Permeability evolution of shale under anisotropic true triaxial stress conditions

Although permeability data for shale have been reported previously and permeability models have been proposed, studies on permeability for shale under anisotropic true triaxial stress conditions are lacking. In this work, the permeability of shale under true triaxial stress conditions was measured u...

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Published inInternational journal of coal geology Vol. 165; pp. 142 - 148
Main Authors Li, Minghui, Yin, Guangzhi, Xu, Jiang, Cao, Jie, Song, Zhenlong
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.08.2016
Subjects
Fracture compressibility
Shale permeability
Stress
True triaxial
Shale permeability
Fracture compressibility
True triaxial
Stress
Online AccessGet full text
ISSN0166-5162
1872-7840
DOI10.1016/j.coal.2016.08.017

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Abstract Although permeability data for shale have been reported previously and permeability models have been proposed, studies on permeability for shale under anisotropic true triaxial stress conditions are lacking. In this work, the permeability of shale under true triaxial stress conditions was measured using a newly developed true triaxial geophysical apparatus. The permeability always decreased with increasing principal stress. The permeability variations induced by varying each principal stress were distinct. The greatest permeability reductions were observed with increasing stress normal to the bedding planes. Based on a consideration of shale anisotropy, a permeability model was established to be applicable to shale under anisotropic true triaxial stress conditions (TTP model). This model was verified by matching the permeability data in our experiments. It was found that a more accurate match could be obtained using the TTP model, which showed advantages in reflecting the permeability changes related to increments in each principal stress. •Permeability evolution of shale under anisotropic true triaxial stress conditions•A permeability model with considerations of the effects of principal stresses•Shale permeability under true triaxial stress is matched accurately by the model.
AbstractList Although permeability data for shale have been reported previously and permeability models have been proposed, studies on permeability for shale under anisotropic true triaxial stress conditions are lacking. In this work, the permeability of shale under true triaxial stress conditions was measured using a newly developed true triaxial geophysical apparatus. The permeability always decreased with increasing principal stress. The permeability variations induced by varying each principal stress were distinct. The greatest permeability reductions were observed with increasing stress normal to the bedding planes. Based on a consideration of shale anisotropy, a permeability model was established to be applicable to shale under anisotropic true triaxial stress conditions (TTP model). This model was verified by matching the permeability data in our experiments. It was found that a more accurate match could be obtained using the TTP model, which showed advantages in reflecting the permeability changes related to increments in each principal stress. •Permeability evolution of shale under anisotropic true triaxial stress conditions•A permeability model with considerations of the effects of principal stresses•Shale permeability under true triaxial stress is matched accurately by the model.
Author Cao, Jie
Xu, Jiang
Yin, Guangzhi
Song, Zhenlong
Li, Minghui
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  fullname: Song, Zhenlong
  organization: State Key Laboratory of Coal Mine Disaster Dynamics and Control, Chongqing University, Chongqing 400030, China
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Keywords Shale permeability
Fracture compressibility
True triaxial
Stress
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Snippet Although permeability data for shale have been reported previously and permeability models have been proposed, studies on permeability for shale under...
SourceID crossref
elsevier
SourceType Enrichment Source
Index Database
Publisher
StartPage 142
SubjectTerms Fracture compressibility
Shale permeability
Stress
True triaxial
Title Permeability evolution of shale under anisotropic true triaxial stress conditions
URI https://dx.doi.org/10.1016/j.coal.2016.08.017
Volume 165
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