Thank you, sir for posting this useful video. I have a question pls fulfils me. Why did you choose those referent pressure with different unit. And, in this case, why are the values of the pressure you picked looked like that?
Nice Work Atif. Would it be a pleasure for you to tell me that why there are some streamlines inside the immersed solid? I cannt figure this out. Thanks.
Thank you for your reply, Atif. I just checked here: www.sharcnet.ca/Software/Ansys/17.0/en-us/help/cfx_mod/immsolidsmod.html#i3254234 It says that one restriction and limitation is "Particles do not interact with the walls of an immersed solid domain; particles are tracked inside an immersed solid domain based on the fluid velocity, which is driven to match the velocity of the immersed solid domain".
You are welcome Mengtang. Yes that is correct but since in this case we are simulating fluid and its interaction with the rotating system therefore it should not be an issue. Main advantage of such a method is that it makes simulating rotating systems much easier in comparison to more traditional method.
When u model the rotor(ie. Lobe in this case). You can see the centre of rotation coordinates in the cad software or ansys mesh by clicking on the centre point of the rotor. Both the rotors will have their own x and y centre of rotation coordinates as per your assembly/cad file. Z will go from 0 to 1 because that is the axis on which the lobe rotates.
Assuming by coordinates of two points you mean center of gravity points. Yes local center of gravity points are same you can either find them using your CAD tool or Ansys.
Assuming from rotation axis details you mean local center of gravity points for your geometry, you can find out about them either in you CAD tool or in ansys workbench.