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In many practical cases the pore compressibility can be considered as independent on reservoir pressure variation:
LaTeX Math Inline |
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body | c_r\phi(p) = c_r\phi= \rm const |
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.
But in case the reservoir pressure is changing substantially one may need to account for the effect it takes on pore compressibility.
The model usually relates pore compressibility
to a given pressure
and
initial pore compressibility LaTeX Math Inline |
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body | --uriencoded--c_{ri}%7B\phi i%7D |
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at
initial formation pressure .
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| Name/Author | Scope |
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LaTeX Math Block |
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anchor | Dobrynin |
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alignment | left |
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| \displaystyle c_r\phi(p) = c_{ri\phi i} \cdot \frac{ \ln \left( \frac{ p_n }{p_{\rm max}} \right) }{ \ln \left( \frac{p_{ni}}{p_{\rm max}} \right) } |
LaTeX Math Block |
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| p_n = p_{\rm min} + 1.75 \cdot \phi^{0.51} \cdot (p_{\rm max} - p) |
LaTeX Math Block |
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| p_{ni} = p_{\rm min} + 1.75 \cdot \phi^{0.51} \cdot (p_{\rm max} - p_i) |
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Dobrynin | Wide pressure range: pmin = 1 MPa < p < pmax = 200 MPa
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See also
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Petroleum Industry / Upstream / Subsurface E&P Disciplines / Petrophysics / Geomechanical Rock Modelling / Pore compressibility
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