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Posted:
7 years ago
08.11.2017, 02:00 GMT-5
Hi
You wrote the expression of the equlibrium constant, not the rate law that should be
r = kfp_CO^ap_H2O^b - kbp_CO2^cp_H2^d
where kf and kb are the rate constants of the forward and backward reaction. What you can do is to define kf and kb in such a way that the dimensions agree. As the reaction rate has the dimension, e.g. bar/s, kf must be of the dimension bar^(1-a-b)/s. Similarly, kb must be of the dimension bar^(1-c-d)/s.
Usually Comsol just nags about the dimensions but still calculates all right.
I wish this helps
Lasse
Hi
You wrote the expression of the equlibrium constant, not the rate law that should be
r = kf*p_CO^a*p_H2O^b - kb*p_CO2^c*p_H2^d
where kf and kb are the rate constants of the forward and backward reaction. What you can do is to define kf and kb in such a way that the dimensions agree. As the reaction rate has the dimension, e.g. bar/s, kf must be of the dimension bar^(1-a-b)/s. Similarly, kb must be of the dimension bar^(1-c-d)/s.
Usually Comsol just nags about the dimensions but still calculates all right.
I wish this helps
Lasse
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Posted:
7 years ago
09.11.2017, 12:52 GMT-5
Hi Lasse,
it worked!
Thank you
Hi Lasse,
it worked!
Thank you
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Posted:
7 years ago
10.11.2017, 01:48 GMT-5
Actually, a more pertinent way is to convert concentrations dimensionless by dividing them with the standard concentration c° = 1 mol/L. Then the rate constant must be expressed in the same dimension as the reaction rate, viz bar/s.
BR
Lasse
Actually, a more pertinent way is to convert concentrations dimensionless by dividing them with the standard concentration c° = 1 mol/L. Then the rate constant must be expressed in the same dimension as the reaction rate, viz bar/s.
BR
Lasse