Flow Stimulation in Tight Rocks

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).