Characteristics and main controls of tectonic fractures and their contribution to deep tight reservoirs; a case study of the Huoshiling-Shahezi Formations in Gudian Half-Graben, Songliao Basin, China

Characteristics and main controls of tectonic fractures and their contribution to deep tight reservoirs; a case study of the Huoshiling-Shahezi Formations in Gudian Half-Graben, Songliao Basin, China

The deep volcanic and clastic rocks in the Songliao Basin are typical tight reservoirs with ultralow porosity and permeability. Natural fracture determines the effective reservoirs in the deep strata. Integrated core and thin section observations, image logging, physical property measurement, X-ray...

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Bibliographic Details
Published in:Lithosphere Vol. 2022; no. Special 12
Main Authors: Xu Litao, Xu Litao, Wang Ren, Wang Ren, Shi Wanzhong, Shi Wanzhong, Yu Gang, Yu Gang, Zhang Xiaoming, Zhang Xiaoming, Tang Daqing, Tang Daqing, Meng Fulin, Meng Fulin
Format: Journal Article
Language:English
Published: GeoScienceWorld 2022
Subjects:
Asia
case studies
China
controls
cores
Cretaceous
Economic geology
energy sources
Far East
fractures
glutenite
Gudian half graben
Houshiling Formation
igneous rocks
Inner Mongolia China
Jurassic
Lower Cretaceous
Mesozoic
permeability
petrography
petroleum
petroleum exploration
porosity
reservoir rocks
sedimentary rocks
Shahezi Formation
Songliao Basin
thin sections
tight sands
unconventional reservoirs
Upper Jurassic
volcanic rocks
volcanism
X-ray diffraction data
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Summary:The deep volcanic and clastic rocks in the Songliao Basin are typical tight reservoirs with ultralow porosity and permeability. Natural fracture determines the effective reservoirs in the deep strata. Integrated core and thin section observations, image logging, physical property measurement, X-ray diffraction, and seismic attribute analysis were applied to ascertain the characteristics and genetic mechanisms of the tectonic fractures in the Huoshiling-Shahezi Formations of the Gudian half-graben. The contribution of the fractures to deep tight reservoirs was also discussed. Results showed that tectonic fractures are mainly tension, shear, and slip fractures. The density of the fractures in andesitic tuffs with high clay minerals content is significantly higher than that in the other rock types. The main controls of the developmental degree of fractures are tectonism. Three sets of fractures were identified based on the genetic connection between fracture formation and tectonic stress. The NNW-trending tension fractures were formed in the syn-rift stage and successively extended in the post-rift stage. The regional compressional stress drove the formation of the NEE-trending shear fractures and NNW-trending "X" plane-conjugated shear fractures in the postextrusion stage. The averaged porosity and permeability of the reservoirs are generally less than 6.0% and lower than 0.06 mD. The pores can hardly independently provide migration pathways and storage spaces, but the fractures significantly improved the reservoir properties. The fractures were well developed in the regions near the Gudian Fault, fault transfer zones, and volcanoes, indicating the distribution of potential reservoirs. Moreover, unraveling the types and orientations of the fractures will provide an essential basis for the analysis of hydrocarbon migration and hydraulic fracture treatments.
ISSN:1941-8264
1947-4253
DOI:10.2113/2022/7168037