Development characteristics of multi-scale fracture network systems in metamorphic buried hills

Lijun Mi; Hongjun Fan; Tingen Fan; Lei Gong; Tao Niu; Xiaocen Su; Jianghua Luo; Yonghe Sun; Yonghe Sun

doi:10.3389/feart.2022.1108032

Frontiers in Earth Science (Jan 2023)

Development characteristics of multi-scale fracture network systems in metamorphic buried hills

Lijun Mi,
Hongjun Fan,
Tingen Fan,
Lei Gong,
Tao Niu,
Xiaocen Su,
Jianghua Luo,
Yonghe Sun,
Yonghe Sun

Affiliations

Lijun Mi: CNOOC Research Institute Ltd, Beijing, China
Hongjun Fan: CNOOC Research Institute Ltd, Beijing, China
Tingen Fan: CNOOC Research Institute Ltd, Beijing, China
Lei Gong: Bohai-Rim Energy Research Institute, Northeast Petroleum University, Qinhuangdao, China
Tao Niu: CNOOC Research Institute Ltd, Beijing, China
Xiaocen Su: Bohai-Rim Energy Research Institute, Northeast Petroleum University, Qinhuangdao, China
Jianghua Luo: CNOOC Research Institute Ltd, Beijing, China
Yonghe Sun: Bohai-Rim Energy Research Institute, Northeast Petroleum University, Qinhuangdao, China
Yonghe Sun: Institute of Chongqing Unconventional Oil and Gas Development, Chongqing University of Science and Technology, Chongqing, China

DOI: https://doi.org/10.3389/feart.2022.1108032
Journal volume & issue: Vol. 10

Abstract

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Natural fractures are regarded as important reservoir spaces and effective seepage channels at metamorphic buried hills. Continuous networks associated with multi-scale fractures with good connectivity is critical for high-quality reservoirs as well as high and stable production in the tight metamorphic rocks. The multi-scale fractures in Bozhong 19–6 metamorphic buried hills were well characterized through integrating image logs, cores, thin-sections, and scanning electron microscope, etc. After that, power-law distribution of multi-scale fractures was established to understand contribution of fractures to reservoir quality and figure out structure models of fracture networks as well as their impact on production. Results show that parameters of fracture systems vary regularly with fracture scales. Fracture development degree, e.g., cumulative areal density, increases as a power law function with decreasing fracture size from macro to micro (e.g., aperture and/or length), where storage space associated with micro fractures is also increased. Reversely, fracture connectivity and permeability follow a significant decreasing trend. Five structure models of fracture network were established based on combination pattern of multi-scale fractures: multi-scale fracture network with high-density and multi-sets, large-scale fracture network with medium-density and multi-sets, small-scale fracture network with high-density and multi-sets, large-scale fracture network with low-density and multi-sets, and small-scale fracture network with low-density and single-set. The former two fracture networks can be widely developed into high-quality reservoirs, contributing greatly to high and stable yields. Fracturing is required for the third and the fourth fracture networks to obtain stable production, while it is difficult for the fifth fracture network to obtain industrial oil and gas flow.

Published in Frontiers in Earth Science

ISSN: 2296-6463 (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Science
Website: https://www.frontiersin.org/journals/earth-science

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