Journal of Petroleum Exploration and Production Technology (Nov 2022)

Mechanical behavior and constitutive model of shale under real-time high temperature and high stress conditions

  • Wuhao Guo,
  • Yintong Guo,
  • Zhenhua Cai,
  • Hanzhi Yang,
  • Lei Wang,
  • Chunhe Yang,
  • Guokai Zhao,
  • Zhenhui Bi

DOI
https://doi.org/10.1007/s13202-022-01580-4
Journal volume & issue
Vol. 13, no. 3
pp. 827 – 841

Abstract

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Abstract The high temperature and high in-situ stress geological environment can significantly affect the mechanical properties, failure modes, and deformation characteristics of deep shale reservoirs. In this study, real-time high temperature triaxial compressive tests simulating the deep shale formation environment (temperature: 25–150 °C, confining pressure: 0–100 MPa) are carried out. The GSI-strength degradation and constitutive models are derived based on the Hoek–Brown criterion. The results show that in low confining pressure conditions, the mechanical behavior of shale is greatly influenced by temperature. Compared with shale at 25 °C, the compressive strength of shale at 150 °C decreases by up to 13.7%, and the elastic modulus decreases by up to 36.9%. The peak strain was increased by a factor of up to 1.4, and the yield stress level was advanced by as much as 7.4%. However, in high confining pressure conditions, the shale plasticity characteristics are significantly enhanced and the failure mode is relatively single. The GSI-strength degradation model can well characterize the variation law of shale strength with confining pressure under high temperature conditions. The statistical damage constitutive model matches the actual stress–strain curve very well, and it can fully reflect the deformation and failure characteristics of deep shale. The findings of this study can help us better understand the variation of mechanical properties of deep shale.

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