Stress dependent thermal pressurization of a fluid-saturated rock
Siavash Ghabezloo,Jean Sulem +1 more
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TLDR
In this paper, the effects of stress and temperature on thermal pressurization observed in the test are correctly reproduced by the model and careful analysis of the effect of mechanical and thermal deformations of the drainage and pressure measurement system is performed.Abstract:
Temperature increase in saturated porous materials under undrained conditions leads to thermal pressurization of the pore fluid due to the discrepancy between the thermal expansion coefficients of the pore fluid and of the solid matrix. This increase in the pore fluid pressure induces a reduction of the effective mean stress and can lead to shear failure or hydraulic fracturing. The equations governing the phenomenon of thermal pressurization are presented and this phenomenon is studied experimentally for a saturated granular rock in an undrained heating test under constant isotropic stress. Careful analysis of the effect of mechanical and thermal deformations of the drainage and pressure measurement system is performed and a correction of the measured pore pressure is introduced. The test results are modelled using a non-linear thermo-poro-elastic constitutive model of the granular rock with emphasis on the stress-dependent character of the rock compressibility. The effects of stress and temperature on thermal pressurization observed in the test are correctly reproduced by the model.read more
Citations
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References
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TL;DR: In this article, the pore pressure coefficients A and B were derived and some typical values of the experimentally determined pore-pressure coefficients were given, and some practical applications of these coefficients have been outlined by Bishop.
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TL;DR: In this paper, the authors focus on the fundamentals of poroelasticity, and discuss the formulation and analysis of coupled deformation-diffusion processes, within the framework of the Biot theory of pore elasticity.
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Heating and weakening of faults during earthquake slip
TL;DR: In this article, the authors suggest that the most relevant weakening processes in large crustal events are thermal, and to involve thermal pressurization of pore fluid within and adjacent to the deforming fault core, which reduces the effective normal stress and hence also the shear strength for a given friction coefficient.