U. Durmus scite author profile

U. Durmus

2Publications

0Citation Statements Received

106Citation Statements Given

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Colorado School of Mines

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A rock physics model in vertical transverse isotropy media and its application to Eagle Ford shale

Durmus

Binder

Simmons

2023

Geophysical Prospecting

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Shales are rocks with a complex structure. Shales contain high clay content, which constitutes a load‐bearing skeleton. In this study, we present a novel rock physics model to obtain elastic stiffness coefficients of both clays and shales. The robustness of the model is then verified by a field dataset from Eagle Ford shale. We utilize the extended Maxwell homogenization scheme as a rock physics model for transversely isotropic media, which honours the aspect ratio of each inhomogeneity embedded in an effective inclusion domain. Estimated anisotropy parameters ε, γ and δ, on average, are 0.19, 0.29 and 0.04, respectively, based on our modelling results in Eagle Ford shale. Anisotropic modelling results exhibit a good correlation with dipole sonic logs. Both dipole sonic log analysis and rock physics results demonstrate that clay content is the main driver of anisotropy in the field, and there is a direct relationship between clay volume and anisotropy parameters of ε and γ. The method shown here can be readily applied to other unconventional reservoirs.

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Rock Physics Model for Unconventional Reservoirs with Vertical Transverse Isotropy

Durmus¹,

Binder²,

Simmons³

2021

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U. Durmus

A rock physics model in vertical transverse isotropy media and its application to Eagle Ford shale

Rock Physics Model for Unconventional Reservoirs with Vertical Transverse Isotropy

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