Thank you for the highly informative tutorial. Is it possible to perform a simulation in openfoam for a particle suspended in air which is being sucked using Euler-Lagrange approach. I need to use the 3D cad of the particle.
hello Asmaa... I have a question? Let's say we have a set of Velocity Values in a Notepad or any other files... So, is it now possible to import them to OpenFoam/Paraview and mark those values on model meshing!!!!! Thank you
Thank you for the tutorial. there is one point that I want to indicate. In thermophysicalProperties.particles, you mentioned that for the thermoType "we use the same as thermo physical properties as air" which is not perfectly true because for particles, we consider rho constant and we do not assume it a perfectGas. I assume we do not solve the equation of state for the particles at all.
Thank you very much for this overview! I will try twophaseeulerfoam on this weekend ☺️
A great presentation. Thanks a lot!
You are welcome!
Very nice tutorial! Thank you very much for sharing this with us!
Nice clear and effective presentation in a pleasant manner - keep up the good work sharing your knowledge in OpenFoam with others :)
Great explanation, can you please provide some suggestions how to do it in CFDEM?
Thank you for the highly informative tutorial.
Is it possible to perform a simulation in openfoam for a particle suspended in air which is being sucked using Euler-Lagrange approach. I need to use the 3D cad of the particle.
Very impressive!
hello Asmaa... I have a question? Let's say we have a set of Velocity Values in a Notepad or any other files... So, is it now possible to import them to OpenFoam/Paraview and mark those values on model meshing!!!!! Thank you
Thank you for the tutorial. there is one point that I want to indicate. In thermophysicalProperties.particles, you mentioned that for the thermoType "we use the same as thermo physical properties as air" which is not perfectly true because for particles, we consider rho constant and we do not assume it a perfectGas. I assume we do not solve the equation of state for the particles at all.
Very precise note!
What about the pressure bc?