On Tuesday, 2 July 2013 19:35:30 UTC+5:30, Robert Cimrman wrote:On 07/02/2013 04:02 PM, Ankit Mahato wrote:
>
>
> On Tuesday, 2 July 2013 19:16:37 UTC+5:30, Robert Cimrman wrote:
>>
>> On 07/02/2013 03:36 PM, Ankit Mahato wrote:
>>>
>>>
>>> On Tuesday, 2 July 2013 13:58:20 UTC+5:30, Robert Cimrman wrote:
>>>>
>>>> Now it remains to implement a robust flow solver. Even this small
>> example
>>>> shows, that the solution is not obtained easily - try decreasing the
>>>> viscosity,
>>>> and/or increase the Dirichlet velocity - the solver would not converge.
>>>>
>>>>
>>> Yes R,
>>>
>>> The solution is not obtained easily.
>>> I am looking into it.
>>>
>>> PS: Here are blog posts for week 1 & 2
>>> Kindly tell me if this will do before I send it to terri oda:
>>>
>>>
>> http://ankitmahato.blogspot.in/2013/07/python-software-foundation-sfepy-gsoc.html
>>>
>> http://ankitmahato.blogspot.in/2013/07/python-software-foundation-sfepy-gsoc_2.html
>>
>> It seems ok, just correct the following typo: Navier-Strokes ->
>> Navier-Stokes :)
>>
>>
> Done.
>
>
>> It would be interesting to see the Peclet number graphs. Also, did you try
>> some
>> other, more interesting, geometries?
>>
>
> Actually I varied the convective velocity and c to observe the variation as
> I had the graph in my book alongside. It was in accordance but I did not
> plot it [ grave mistake :( ] and moved ahead at looking into the 3d navier
> stokes code.
Maybe you could start using the ipython notebooks for that kind of
plots/exploration? It might be handy both for your thesis, and the blog.
Okie R. Will do so form now onwards.
r.
>> r.
>>
>>> Cheers,
>>>> r.
>>>> PS: As mentioned in Terri Oda's e-mail, you should blog about your work
>> so
>>>> far
>>>> ASAP!
>>>>
>>>> On 07/01/2013 06:12 PM, Ankit Mahato wrote:
>>>>> awesome :)
>>>>>
>>>>> On Monday, 1 July 2013 15:05:16 UTC+5:30, Robert Cimrman wrote:
>>>>>>
>>>>>> Hi,
>>>>>>
>>>>>> I have removed the "3d only" restriction from the Navier Stokes and
>>>>>> related
>>>>>> terms. There is also a new example:
>>>>>> examples/navier_stokes/navier_stokes2d.py.
>>>>>>
>>>>>> r.
>>>>>>
>>>>>
>>>>
>>>>
>>>
>>
>>
>