@wikipedia
One of the Absolute permeability models based on simulating the flow through the multi-pipe conduits or multi-grain pack:
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| k = 1014.24 \cdot |
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(\phi -\phi_0)^3}{( 1 - \phi+\phi |
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| {\rm FZI} = \frac{1}{\sqrt{F_S} \, S_{gV} \, \tau } |
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where
The alternative form is derived from the correlation which is valid in some practical cases:
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\frac{1}{\sqrt{F_S} \, S_{gV}} \approx 0.0037 \cdot d |
where
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so that Absolute permeability is going to be:
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k = \frac{d^2}{72 \cdot \tau^2} \cdot \frac{(\phi -\phi_0)^3}{( 1 - \phi+\phi_0)^2} |
where
This correlation was historical the first physical permeability model, based on the fluid flow in porous media with simplified structure consisted of a bunch of independent capillaries with various diameters.
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Petroleum Industry / Upstream / Subsurface E&P Disciplines / Petrophysics / Absolute permeability / Absolute permeability @model
References
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J. Kozeny, "Ueber kapillare Leitung des Wassers im Boden." Sitzungsber Akad. Wiss., Wien, 136(2a): 271-306, 1927.