4.6 Article

Pore Structure and Fractal Characteristics of Organic-Rich Lacustrine Shales of the Kongdian Formation, Cangdong Sag, Bohai Bay Basin

Journal

FRONTIERS IN EARTH SCIENCE
Volume 9, Issue -, Pages -

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/feart.2021.760583

Keywords

cangdong sag; nitrogen adsorption; lacustrine shale pore structure; fractal FHH model; fractal dimension

Funding

  1. China National Key Science and Technology Special Projects [2016ZX05006, 2017ZX05001]
  2. National Natural Science Foundation of China [D0207]

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This study conducted laboratory experiments on lacustrine shale samples to examine the pore structure and fractal geometry, revealing that interparticle pores and microfractures are predominant. The results showed that the pore types are relatively few and dominated by mesopores, with fractal dimension values indicating a low heterogeneity and influence from brittle minerals.
In order to examine the pore structure and reveal the fractal geometric nature of shales, a series of laboratory experiments were conducted on lacustrine shale samples cored from the Kongdian Formation. Based on the low temperature nitrogen adsorption, fluorescent thin section and field emission scanning electronic microscope, a comprehensive pore structure classification and evaluation were conducted on shale samples. Fractal dimensions D-1 and D-2 (with relative pressure of 0-0.45 and 0.45-1.00, respectively) were obtained from the nitrogen adsorption data using the fractal Frenkel-Halsey-Hill (FHH) method. With additional means of X-ray diffraction analysis, total organic carbon content analysis and thermal maturity analysis, the relationships between pore structure parameters, fractal dimensions, TOC content and mineral composition are presented and discussed in this paper. The results show that interparticle pores and microfractures are predominant, whereas organic matter pores are rarely found. The pore morphology is primarily featured with wide-open ends and slit-shaped structures. In terms of pore scale, mesopores and macropores are predominant. The value of fractal dimension D-1 representing small pores ranges from 2.0173 to 2.4642 with an average of 2.1735. The value of D-2 which represents large pores ranges from 2.3616 to 2.5981 with an average of 2.4960. These low numbers are an indication of few pore types and relatively low heterogeneity. In addition, smaller D-1 values reveal that large pores have more complicated spatial structures than smaller ones. The results of correlation analysis show that: 1) D-2 is correlated positively with specific surface area but negatively with average pore diameter; 2) D-1 and D-2 literally show no obvious relationship with mineral composition, TOC content or vitrinite reflectance (R-o); 3) both total Barrett-Joyner-Halenda (BJH) volume and specific surface area show a positive relationship with dolomite content and a negative relationship with felsic minerals content. These results demonstrate that the pore types are relatively few and dominated by mesopores, and the content of brittle minerals such as dolomite and felsic minerals control the pore structure development whilst organic matter and clay minerals have less influence due to low thermal maturity and abundance of clay minerals.

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