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Posted:
1 decade ago
21.01.2014, 03:58 GMT-5
Hi everybody,
Does anybody know how to introduce the Robin condition (total flux condition) for the chemical species transport module?
Thanks,
Joana.
Hi
Robin condition:
a*c + b*grad(c) = g <=> c = A*grad(c) + B
Hence, use the concentration boundary condition by writing in the concentration box (3D case)
A*(cx+cy+cz) + B
and define A and B in the parameters list. I tried this in 1D and it worked fine.
BR
Lasse
[QUOTE]
Hi everybody,
Does anybody know how to introduce the Robin condition (total flux condition) for the chemical species transport module?
Thanks,
Joana.
[/QUOTE]
Hi
Robin condition:
a*c + b*grad(c) = g c = A*grad(c) + B
Hence, use the concentration boundary condition by writing in the concentration box (3D case)
A*(cx+cy+cz) + B
and define A and B in the parameters list. I tried this in 1D and it worked fine.
BR
Lasse
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
22.01.2014, 09:21 GMT-5
Hi everybody,
Does anybody know how to introduce the Robin condition (total flux condition) for the chemical species transport module?
Thanks,
Joana.
Hi
Robin condition:
a*c + b*grad(c) = g <=> c = A*grad(c) + B
Hence, use the concentration boundary condition by writing in the concentration box (3D case)
A*(cx+cy+cz) + B
and define A and B in the parameters list. I tried this in 1D and it worked fine.
BR
Lasse
Thanks, the problem is already solved.
Joana.
[QUOTE]
[QUOTE]
Hi everybody,
Does anybody know how to introduce the Robin condition (total flux condition) for the chemical species transport module?
Thanks,
Joana.
[/QUOTE]
Hi
Robin condition:
a*c + b*grad(c) = g c = A*grad(c) + B
Hence, use the concentration boundary condition by writing in the concentration box (3D case)
A*(cx+cy+cz) + B
and define A and B in the parameters list. I tried this in 1D and it worked fine.
BR
Lasse
[/QUOTE]
Thanks, the problem is already solved.
Joana.