I just wanna say I actually validate your video. It is so clear, so limpid. I did not finish watching it, but I paused to subscribe. Without any doubt, you are a good lecturer.
I've watched every video on your channel, and this comment applies to each one of them. Your explanations are exceptionally clear, and your teaching style is brilliant. These videos are fantastic and incredibly helpful for my master's thesis. Thank you from a (soon to be) aeronautical engineer.
Thank you so much for all of this! It helps a lot. I don't know of any other people or literature sources which are able to (or dare to) convey these fundamentals this clearly.
Finally!! I've been waiting for the lecture on this 'Coupled solver' since I saw your lecture on SIMPLE and PISO algorithm. Thank you soooo much Sir! Love from South Korea.
really great content, and the clarity of your explanations are without rivals. one question: what do you use for creating those harmonious images and graphics?
First of thank you for the content you are creating. As regards the video, is the interpolation formula (6) really like that? I believe that pP and pN should be swapped to make sense. Thanks!
Interesting starting slides about the pressure gradient, but the pictures and the discussion are not really correct. The pressure is computed and stored at each face but the normal points in whatever direction is determined by the discretization method used by the solver, . CFX and Fluent are different in this detail.
![[CFD] Pressure-based Coupled Solver (Part 2)](http://i.ytimg.com/vi/Jegzlfp4Ue8/mqdefault.jpg)
![[CFD] Pressure-based Coupled Solver (Part 2)](/img/tr.png)
![[CFD] Turbulence Intensity for RANS](/img/n.gif)
I just wanna say I actually validate your video. It is so clear, so limpid. I did not finish watching it, but I paused to subscribe. Without any doubt, you are a good lecturer.
Outstanding content. Hats off to you, Dr Aiden !!! 👏👏👏
I've watched every video on your channel, and this comment applies to each one of them. Your explanations are exceptionally clear, and your teaching style is brilliant. These videos are fantastic and incredibly helpful for my master's thesis. Thank you from a (soon to be) aeronautical engineer.
Your channel its the best in CFD content, please dont stop uploading new content
Thank you so much for all of this! It helps a lot. I don't know of any other people or literature sources which are able to (or dare to) convey these fundamentals this clearly.
Finally!! I've been waiting for the lecture on this 'Coupled solver' since I saw your lecture on SIMPLE and PISO algorithm.
Thank you soooo much Sir! Love from South Korea.
Amazing as always! This man never disappoints!
Watching from Brazil. Your content is unmatched!
Thanks, You really made it look easier, with your clear explanation, waiting for the part-2.
I was waiting for this. Thank you Dr. Aidan
Please upload the part 2 ASAP, Sir. Really excited for it! ... and this work of yours is gold. 😍
Amazing! Thank you for the content!
Thank you so much. Dr Aiden !!!
thanks for the, as always, amazing lectures.
Another great lecture. Thanks and keep going!
How is the pressure at a cell face adjacent to a wall boundary calculated? In order to calculate the pressure force on a body for example
The best. Thanks
really great content, and the clarity of your explanations are without rivals. one question: what do you use for creating those harmonious images and graphics?
Inkscape 👍 I also have a cheap course to show you how to use it if you are interested (like $20 I think). There should be a link somewhere
Thank you for the response! I will check it out 👌
First of thank you for the content you are creating.
As regards the video, is the interpolation formula (6) really like that? I believe that pP and pN should be swapped to make sense. Thanks!
Impressive sir😍
Could you introduce some paper for the coupling algorithm? Thank you!
Is this similar to the coupled algorithm used for multiphase flow?
When i select a pressure based solver for my compressible flow problem along with the dpm model, I see the PC-simple option. What is this?
What a legend
Sir please make the videos on eulerian wall film model of Ansys fluent
Interesting starting slides about the pressure gradient, but the pictures and the discussion are not really correct. The pressure is computed and stored at each face but the normal points in whatever direction is determined by the discretization method used by the solver, . CFX and Fluent are different in this detail.