneth_Hoste_and_Hrvoje_Jasak Multiphase, free surface flows and rising bubbles]==
 +
 +
These videos let all the gained information sink in. With it you will be able to understand the simulations you ran up until now and you will implement this knowledge in upcoming cases. You will learn about
 +
 +
* multiphase flow modelling
 +
* Eulerian multiphase model
 +
* free surface flow modelling
 +
* free surface tracking
 +
* Lagrangian particle tracking
 +
* liquid film model
  
 
=End of Day 9=
 
=End of Day 9=
  
We hope, that you enjoyed Day 9. We hope, that you had fun. You learned a lot about multiphase modeling and especially the Volume-Of-Fluid Method. Tomorrow we will carry on with parallelization. See you tomorrow!
+
We hope, that you enjoyed Day 9. We hope, that you had fun. You learned a lot about multiphase modelling and especially the Volume-Of-Fluid Method. Tomorrow we will carry on with parallelization. See you tomorrow!
 +
 
 +
If you've finished the day with time to spare, why not try the additional examples below!

Latest revision as of 11:26, 25 March 2020

Welcome to Day 9. Today we will start tackling another big topic in CFD, multiphase modelling. It is important to understand the idea behind the models and how to include them into your simulation. For this reason we will take a look at the available models and take a detailed look at the VOF model and run several simulations to gain experience.

Go back to "3 weeks" series.

Multiphase modelling (VOF)

In this tutorial you will get a compact introduction on the theory of the Volume-Of-Fluid (VOF) model and it application. You will understand, which additional entries you require in your simulation setup in order to correctly depict the additional physics in the problem. The pdf version can be found here. The focus is on:

  • modelling of two immiscible fluids
  • case setup
  • initial and boundary conditions
  • grid refinement
  • post-processing

Multiphase modelling (VOF) - flushing a tank

In this next tutorial you will further deepen your knowledge of the theory and gain experience by running further simulations.

Free surface flows

In this tutorial you will be guided through another application of free surface flows in order to fully internalize the gained knowledge and experience. The focus is on

  • theory
  • mesh creation
  • physical properties
  • boundary conditions
  • fields initialization
  • numerics

Multiphase, free surface flows and rising bubbles

These videos let all the gained information sink in. With it you will be able to understand the simulations you ran up until now and you will implement this knowledge in upcoming cases. You will learn about

  • multiphase flow modelling
  • Eulerian multiphase model
  • free surface flow modelling
  • free surface tracking
  • Lagrangian particle tracking
  • liquid film model

End of Day 9

We hope, that you enjoyed Day 9. We hope, that you had fun. You learned a lot about multiphase modelling and especially the Volume-Of-Fluid Method. Tomorrow we will carry on with parallelization. See you tomorrow!

If you've finished the day with time to spare, why not try the additional examples below!

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