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Research on the Mechanism of Evolution of Mechanical Anisotropy during the Progressive Failure of Oil Shale under Real-Time High-Temperature Conditions

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  • Shaoqiang Yang

    (College of Engineering for Safety and Emergency Management, Taiyuan University of Science and Technology, Taiyuan 030024, China
    Intelligent Monitoring and Control of Coal Mine Dust Key Laboratory of Shanxi Province, Taiyuan 030024, China)

  • Qinglun Zhang

    (College of Engineering for Safety and Emergency Management, Taiyuan University of Science and Technology, Taiyuan 030024, China)

  • Dong Yang

    (Key Laboratory of In-Situ Property-Improving Mining of Ministry of Education, Taiyuan University of Technology, Taiyuan 030024, China)

  • Lei Wang

    (Key Laboratory of In-Situ Property-Improving Mining of Ministry of Education, Taiyuan University of Technology, Taiyuan 030024, China)

Abstract

Real-time high-temperature CT scanning and a rock-mechanics test system were employed to investigate the mechanical properties of oil shale at temperatures from 20 to 600 °C. The results reveal that up to 400 °C, the aperture of fractures initially decreases and then increases when loading is perpendicular to the bedding. However, the number and aperture continuously increase when loading is parallel to the bedding. Beyond 400 °C, the number of pores increases and the aperture of the fractures becomes larger with rising temperature. The changes in microstructures significantly impact the mechanical properties. Between 20 and 600 °C, the compressive strength, elastic modulus, and Poisson’s ratio initially decrease and then increase under perpendicular and parallel bedding loadings. The compressive strength and elastic modulus reach minimum values at 400 °C. However, for Poisson’s ratio, the minimum occurs at 500 °C and 200 °C under perpendicular and parallel bedding loadings, respectively. Simultaneously, while the crack damage stress during perpendicular bedding loading, σ cd-per , initially exhibits an upward trend followed by a decline and subsequently increases again with temperature increasing, the initial stress during perpendicular bedding loading, σ ci-per , parallel bedding loading, σ ci-par, and damage stress, σ cd-par , decrease initially and then increase, reaching minimum values at 400 °C. These research findings provide essential data for reservoir reconstruction and cementing technology in the in situ mining of oil shale.

Suggested Citation

  • Shaoqiang Yang & Qinglun Zhang & Dong Yang & Lei Wang, 2024. "Research on the Mechanism of Evolution of Mechanical Anisotropy during the Progressive Failure of Oil Shale under Real-Time High-Temperature Conditions," Energies, MDPI, vol. 17(16), pages 1-19, August.
  • Handle: RePEc:gam:jeners:v:17:y:2024:i:16:p:4004-:d:1455257
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    Cited by:

    1. Shaoqiang Yang & Qinglun Zhang & Dong Yang, 2024. "Influence of Temperature and Bedding Planes on the Mode I Fracture Toughness and Fracture Energy of Oil Shale Under Real-Time High-Temperature Conditions," Energies, MDPI, vol. 17(21), pages 1-23, October.

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