How did you perform the grid independency test?? and do you have any pdf/reading materials for this tutorial? Please I badly need help. Thanks and Regards
It is extremely interesting this video demonstration with Natural ventilation. Thank you very much. I ‘m a student and I work on a similar project of natural ventilation, a building with two inlets for air in two opposite walls and on the roof an outlet of the gravitational ventilator type. Inside the building is a source of heat. My problem is that I can't get the effect of buoyancy-driven ventilation. Maybe, if you find this problem interesting, you can make a tutorial that, I'm sure, would help a lot of people !
Hi! Your tutorial looks awesome! May I ask how to create the name of the faces? For example, "house" in your case. Did you do that in SpaceClaim? Thanks in advance!
Yes, the geometry was created in SpaceClaim and converted to STP format. To create name for the faces, you can refer to my other videos, for example, this one: ua-cam.com/video/biQoLKpmXm0/v-deo.html
@@vincentcfd9806 Thanks for your kindly help. I have already downloaded the STP. However, the edges and faces which you have allocated names have gone. I think it is because of the STP format. Could you kindly share the SCDOC format geometry, thereby we can clearly know what the edges and faces you set are. Cheers!
Many thanks for the video, especially the shared ABL!!!
How did you perform the grid independency test?? and do you have any pdf/reading materials for this tutorial? Please I badly need help. Thanks and Regards
permission, where is the place to download the geometry
Without UDF, Can we generate ABL, TKE and Turb dissip. using Custom Field Function right???
Really Great Video.
Hey can I know why I'm getting an error saying divergence detected in AMG solver; x-momentum? Much appreciate for the tutorial
Great Job !!!
Thanks!
It is extremely interesting this video demonstration with Natural ventilation. Thank you very much.
I ‘m a student and I work on a similar project of natural ventilation, a building with two inlets for air in two opposite walls and on the roof an outlet of the gravitational ventilator type. Inside the building is a source of heat.
My problem is that I can't get the effect of buoyancy-driven ventilation.
Maybe, if you find this problem interesting, you can make a tutorial that, I'm sure, would help a lot of people !
@@dananton1261 Hi. I am doing a similar project. I do have some doubts about the SpaceClaim geometry. I will then share it with you if you allow.
Hi! Your tutorial looks awesome! May I ask how to create the name of the faces? For example, "house" in your case. Did you do that in SpaceClaim? Thanks in advance!
Yes, the geometry was created in SpaceClaim and converted to STP format. To create name for the faces, you can refer to my other videos, for example, this one:
ua-cam.com/video/biQoLKpmXm0/v-deo.html
@@vincentcfd9806 Thanks for your kindly help. I have already downloaded the STP. However, the edges and faces which you have allocated names have gone. I think it is because of the STP format. Could you kindly share the SCDOC format geometry, thereby we can clearly know what the edges and faces you set are. Cheers!
@@weili9556 Did you get any solution?? Please share.
@@shafrinef solution of ?
@@shafrinef nah, I didn't get the geometry file....
Thanks a lot this is very helpful but where can I find tutorial 1
Great tutorial. Thanks for sharing. May I know how you draw the room inside with thickness in SpaceClaim? I badly need your help. Thanks in Advance.
GOOD QUESTION
The geometry in stp format can be found here:
drive.google.com/open?id=1Rg83piNUY1E4zfW5uI5w06jWSSq7W3AM
Hi! Thanks for the amazing video! Is there any way you can share the ABL code you have used in the video?
The link to the ABL code can be found here:
drive.google.com/open?id=1Eitmgu9ejAuupkjU675caxdC4K_N6s2T
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