期刊
ACTA GEOTECHNICA
卷 13, 期 6, 页码 1369-1394出版社
SPRINGER HEIDELBERG
DOI: 10.1007/s11440-018-0687-9
关键词
Effective poroelasticity; Heterogeneous; Mesoscale; Organic-rich shale
资金
- X-Shale Hub: the Science and Engineering of Gas Shale
- Shell
- ICoME2 Labex [ANR-11-LABX-0053]
- A*MIDEX projects - French program Investissements d Avenir [ANR-11-IDEX-0001-02]
- Schlumberger
- Massachusetts Institute of Technology
Built on the framework of effective interaction potentials using lattice element method, a methodology to calibrate and to validate the elasticity of solid constituents in heterogeneous porous media from experimentally measured nanoindentation moduli and imported scans from advanced imaging techniques is presented. Applied to computed tomography (CT) scans of two organic-rich shales, spatial variations of effective interaction potentials prove instrumental in capturing the effective elastic behavior of highly heterogeneous materials via the first two cumulants of experimentally measured distributions of nanoindentation moduli. After calibration and validation steps while implicitly accounting for mesoscale texture effects via CT scans, Biot poroelastic coefficients are simulated. Analysis of stress percolation suggests contrasting pathways for load transmission, a reflection of microtextural differences in the studied cases. This methodology to calibrate elastic energy content of real materials from advanced imaging techniques and experimental measurements paves the way to study other phenomena such as wave propagation and fracture while providing a platform to fine-tune effective behavior of materials given advancements in additive manufacturing and machine learning algorithms .
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