Effect of anisotropy, angle, and critical tensile stress and confining pressures on evaluation of shale brittleness index — Part 1: Methodology and laboratory study

The rock physics experiments and fracture toughness tests of shales from the Lower Silurian Longmaxi Formation in the Sichuan Basin in China were carried out. Based on this, the calculation model of the fracture toughness was constructed, thus, the single well evaluation of the fracture toughness in shale formation would be obtained based on the well logging data, which can be used to summarize the spatial distribution characteristics of the fracture toughness in the shale formation. However, it is difficult to obtain transverse distribution characteristics of fracture toughness in shale formation based solely on the well logging data. Therefore, in order to investigate the spatial distribution of the fracture toughness, jointing well logging and seismic method could be adopted to quantitatively predict the fracture toughness in shale formation. The results show that fracture toughness of shales is sensitive to acoustic interval transit time and wave impedance. The prediction model of the fracture toughness of shales was constructed, which had a good prediction effect. The fracture toughness values of shales from the Upper Silurian Wufeng-Longmaxi Formation were larger, whereas those of shales from the Lower Silurian Wufeng-Longmaxi Formation were lower. The fracture toughness is mainly distributed in strips along the vertical direction while the distribution area is continuous in the lateral direction, indicating that it has obvious stratification characteristics.

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Comprehensive Brittleness Evaluation on Cap Rock of X9 Gas Storage Using an Improved Geometric Polygon Method

Wen

Jia

Shu

et al. 2020

Advances in Civil Engineering Materials

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Brittleness is an important mechanical characteristic of rock and is critical to shale reservoir, which is characterized with low porosity and low permeability. Brittleness evaluation of cap rock plays an important role in the site selection, operation, and maintenance of underground gas storage. However, it is still a difficult problem for conducting a quantitative brittleness evaluation. In this article, the brittleness of X9’s cap rock has been evaluated by the five available effective methods that are based on mineral composition, elastic parameters, stress-strain curve, analytic hierarchy process, and fuzzy analytical hierarchy process, respectively, and the results of them are general, weak, weak, general, and general, respectively. Combined with the five evaluation results, a comprehensive brittleness evaluation based on geometric regular polygon method is proposed. The results show that the brittleness of X9’s cap rock is faint. Because of the comprehensive consideration of the limitations of existing brittleness evaluation methods, the excessive idealization of conventional regular polygon method, and the irrationality of division in evaluation grades, this method is improved based on the conventional regular polygon method and has advantages of comprehensive utility, strong feasibility, reliable result, and wide application range and can be used to evaluate similar targets.

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Effect of anisotropy, angle, and critical tensile stress and confining pressures on evaluation of shale brittleness index — Part 1: Methodology and laboratory study

Cited by 3 publications

References 26 publications

Fracture evolution of transversely isotropic rocks with a pre-existing flaw under compression tests based on moment tensor analysis

Fracture evolution of transversely isotropic rocks with a pre-existing flaw under compression tests based on moment tensor analysis

Prediction of Fracture Toughness in the Shale Formation Based on Well Logging and Seismic Data: A Case Study of the Lower Silurian Longmaxi Formation in the Sichuan Basin, China

Comprehensive Brittleness Evaluation on Cap Rock of X9 Gas Storage Using an Improved Geometric Polygon Method

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