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Posted:
9 years ago
19 mag 2015, 02:19 GMT-4
Hi
I do not quite understand your question. What is the quantity you wish to calculate? You are talking about diffusion, so how is potential related to the problem? What is the chemistry of the system? Stirring has an effect on the total permeability (P_tot) of the membrane like this:
1/P_tot = 1/P_m + 1/P_aq
where P_m is the permeability of the membrane (D_m/h_m) and P_aq that of the unstirred layer (D_aq/h_aq); h's are the thicknessess of the respective layers.
How are you modeling stirring?
best egards
Lasse
Hi
I do not quite understand your question. What is the quantity you wish to calculate? You are talking about diffusion, so how is potential related to the problem? What is the chemistry of the system? Stirring has an effect on the total permeability (P_tot) of the membrane like this:
1/P_tot = 1/P_m + 1/P_aq
where P_m is the permeability of the membrane (D_m/h_m) and P_aq that of the unstirred layer (D_aq/h_aq); h's are the thicknessess of the respective layers.
How are you modeling stirring?
best egards
Lasse
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Posted:
9 years ago
19 mag 2015, 14:12 GMT-4
I currently do not have a good way to model the stirring. That is one issue I have.
I am trying to calculate the change in the concentration of an ion as it diffuses out of the membrane with a change in thickness of the unstirred layer. That change should relate that to the change in potential as I am dealing with potentiometry and phase boundary potentials.
I currently do not have a good way to model the stirring. That is one issue I have.
I am trying to calculate the change in the concentration of an ion as it diffuses out of the membrane with a change in thickness of the unstirred layer. That change should relate that to the change in potential as I am dealing with potentiometry and phase boundary potentials.
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Posted:
9 years ago
20 mag 2015, 04:14 GMT-4
I have simulated stirring so that I have defined a unstirred layer with some thickness h where I use the aqueous diffusion coefficient and beyond that (in the bulk) I use an unrealistically high diffusion coeffient which ensures that concentration differences are leveled immediately. A potentiometric sensor measures the concentration in the bulk via Nernst equation, it does not see any potential profiles. And if electric current is zero, there is no potential profile, only very close to the membrane surface if it has a fixed charge density (ion selective membrane). Potential profiel close to a charged membrane is solved with the Poisson-Boltzmann equation (see Guoy-Chapman theory).
br
Lasse
I have simulated stirring so that I have defined a unstirred layer with some thickness h where I use the aqueous diffusion coefficient and beyond that (in the bulk) I use an unrealistically high diffusion coeffient which ensures that concentration differences are leveled immediately. A potentiometric sensor measures the concentration in the bulk via Nernst equation, it does not see any potential profiles. And if electric current is zero, there is no potential profile, only very close to the membrane surface if it has a fixed charge density (ion selective membrane). Potential profiel close to a charged membrane is solved with the Poisson-Boltzmann equation (see Guoy-Chapman theory).
br
Lasse