Awesome presentation! The main difficulty with VoF is calculating surface curvature efficiently for surface tension; the exact position of he surface is unknown and it has to be reconstructed somehow. To make this easier for everyone else, I have published a paper on the PLIC method. Links are on my YT channel!
@@CFD_Mojtaba thank you. Do you recommend some book or paper where I can read about algebraic VoF approaches, particularly COMPRESSIVE AND HRIC MODIFIED?
@@leonardohenao7646 you can have a look at the following papers: Muzaferija, S. and Peric, M. 1999. Computation of free surface flows using interface-tracking and interface-capturing Heyns, Johan A., et al. "Development of a compressive surface capturing formulation for modelling free‐surface flow by using the volume‐of‐fluid approach." International Journal for Numerical Methods in Fluids 71.6 (2013): 788-804.
if we take Multi-stepping method like number of implicit multistep is 8 for example, then should we take this into account while setting a lower and upper CFL values for HRIC Scheme? I mean multistep allows to use 8 times larger courent number in this case so one should also use larger lower and upper value for HRIC? what is the disadvantage if I use lower and upper limit 50 and 100?
Dear Abhishekkumar shingala, To make use of the advantages of the HRIC method, the values of the lower and upper limits of courant number within the VOF method should be higher than the local courant numbers encountered over the free surface. I hope this helps! Respectfully, Mojtaba.
Hi sir. If my simulation, the volume of water fraction in overset domain have surface which dont integrate with surface of virtual towing tank domain, how it happen? How i almost do? Thanks sir
![[CFD] Eulerian Multi-Phase Modelling](http://i.ytimg.com/vi/6BJauDTpCmo/mqdefault.jpg)
Awesome presentation!
The main difficulty with VoF is calculating surface curvature efficiently for surface tension; the exact position of he surface is unknown and it has to be reconstructed somehow. To make this easier for everyone else, I have published a paper on the PLIC method. Links are on my YT channel!
It was a great video, very informative! keep it up
Very well-done!!
Very informative!!
Loved it!!
Very clear! Thanks!!!
Very Good!
Great video. Do you know if COMPRESSIVE (default in Fluent)
is a First, Second or high order scheme?
Hi Leonardo,
Thank you for your comment. The compressive method used in Fluent is theoretically second-order.
@@CFD_Mojtaba thank you. Do you recommend some book or paper where I can read about algebraic VoF approaches, particularly COMPRESSIVE AND HRIC MODIFIED?
@@leonardohenao7646 you can have a look at the following papers:
Muzaferija, S. and Peric, M. 1999. Computation of free surface flows using interface-tracking and interface-capturing
Heyns, Johan A., et al. "Development of a compressive surface capturing formulation for modelling free‐surface flow by using the volume‐of‐fluid approach." International Journal for Numerical Methods in Fluids 71.6 (2013): 788-804.
@@CFD_Mojtaba Thank you!!!
if we take Multi-stepping method like number of implicit multistep is 8 for example, then should we take this into account while setting a lower and upper CFL values for HRIC Scheme? I mean multistep allows to use 8 times larger courent number in this case so one should also use larger lower and upper value for HRIC? what is the disadvantage if I use lower and upper limit 50 and 100?
Dear Abhishekkumar shingala,
To make use of the advantages of the HRIC method, the values of the lower and upper limits of courant number within the VOF method should be higher than the local courant numbers encountered over the free surface.
I hope this helps!
Respectfully,
Mojtaba.
Hi sir. If my simulation, the volume of water fraction in overset domain have surface which dont integrate with surface of virtual towing tank domain, how it happen? How i almost do? Thanks sir
Dear sir,
I think you can find the answer to your question in this video: th-cam.com/video/AZkuHDzSqks/w-d-xo.html
Respectfully,
Mojtaba.