Discussion Closed This discussion was created more than 6 months ago and has been closed. To start a new discussion with a link back to this one, click here.
Regarding flux discontinuity boundary condition in the diffusion module
Posted 30 lug 2010, 14:51 GMT-4 1 Reply
Please login with a confirmed email address before reporting spam
Hello everyone,
I am trying to simulate diffusion and reaction in a simple 2D square geometry with an interface inside that divides the geometry into two parts. Each subdomain has a different diffusivity. One subdomain has only diffusion and the other subdomain has both diffusion and reaction occurring in it.
Subdomain 1(diffusion only) contains the bulk fluid, which diffuses into Subdomain 2(diffusion-reaction) through the interface alone.
The boundary condition at the interface is a discontinuity of flux condition because I have reaction at the interface which is consuming the reactant.
The boundary condition is of the form:
(as shown in COMSOL): -n.(N1-N2)=N0
Ni=-Di*grad(c) where grad(c) is the gradient of the concentration. Therefore, I get:
n.(D1*grad(c)-D2*grad(c))=N0=kc
Since N0 represents consumption by reaction, it can be written in terms of the surface rate, which is kc (for example).
So I should be inputting kc in the N0 field in the boundary settings of the diffusion module in COMSOL. However, doing so does not lead to convergence and produces garbage. On the other hand, if I input N0= -kc, it gives me results that I expect to see. However, physically, the flux discontinuity equation does not make sense any longer, because a negative sign for N0 implies production of the component of interest.
After looking at the input fields in the boundary settings tab in COMSOL, I realized that the field for N0 asks for an "INWARD FLUX" to be input. I am wondering if this is the only reason why a negative sign is required for my reaction term- in that the reaction occurs on the surface, it does not have any direction as the fluxes do, but COMSOL is expecting to see an inward flux only, and hence the negative sign is required. Any clarification on this would be highly appreciated.
Thanks,
Sanjeev
I am trying to simulate diffusion and reaction in a simple 2D square geometry with an interface inside that divides the geometry into two parts. Each subdomain has a different diffusivity. One subdomain has only diffusion and the other subdomain has both diffusion and reaction occurring in it.
Subdomain 1(diffusion only) contains the bulk fluid, which diffuses into Subdomain 2(diffusion-reaction) through the interface alone.
The boundary condition at the interface is a discontinuity of flux condition because I have reaction at the interface which is consuming the reactant.
The boundary condition is of the form:
(as shown in COMSOL): -n.(N1-N2)=N0
Ni=-Di*grad(c) where grad(c) is the gradient of the concentration. Therefore, I get:
n.(D1*grad(c)-D2*grad(c))=N0=kc
Since N0 represents consumption by reaction, it can be written in terms of the surface rate, which is kc (for example).
So I should be inputting kc in the N0 field in the boundary settings of the diffusion module in COMSOL. However, doing so does not lead to convergence and produces garbage. On the other hand, if I input N0= -kc, it gives me results that I expect to see. However, physically, the flux discontinuity equation does not make sense any longer, because a negative sign for N0 implies production of the component of interest.
After looking at the input fields in the boundary settings tab in COMSOL, I realized that the field for N0 asks for an "INWARD FLUX" to be input. I am wondering if this is the only reason why a negative sign is required for my reaction term- in that the reaction occurs on the surface, it does not have any direction as the fluxes do, but COMSOL is expecting to see an inward flux only, and hence the negative sign is required. Any clarification on this would be highly appreciated.
Thanks,
Sanjeev
1 Reply Last Post 5 ago 2010, 15:53 GMT-4
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
I got this reply from COMSOL Support today:
-----------------------------------------------------------------------------------------------------------------------------------------------------------
Thank you for contacting COMSOL support.
In 3.5a, the 'inward flux' is a bit confusing. It is defined to be used to specify the jump in the species flux, using a positive value for increasing flux when going from the down to the up side of the boundary. The normal direction (nx,ny) points in the direction from down side towards the up side of an internal boundary and can be plotted for visualization. In your case, since the reactants are consumed at the boundary, it should be a negative value as you mentioned in your email.
I hope this answers your question. Please feel free to contact us if you need further assistance.
Best Regards,
Lei Chen
-----------------------------------------------------------------------------------------------------------------------------------------------------------
Thank you for contacting COMSOL support.
In 3.5a, the 'inward flux' is a bit confusing. It is defined to be used to specify the jump in the species flux, using a positive value for increasing flux when going from the down to the up side of the boundary. The normal direction (nx,ny) points in the direction from down side towards the up side of an internal boundary and can be plotted for visualization. In your case, since the reactants are consumed at the boundary, it should be a negative value as you mentioned in your email.
I hope this answers your question. Please feel free to contact us if you need further assistance.
Best Regards,
Lei Chen