Ed Gonzalez
COMSOL Employee
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Posted:
2 years ago
20 ott 2022, 10:48 GMT-4
Hi Megan, the dried bulk modulus, K_dry, is taken from the Linear Elastic material node. If you enter the pair (E,nu), it is computed as described in the documentation
https://doc.comsol.com/6.0/doc/com.comsol.help.comsol/comsol_ref_structuralmechanics.27.06.html#2330360
then, the formation compressibility is derived from Biot-Willis coefficient, alpha_B, as
C_f = alpha_B / (porosity * K_dry)
if you have data for the formation compressibility, enter the Biot-Willis coefficient as
alpha_B = C_f * porosity * K_dry
Cheers
Ed
Hi Megan, the dried bulk modulus, K_dry, is taken from the Linear Elastic material node. If you enter the pair (E,nu), it is computed as described in the documentation
https://doc.comsol.com/6.0/doc/com.comsol.help.comsol/comsol_ref_structuralmechanics.27.06.html#2330360
then, the formation compressibility is derived from Biot-Willis coefficient, alpha_B, as
C_f = alpha_B / (porosity * K_dry)
if you have data for the formation compressibility, enter the Biot-Willis coefficient as
alpha_B = C_f * porosity * K_dry
Cheers
Ed
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Posted:
2 years ago
20 ott 2022, 16:04 GMT-4
Thank you very much for your help, Ed! E, nu, porosity, and alpha_B are all applied to the materials in my model, so I should be set then. Thank you for linking the documentation reference!
Best.
Megan
Thank you very much for your help, Ed! E, nu, porosity, and alpha_B are all applied to the materials in my model, so I should be set then. Thank you for linking the documentation reference!
Best.
Megan