Flow Stimulation in Tight Rocks
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Results for: Flow Stimulation in Tight Rocks
- Malenda, M., T. Vanorio, S. Mignani, J. Ding, and J. Chung. “Rock Physics and Experimentation in Decarbonizing the Future”, The Leading Edge, in Special Section: The role of geophysics in a net-zero-carbon world, 245-. https://doi.org/10.1190/tle40040306.1.
- Clark, A., T. Vanorio, V.Y. Zaitsev, and A.V. Radostin. “Assessing Crack Compliance in Low Porosity Rocks Damaged by Thermo-Hydro-Chemo-Mechanical Processes”, Submitted to JGR.
- Clark, A., T. Vanorio, V. Zaitsev, and A. Radostin. “Avoiding Biases of Geometric Crack Representations in Rocks”, SEG Technical Program Expanded Abstracts 2021.
- Ding, J., A. Clark, T. Vanorio, J. Bargar, and A. Jew. “Elastic Anisotropy of Shales: Modeling Crack Alignment and Compliance Ratio”, Geophyiscs.
- Ding, J., A. Clark, T. Vanorio, J. Bargar, and A. Jew. “Rock Physics Modeling of Crack-Induced Stress Sensitivity, SEG Technical Program Expanded Abstracts 2021”, SEG Technical Program Expanded Abstracts 2021.
- Ding, J., T. Vanorio, A. Clark, J. Bargar, and A. Jew. “Acoustic Velocity and Permeability of Acidized and Propped Fractures in Shale”, GEOPHYSICS, 2 (2020).