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Posted:
10 years ago
4 dic 2014, 04:47 GMT-5
Hi
It is possible. Either you use a function to define an initial distribution or split your domain into smaller ones having varying initial concentrations. No boundary conditions are needed at the internal boundaries.
br
Lasse
Hi
It is possible. Either you use a function to define an initial distribution or split your domain into smaller ones having varying initial concentrations. No boundary conditions are needed at the internal boundaries.
br
Lasse
Ximena Paz Barrios Pizarro
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Posted:
10 years ago
4 dic 2014, 12:08 GMT-5
Hi
And how can I do that?
I am a new COMSOL user, so I will be very thankful if you told me how to do that.
Hi
And how can I do that?
I am a new COMSOL user, so I will be very thankful if you told me how to do that.
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Posted:
10 years ago
5 dic 2014, 04:38 GMT-5
Please tell me what you wish to do. I can try.
Please tell me what you wish to do. I can try.
Ximena Paz Barrios Pizarro
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Posted:
10 years ago
6 dic 2014, 12:54 GMT-5
Hello
My system consists in a membrane that is charged with a solute, but it is not homogeneous. The solute concentration is higher near to the surface than inside the membrane.
So, I built a 1D model and I want changes in concentration along the interval. Maybe, a linear way could be useful.
Thank you!
Hello
My system consists in a membrane that is charged with a solute, but it is not homogeneous. The solute concentration is higher near to the surface than inside the membrane.
So, I built a 1D model and I want changes in concentration along the interval. Maybe, a linear way could be useful.
Thank you!
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Posted:
10 years ago
8 dic 2014, 04:34 GMT-5
Hi
Let's say that you membrane has a thickness H and the maximum concentration in the membrane is Cmax, and minimum concentration is Cmin. If you wish, e.g. a parabolic distribution in the membrane, make an initial concentration
4*(Cmax-Cmin)*(x/H)*(x/H - 1) + Cmax
which is Cmin at x = H/2 and Cmax at x = 0 and x = H
Or whatever you wish to depict your initial distribution.
br
Lasse
Hi
Let's say that you membrane has a thickness H and the maximum concentration in the membrane is Cmax, and minimum concentration is Cmin. If you wish, e.g. a parabolic distribution in the membrane, make an initial concentration
4*(Cmax-Cmin)*(x/H)*(x/H - 1) + Cmax
which is Cmin at x = H/2 and Cmax at x = 0 and x = H
Or whatever you wish to depict your initial distribution.
br
Lasse
Ximena Paz Barrios Pizarro
Please login with a confirmed email address before reporting spam
Posted:
10 years ago
12 dic 2014, 08:25 GMT-5
Thank you!
It works perfectly! :)
Thank you!
It works perfectly! :)