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Posted:
10 years ago
2015年5月8日 GMT-4 12:26
Hello,
If one tries to run your .MPH file one gets the error message below:
File not found.
- Filename: C:\Users\harunac\Desktop\Model Validation\E_neg_nondim.txt
- Function name: E_neg
Error in multiphysics compilation.
-DW
Hello,
If one tries to run your .MPH file one gets the error message below:
File not found.
- Filename: C:\Users\harunac\Desktop\Model Validation\E_neg_nondim.txt
- Function name: E_neg
Error in multiphysics compilation.
-DW
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Posted:
10 years ago
2015年5月8日 GMT-4 12:31
Hello,
I apologize. Please find attached the text file (I had to put it in a Zipped Folder) for the parameter E_neg_nondim.
I hope you can help resolve this issue that I am facing.
Thanks,
Harikesh
Hello,
I apologize. Please find attached the text file (I had to put it in a Zipped Folder) for the parameter E_neg_nondim.
I hope you can help resolve this issue that I am facing.
Thanks,
Harikesh
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Posted:
10 years ago
2015年5月8日 GMT-4 22:49
Hello,
One point would be that the diffusion time should be on the order of L^2/D, so the value would be (24E-6m)^2/(5E-13m^2/s)=1152 seconds. Therefore, one should not see significant diffusion in 5 seconds. When one calculates the solution for c_1 it is still equal to the initial value of 0.065 after 5 seconds, and the calculated value of c_2 is still equal to the initial value of .393 after 5 seconds.
What is the source of your equations in the "problem statement"?
Don't you need a boundary condition for phi_1 at the "far" boundary (away from the active particle)?
-DW
Hello,
One point would be that the diffusion time should be on the order of L^2/D, so the value would be (24E-6m)^2/(5E-13m^2/s)=1152 seconds. Therefore, one should not see significant diffusion in 5 seconds. When one calculates the solution for c_1 it is still equal to the initial value of 0.065 after 5 seconds, and the calculated value of c_2 is still equal to the initial value of .393 after 5 seconds.
What is the source of your equations in the "problem statement"?
Don't you need a boundary condition for phi_1 at the "far" boundary (away from the active particle)?
-DW
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Posted:
10 years ago
2015年5月13日 GMT-4 10:06
Dear DW,
Please accept my sincere apologies for the delayed response. I was very sick over the last few days and could not get in touch with you earlier.
I completely agree with you regarding the time order of diffusion. I had completely overlooked this part. Thank you fro pointing that out. The only reason I simulated for 5 seconds is to see if the simulator would complete its process. It was taking a significant amount of time to solve the system.
I have attached the source of the equations for my problem statement. You will notice that I have non-dimensionalized the set of equations before inputting them in COMSOL.
In comparison with the attached document and my model, I am starting by solving the system for one anode particle surrounded by electrolyte, which constitutes 1 unit cell.
Perhaps I must also enforce a boundary condition for phi_1, since the solution (when I simulated for 5 seconds) I obtained for phi_1 and phi_2 did not have any physical meaning (extremely large values were observed). I neglected this earlier assuming it may not be required for a single unit cell, but only applies for an entire electrode system.
Please review, and let me know if there must be additional modifications to my model. In the meantime, I will enforce the phi_1 boundary condition and simulate the system for longer times.
Thank you very much.
Harikesh
Dear DW,
Please accept my sincere apologies for the delayed response. I was very sick over the last few days and could not get in touch with you earlier.
I completely agree with you regarding the time order of diffusion. I had completely overlooked this part. Thank you fro pointing that out. The only reason I simulated for 5 seconds is to see if the simulator would complete its process. It was taking a significant amount of time to solve the system.
I have attached the source of the equations for my problem statement. You will notice that I have non-dimensionalized the set of equations before inputting them in COMSOL.
In comparison with the attached document and my model, I am starting by solving the system for one anode particle surrounded by electrolyte, which constitutes 1 unit cell.
Perhaps I must also enforce a boundary condition for phi_1, since the solution (when I simulated for 5 seconds) I obtained for phi_1 and phi_2 did not have any physical meaning (extremely large values were observed). I neglected this earlier assuming it may not be required for a single unit cell, but only applies for an entire electrode system.
Please review, and let me know if there must be additional modifications to my model. In the meantime, I will enforce the phi_1 boundary condition and simulate the system for longer times.
Thank you very much.
Harikesh