On Wednesday, 3 July 2013 17:19:57 UTC+5:30, Robert Cimrman wrote:
On 07/03/2013 01:38 PM, Ankit Mahato wrote:
On Wednesday, 3 July 2013 13:14:37 UTC+5:30, Robert Cimrman wrote:
On 07/03/2013 01:51 AM, Ankit Mahato wrote:
R,
Attached is the Temperature distribution along the length with Peclet number graph which you wanted to have a look at. I used ParaView to generate it. It is validated by the Fig 6.2 of Computer Simulation of Flow and Heat Transfer, P S Ghoshdastidar, Tata McGraw-Hill.
Good! Btw. are there some analytical relations that can be verified,
for
example on some special simple geometries/boundary conditions? It would be interesting to see the comparison of analytical/numerical curves in a single figure (I have no access to the book).
Yes this one can be verified with the analytical solution. I was about to ask you that the analytical vs simulation curve should be plotted for how many test cases?
As you wish (if it is ok :)) BTW. http://terri.toybox.ca/python-soc/still does not show your blog posts - is the subscription correct?
Yes R I saw it yesterday and I thought maybe it is not updated. The subscription link points to http://ankitmahato.blogspot.in/search/label/Python which is correct. I think I should write to Terri
r.
Similar figures could be also done in sfepy directly, check [1] - it is mostly useful when one tweaks and runs a simulation repeatedly, as the setup needs some effort...
Okie :)
r.