Developmental characteristics of fractures in deep tight sandstone reservoirs in the second Member of the Xujiahe Formation of Zhongjiang Gas Field

• Published in: Unconventional Resources Vol. 4; p. 100073
• Main Authors: Cai, Wenli, Xie, Runcheng, Li, Huaji, Dou, Shiliang, Li, Siyuan, Deng, Shuanglin, Ma, Tingting
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 2024; KeAi Communications Co., Ltd
• Subjects: Control factors of fracture; Logging response of fracture; Rock thickness; TX2; Zhongjiang Gas Field; Logging response of fracture; Control factors of fracture; Rock thickness; Zhongjiang Gas Field; TX2
• ISSN: 2666-5190; 2666-5190
• DOI: 10.1016/j.uncres.2024.100073

The development characteristics, scale and control factors of fractures are the core subjects of reservoir sweet spot prediction. The sandstone reservoir of the TX2 gas reservoir in the Zhongjiang Gas Field is a typical low porosity and low permeability tight reservoir with strong heterogeneity, but relatively high-quality reservoirs can be found in different well areas and well segments. In this paper, taking the second Member of the Xujiahe Formation (TX2) as an example, the control factors of fractures were systemically investigated via core observation, thin section, logging data, and fracture logging identifications. The results show that shear fractures are mainly developed in the cores, and they generally have high filling rate and poor effectiveness; microfractures can be found based on the vitrinite and cast thin section results. The intersection diagram (semi-quantitative) and the principal component and BP comprehensive identification (quantitative) methods can effectively identify different types of fractures. The combined application of principal component and BP comprehensive identification methods results in an 83.3 % fracture identification probability. Finally, we found that the development of fractures in TX2 is comprehensively affected by lithology, rock thickness, porosity, and faults. [Display omitted] •Control factors of fractures in the Xujiahe Formation are determined.•Combined application of principal component and BP methods is proposed.•And the basic characteristics of cracks in the Xujiahe Formation have been clarified.