A Novel True Triaxial Apparatus to Study the Geomechanical and Fluid Flow Aspects of Energy Exploitations in Geological Formations
Fluid–solid coupling investigations of the geological storage of CO 2 , efficient unconventional oil and natural gas exploitations are mostly conducted under conventional triaxial stress conditions ( σ 2 = σ 3 ), ignoring the effects of σ 2 on the geomechanical properties and permeability of rocks...
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| Published in | Rock mechanics and rock engineering Vol. 49; no. 12; pp. 4647 - 4659 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Vienna
Springer Vienna
01.12.2016
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Fluid–solid coupling investigations of the geological storage of CO
2
, efficient unconventional oil and natural gas exploitations are mostly conducted under conventional triaxial stress conditions (
σ
2
=
σ
3
), ignoring the effects of
σ
2
on the geomechanical properties and permeability of rocks (shale, coal and sandstone). A novel multi-functional true triaxial geophysical (TTG) apparatus was designed, fabricated, calibrated and tested to simulate true triaxial stress (
σ
1
>
σ
2
>
σ
3
) conditions and to reveal geomechanical properties and permeability evolutions of rocks. The apparatus was developed with the capacity to carry out geomechanical and fluid flow experiments at high three-dimensional loading forces and injection pressures under true triaxial stress conditions. The control and measurement of the fluid flow with effective sealing of rock specimen corners were achieved using a specially designed internally sealed fluid flow system. To validate that the apparatus works properly and to recognize the effects of each principal stress on rock deformation and permeability, stress–strain and permeability experiments and a hydraulic fracturing simulation experiment on shale specimens were conducted under true triaxial stress conditions using the TTG apparatus. Results show that the apparatus has advantages in recognizing the effects of
σ
2
on the geomechanical properties and permeability of rocks. Results also demonstrate the effectiveness and reliability of the novel TTG apparatus. The apparatus provides a new method of studying the geomechanical properties and permeability evolutions of rocks under true triaxial stress conditions, promoting further investigations of the geological storage of CO
2
, efficient unconventional oil and gas exploitations. |
|---|---|
| AbstractList | Fluid-solid coupling investigations of the geological storage of CO2, efficient unconventional oil and natural gas exploitations are mostly conducted under conventional triaxial stress conditions ([sigma] 2 = [sigma] 3), ignoring the effects of [sigma] 2 on the geomechanical properties and permeability of rocks (shale, coal and sandstone). A novel multi-functional true triaxial geophysical (TTG) apparatus was designed, fabricated, calibrated and tested to simulate true triaxial stress ([sigma] 1 > [sigma] 2 > [sigma] 3) conditions and to reveal geomechanical properties and permeability evolutions of rocks. The apparatus was developed with the capacity to carry out geomechanical and fluid flow experiments at high three-dimensional loading forces and injection pressures under true triaxial stress conditions. The control and measurement of the fluid flow with effective sealing of rock specimen corners were achieved using a specially designed internally sealed fluid flow system. To validate that the apparatus works properly and to recognize the effects of each principal stress on rock deformation and permeability, stress-strain and permeability experiments and a hydraulic fracturing simulation experiment on shale specimens were conducted under true triaxial stress conditions using the TTG apparatus. Results show that the apparatus has advantages in recognizing the effects of [sigma] 2 on the geomechanical properties and permeability of rocks. Results also demonstrate the effectiveness and reliability of the novel TTG apparatus. The apparatus provides a new method of studying the geomechanical properties and permeability evolutions of rocks under true triaxial stress conditions, promoting further investigations of the geological storage of CO2, efficient unconventional oil and gas exploitations. Fluid–solid coupling investigations of the geological storage of CO 2 , efficient unconventional oil and natural gas exploitations are mostly conducted under conventional triaxial stress conditions ( σ 2 = σ 3 ), ignoring the effects of σ 2 on the geomechanical properties and permeability of rocks (shale, coal and sandstone). A novel multi-functional true triaxial geophysical (TTG) apparatus was designed, fabricated, calibrated and tested to simulate true triaxial stress ( σ 1 > σ 2 > σ 3 ) conditions and to reveal geomechanical properties and permeability evolutions of rocks. The apparatus was developed with the capacity to carry out geomechanical and fluid flow experiments at high three-dimensional loading forces and injection pressures under true triaxial stress conditions. The control and measurement of the fluid flow with effective sealing of rock specimen corners were achieved using a specially designed internally sealed fluid flow system. To validate that the apparatus works properly and to recognize the effects of each principal stress on rock deformation and permeability, stress–strain and permeability experiments and a hydraulic fracturing simulation experiment on shale specimens were conducted under true triaxial stress conditions using the TTG apparatus. Results show that the apparatus has advantages in recognizing the effects of σ 2 on the geomechanical properties and permeability of rocks. Results also demonstrate the effectiveness and reliability of the novel TTG apparatus. The apparatus provides a new method of studying the geomechanical properties and permeability evolutions of rocks under true triaxial stress conditions, promoting further investigations of the geological storage of CO 2 , efficient unconventional oil and gas exploitations. |
| Author | Jiang, Changbao Xu, Jiang Yin, Guangzhi Song, Zhenlong Li, Minghui Li, Wenpu |
| Author_xml | – sequence: 1 givenname: Minghui surname: Li fullname: Li, Minghui organization: State Key Laboratory of Coal Mine Disaster Dynamics and Control, Chongqing University, College of Resource and Environmental Sciences, Chongqing University – sequence: 2 givenname: Guangzhi surname: Yin fullname: Yin, Guangzhi email: gzyin@vip.163.com organization: State Key Laboratory of Coal Mine Disaster Dynamics and Control, Chongqing University, College of Resource and Environmental Sciences, Chongqing University – sequence: 3 givenname: Jiang surname: Xu fullname: Xu, Jiang organization: State Key Laboratory of Coal Mine Disaster Dynamics and Control, Chongqing University, College of Resource and Environmental Sciences, Chongqing University – sequence: 4 givenname: Wenpu surname: Li fullname: Li, Wenpu organization: State Key Laboratory of Coal Mine Disaster Dynamics and Control, Chongqing University, College of Resource and Environmental Sciences, Chongqing University – sequence: 5 givenname: Zhenlong surname: Song fullname: Song, Zhenlong organization: State Key Laboratory of Coal Mine Disaster Dynamics and Control, Chongqing University, College of Resource and Environmental Sciences, Chongqing University – sequence: 6 givenname: Changbao surname: Jiang fullname: Jiang, Changbao organization: State Key Laboratory of Coal Mine Disaster Dynamics and Control, Chongqing University, College of Resource and Environmental Sciences, Chongqing University |
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| Keywords | Rock mechanics Permeability True triaxial Geomechanical properties Shale |
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| Snippet | Fluid–solid coupling investigations of the geological storage of CO
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, efficient unconventional oil and natural gas exploitations are mostly conducted under... Fluid-solid coupling investigations of the geological storage of CO2, efficient unconventional oil and natural gas exploitations are mostly conducted under... |
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| SubjectTerms | Carbon dioxide Civil Engineering Earth and Environmental Science Earth Sciences Flow system Fluid flow Fluid mechanics Geophysics/Geodesy Hydraulic fracturing Mechanical properties Natural gas Original Paper Permeability Rocks Sandstone Shales |
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| Title | A Novel True Triaxial Apparatus to Study the Geomechanical and Fluid Flow Aspects of Energy Exploitations in Geological Formations |
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