A novel method for automatic quantification of different pore types in shale based on SEM-EDS calibration

Zhentao Dong, Shansi Tian*, Haitao Xue, Shuangfang Lu, Bo Liu, Valentina Erastova, Guohui Chen, Yuying Zhang

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

Pore type is a crucial consideration in the quantification of shale pores. Convolutional Neural Networks (CNNs) are widely used for identifying pore types in shale, but it is hampered by feature extraction bias, difficult data labeling, and poor generalization ability. Compared to secondary electron (SE) images, mineral distribution maps have low resolutions that pose a significant obstacle to pore type identification. This paper presents a method for identifying and quantifying pore types based on pore-matrix contact relationships. Organic matter, organic pores, and inorganic pores are extracted from SE images using the edge-threshold automatic processing (ETAP) method. Next, the labeled watershed algorithm is used to improve the low-resolution mineral distribution map to the SE image level. The high-resolution mineral distribution map is then combined with pore extraction images, permitting the identification of pore types. Finally, pore size, surface porosity, generalized fractal dimension, and contact angle are calculated for each pore type. We used this new method to identify pores in images of the Longmaxi, Qiongzhusi, and Qingshankou shale. We found that high-resolution mineral distribution maps significantly enhance pore identification accuracy. The Longmaxi Formation clay-rich shale is dominated by organic pores (over 60%), while the Qiongzhusi Formation siliceous shale is characterized by intergranular pores and fractures (fractures contributing 30%). In the Qingshankou Formation clay-rich shale, clay pores (35%) and cracks dominate, whereas the Qingshankou Formation siliceous shale is primarily composed of intergranular pores (17%) and cracks (30%), with distinct pore size distributions across these lithofacies. There is a significant difference in the wettability of the matrix and pores of the Longmaxi shale, primarily due to the dominant influence of organic matter on the pore surfaces.

Original languageEnglish
Article number107278
JournalMarine and Petroleum Geology
Volume173
Early online date31 Dec 2024
DOIs
Publication statusE-pub ahead of print - 31 Dec 2024

Keywords / Materials (for Non-textual outputs)

  • Machine learning
  • Multifractal
  • Pore type identification
  • Pore-mineral contact relationships
  • Quantification
  • Wettability

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