But sir, in rule 3, why should there be a necessity that Sp should be negative. As you said in rule 2, yes ap should be positive for the solution to be consistent; in the example, the temperature at P should be in between 100 and 10. But should that be the case when there is a source term? According to the nature of the source (or sink), the temperature at P may not be in between the east and west values, and isn't that incorporated in the source term itself? Would there be any problems if Sp is negative? I do not have experience in solving problems using FVM, so maybe experience is a factor.
![[CFD] The Finite Volume Method in CFD](http://i.ytimg.com/vi/E9_kyXjtRHc/mqdefault.jpg)
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Really nice. Can you tell to us which is the material that you're using to give this class?Thank you very much in advance.
I was wondering the same thing. If you know now, please share the link/name of the text.
Where can I find the playlist of the whole course?
ruclips.net/video/QeXVtdeI_4s/видео.html
But sir, in rule 3, why should there be a necessity that Sp should be negative. As you said in rule 2, yes ap should be positive for the solution to be consistent; in the example, the temperature at P should be in between 100 and 10. But should that be the case when there is a source term? According to the nature of the source (or sink), the temperature at P may not be in between the east and west values, and isn't that incorporated in the source term itself? Would there be any problems if Sp is negative?
I do not have experience in solving problems using FVM, so maybe experience is a factor.
Hi Mr, where can i find an implementation of this method on a programing language such as fortran...
somewhere like this - www-star.st-and.ac.uk/samcss/files_2017/notes/finite_volume_tutorial.pdf
which textbooks does he follow...?
Can anyone show me the link for the whole course?
Hope. It helps
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