Modeling the effects of microscale fabric complexity on the anisotropy of the Eagle Ford Shale

Abstract: Microscale fabric influences the elastic properties of rock formations. The complexity of the microscale fabric of shale results from composition, platy clay minerals, kerogen, and their preferred orientation patterns. This microscale fabric is also the likely cause of the elastic anisotropy of the rock. In this paper, we have developed a comprehensive three-step rock-physics approach to model the anisotropic elastic properties of the Upper Eagle Ford Shale. We started with anisotropic differential effective m… Show more

“…Figure 18: Porosity cross-section of SYY3, XU12, and XU13. 19 Geofluids linear, which provides a theoretical basis for the construction of shale rock physical cross-plot template (3) Based on the shale rock physical model and the analysis of elastic parameter influencing factors, the elastic parameters λρ and μρ sensitive to organic matter and pores are optimized, and the shale rock physical cross-plot template that can distinguish different organic volume fractions and porosity is constructed (4) The application shows that the predicted Vs based on the proposed model is in good agreement with the Vs derived from dipole source logging. Through prestack elastic parameter inversion, the "sweet spot" characteristics are well described, which provides an important support for the deployment of shale oil wells in Sanzhao sag…”

“…In shale oil exploration and development, geological "sweet spot" evaluation and optimization are important foundations. The successful development of shale oil in the United States is due to the improvement of geological understanding and engineering technology progress, and the most important one is the ability to identify a "sweet spot" [4]. The "sweet spot" of shale oil refers to the reservoir intervals with more oil and better physical properties under the overall oilbearing background.…”

Study on Anisotropic Petrophysical Modeling of Shale: A Case Study of Shale Oil in Qingshankou Formation in Sanzhao Sag, Songliao Basin, China

“…Figure 18: Porosity cross-section of SYY3, XU12, and XU13. 19 Geofluids linear, which provides a theoretical basis for the construction of shale rock physical cross-plot template (3) Based on the shale rock physical model and the analysis of elastic parameter influencing factors, the elastic parameters λρ and μρ sensitive to organic matter and pores are optimized, and the shale rock physical cross-plot template that can distinguish different organic volume fractions and porosity is constructed (4) The application shows that the predicted Vs based on the proposed model is in good agreement with the Vs derived from dipole source logging. Through prestack elastic parameter inversion, the "sweet spot" characteristics are well described, which provides an important support for the deployment of shale oil wells in Sanzhao sag…”

“…In shale oil exploration and development, geological "sweet spot" evaluation and optimization are important foundations. The successful development of shale oil in the United States is due to the improvement of geological understanding and engineering technology progress, and the most important one is the ability to identify a "sweet spot" [4]. The "sweet spot" of shale oil refers to the reservoir intervals with more oil and better physical properties under the overall oilbearing background.…”

Study on Anisotropic Petrophysical Modeling of Shale: A Case Study of Shale Oil in Qingshankou Formation in Sanzhao Sag, Songliao Basin, China

A simple effective medium approach for the bulk electrical and elastic properties of organic-rich shales