Characteristics and Affecting Factors of K2qn1 Member Shale Oil Reservoir in Southern Songliao Basin, China

Member 1 of the Cretaceous Qingshankou Formation (K2qn1 Member) in the Southern Songliao Basin, composed of mainly semi-deep and deep lacustrine shale layers, is rich in shale oil. Previous studies on shale reservoir characteristics mainly focused on marine shale strata, but few studies have conside...

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Published in:Energies (Basel) 2022-03, Vol.15 (6), p.2269
Main Authors: Li, Zhongcheng, Bao, Zhidong, Wei, Zhaosheng, Wang, Hongxue, Zhao, Wanchun, Dong, Wentao, Shen, Zheng, Wu, Fan, Tian, Wanting, Li, Lei
Format: Article
Language:English
Subjects:
Adsorption
affecting factor
Basins
Clay minerals
Cretaceous
Da’an area
Experiments
Hydrocarbons
Hysteresis loops
K2qn1 member
Minerals
Morphology
Nitrogen
Oil
Oil reservoirs
Oil shale
Organic carbon
Organic matter
Physical characteristics
Pore size
Pores
Quartz
reservoir characteristics
Reservoirs
Scanning electron microscopy
Shale
shale oil
sweet spot section
Total organic carbon
X-ray diffraction
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Summary:Member 1 of the Cretaceous Qingshankou Formation (K2qn1 Member) in the Southern Songliao Basin, composed of mainly semi-deep and deep lacustrine shale layers, is rich in shale oil. Previous studies on shale reservoir characteristics mainly focused on marine shale strata, but few studies have considered lacustrine shale strata, so the pore-throat features and differences between the lacustrine shale reservoir and marine shale reservoir need to be studied. Taking the Class-I and II sweet spot sections and Class-III non-sweet spot section of Da’an shale oil demonstration area as examples, SEM (scanning electron microscopy) was used to qualitatively and semi-quantitatively describe the morphology and occurrence characteristics of the shale. Full-scale pore size distributions of lacustrine shale samples were quantitatively measured by N2GA (nitrogen absorption) combined with dominant pore size segments tested by experiments. Finally, the lacustrine shale reservoir was compared with classical marine shale reservoirs, and factors influencing semi-deep lacustrine and deep lacustrine shale oil in a large depression basin were analyzed by XRD (X-ray diffraction). The results show that Class-I and II sweet spots are rich in organic matter, quartz, and carbonate minerals, have mainly type H2 nitrogen adsorption hysteresis loops, and contain mainly inorganic pores, such as intergranular and intragranular pores in nano-scale, forming nano-scale reservoirs. Lacustrine shale is obviously different from marine shale in terms of pore structure, and the development characteristics of the lacustrine shale pore structure are more influenced by mineral components. Factors affecting the development of shale oil reservoirs in K2qn1 member include mineral components, TOC (total organic carbon), and diagenetic processes. Quartz and carbonate minerals are good for enhancing reservoir quality, while clay minerals are destructive to the development of reservoirs. TOC is the material foundation and main factor for forming organic pores, but the higher the TOC, the smaller the diameter of the organic pores will be. Compaction, cementation, and dissolution are the main diagenetic processes controlling the development of reservoir space.
ISSN:1996-1073
1996-1073
DOI:10.3390/en15062269