Thermal effect of cold fluid injection on fracture integrity of host rock: a microscale analysis of single asperity

The influence of pore fluid pressure on the normal deformation behaviors of joints is vital for understanding the interaction between hydraulic and mechanical processes of joints. The effect of pore fluid pressure on the normal deformation of a granite matched joint was investigated by laboratory experiments. Experimental results indicate pore fluid pressure significantly affects the normal deformation of jointed sample, and the relative normal deformation of jointed sample during fluid injection consists of the opening of the joint and the dilation of host rock. The action of pore fluid pressure on the joint follows the Terzaghi’s effective stress law. The normal deformation of the joint can be well quantitated by the generalized exponential model. The relative normal deformation of host rock during fluid injection would have a linear relationship with pore fluid pressure, and if affected by gas is more pronounced than water.

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Accounting for Adiabatic Expansion in Analyzing Warmback Temperature Signal After Cold-Fluid Injection

10.2118/196287-ms ◽

2019 ◽

Author(s):

Refaat G Hashish ◽

Mehdi Zeidouni

Keyword(s):

Fluid Injection ◽

Adiabatic Expansion ◽

Cold Fluid ◽

Temperature Signal

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Analysis of Warm-Back Data After Cold-Fluid Injection Into Multilayer Reservoirs

SPE Reservoir Evaluation & Engineering ◽

10.2118/197042-pa ◽

2020 ◽

Vol 23 (01) ◽

pp. 212-229 ◽

Cited By ~ 2

Author(s):

Refaat G. Hashish ◽

Mehdi Zeidouni

Keyword(s):

Fluid Injection ◽

Cold Fluid

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Modeling of In-Situ Stress Change Due to Cold Fluid Injection

10.2118/22107-ms ◽

1991 ◽

Author(s):

R.J. Clifton ◽

U. Brown ◽

J-J. Wang

Keyword(s):

In Situ Stress ◽

Stress Change ◽

Fluid Injection ◽

Cold Fluid

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Transport and Evolution of Supercritical Fluids During the Formation of the Erdenet Cu–Mo Deposit, Mongolia

Geosciences ◽

10.3390/geosciences10050201 ◽

2020 ◽

Vol 10 (5) ◽

pp. 201 ◽

Cited By ~ 1

Author(s):

Geri Agroli ◽

Atsushi Okamoto ◽

Masaoki Uno ◽

Noriyoshi Tsuchiya

Keyword(s):

Fluid Inclusion ◽

Supercritical Fluids ◽

Hydrothermal System ◽

Host Rock ◽

Fluid Injection ◽

Sector Collapse ◽

Fluid Inclusion Data ◽

Multiple Generations ◽

Quartz Veins

Petrological and fluid inclusion data were used to characterize multiple generations of veins within the Erdenet Cu–Mo deposit, Mongolia, and constrain the evolution of fluids within the magmatic–hydrothermal system. Three types of veins are present (from early to late): quartz–molybdenite, quartz–pyrite, and quartz. The host rock was emplaced at temperatures of 700–750 °C, the first quartz was precipitated from magma-derived supercritical fluids at 650–700 °C, quartz–molybdenite and quartz–pyrite veins were formed at ~600 °C, and the quartz veins were precipitated in response to retrograde silica solubility caused by decreasing temperatures at <500 °C. We infer that over-pressured fluid beneath the cupola caused localized fluid injection, or that accumulated stress caused ruptures and earthquakes related to sector collapse; these events disrupted impermeable layers and allowed fluids to percolate through weakened zones.

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Mixed convection in a suddenly-expanded channel with effects of cold fluid injection

International Journal of Heat and Mass Transfer ◽

10.1016/s0017-9310(05)80058-4 ◽

1993 ◽

Vol 36 (6) ◽

pp. 1477-1484 ◽

Cited By ~ 14

Author(s):

C.Y. Soong ◽

W.C. Hsueh

Keyword(s):

Mixed Convection ◽

Fluid Injection ◽

Cold Fluid

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UHV-STM studies of silicon nano-pyramid growth on silicon surface at high temperature

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100130353 ◽

1992 ◽

Vol 50 (2) ◽

pp. 1144-1145

Author(s):

T. Sato ◽

S. Kitamura ◽

T. Sueyoshl ◽

M. Iwatukl ◽

C. Nielsen

Keyword(s):

High Temperature ◽

Relaxation Process ◽

Thermal Effect ◽

Bias Voltage ◽

Silicon Surface ◽

Growth Process ◽

Tunneling Current ◽

Fabrication Technique ◽

Nano Fabrication ◽

Electromigration Effect

Recently, the growth process and relaxation process of crystalline structures were studied by observing a SI nano-pyramid which was built on a Si surface with a UHV-STM. A UHV-STM (JEOL JSTM-4000×V) was used for studying a heated specimen, and the specimen was kept at high temperature during observation. In this study, the nano-fabrication technique utilizing the electromigration effect between the STM tip and the specimen was applied. We observed Si atoms migrated towords the tip on a high temperature Si surface.Clean surfaces of Si(lll)7×7 and Si(001)2×l were prepared In the UHV-STM at a temperature of approximately 600 °C. A Si nano-pyramid was built on the Si surface at a tunneling current of l0nA and a specimen bias voltage of approximately 0V in both polarities. During the formation of the pyramid, Images could not be observed because the tip was stopped on the sample. After the formation was completed, the pyramid Image was observed with the same tip. After Imaging was started again, the relaxation process of the pyramid started due to thermal effect.

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