4.6 Article

Role of overlying and underlying limestones in the natural hydraulic fracturing of shale sections: The case of marine-continental transitional facies in the Southern North China Basin

Journal

ENERGY REPORTS
Volume 7, Issue -, Pages 8711-8729

Publisher

ELSEVIER
DOI: 10.1016/j.egyr.2021.11.025

Keywords

Limestone; Shale section; Natural fracture; Mechanical parameter; Fracturing barrier; Southern North China Basin

Categories

Funding

  1. Special Grant of China Postdoctoral Science Foundation [2018T110124]
  2. State Key Lab-oratory of Petroleum Resources and Prospecting, China Univer-sity of Petroleum, Beijing [PRP/open-1808]
  3. National Natural Sci-ence Foundation of China [41702152]
  4. China Postdoctoral Science Foundation [2017M610957]

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Limestones play a crucial role in the natural hydraulic fracturing of shale sections, aiding in selecting fracturing locations, enhancing stimulation power, and clarifying fracture propagation law to maximize shale oil and gas production.
A few limestone layers usually underlie and/or overlie the shale layers/sections in marine facies, especially in marine-continental transitional facies (MCTF). The role of limestones in the natural hydraulic fracturing of shale sections will help in selecting the fracturing location, improving the stimulation power, and clarifying fracture propagation law to product more shale oil and gas. Taking an MCTF in the Southern North China Basin as an example, the differences in natural fractures and mechanical properties between limestones and shales were compared to examine the role of limestone in hydraulic fracturing. Our analyses show that shales developed more non-tectonic fractures than limestones, usually interconnected with tectonic fractures to form a fracture network. Limestones generally have a higher Young's modulus, compressive strength, in situ stress, and fracturing pressure and a more difficult fracture initiation than shales and sandstones. Overlying and underlying limestones with less fractures and higher mechanical properties can act as an effective barrier bed, which prevents induced fractures originating from the shale sections from penetrating their mechanical interfaces into the adjacent limestone sections. This action maintains a high stimulation power in the shale sections to form a complicated induced fracture network. (C) 2021 The Authors. Published by Elsevier Ltd.

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