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Posted:
6 years ago
27 août 2018, 01:47 UTC−4
Hi
The model you attached apparently is in axisymmetric 2D geometry. If you draw a circle at some distance from the rotation axis, you actually get a torus.
The other question is that why should there be a spatial concentration distribution because your reaction is homogeneous and an impermeable boundary surrounds it?
Yet another question is the time span. In small domains diffusion has no meaning because the average distance a species travels by diffusion is d ~sqrt(D·τ) (Einstein 1905). Hence, time a species needs to lead a distance d is τ ~d²/D. Your domain radius is 0.08 cm and when the diffusion coefficient is of the order of 5·10^-6 cm²/s, τ ~1280 s. It is roughly the same as your simulation time; I am confused by the dimensions of the model, some variables dimensionless, some with dimension (such as the domain size).
If diffusion were meaningful in cells, our metabolism would be much slower due to diffusion limitation. I have thought that our cell size is just the right in order life to evolve.
I wish I did not completely misunderstood what you have done :)
Best regards
Lasse
Hi
The model you attached apparently is in axisymmetric 2D geometry. If you draw a circle at some distance from the rotation axis, you actually get a torus.
The other question is that why should there be a spatial concentration distribution because your reaction is homogeneous and an impermeable boundary surrounds it?
Yet another question is the time span. In small domains diffusion has no meaning because the average distance a species travels by diffusion is d ~sqrt(D·τ) (Einstein 1905). Hence, time a species needs to lead a distance d is τ ~d²/D. Your domain radius is 0.08 cm and when the diffusion coefficient is of the order of 5·10^-6 cm²/s, τ ~1280 s. It is roughly the same as your simulation time; I am confused by the dimensions of the model, some variables dimensionless, some with dimension (such as the domain size).
If diffusion were meaningful in cells, our metabolism would be much slower due to diffusion limitation. I have thought that our cell size is just the right in order life to evolve.
I wish I did not completely misunderstood what you have done :)
Best regards
Lasse