Volume 43 Issue 4
Jul.  2024
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CEN Wenpan, QIN Yinglun, WANG Xiang, XIONG Weiwei, HUANG Wenfang, ZHUO Seqiang. Relationship between structure and evolution of the Early Carboniferous rifted basin and shale gas preservation: A case study of the Rongshui area in the Guizhong Depression[J]. Bulletin of Geological Science and Technology, 2024, 43(4): 39-52. doi: 10.19509/j.cnki.dzkq.tb20230723
Citation: CEN Wenpan, QIN Yinglun, WANG Xiang, XIONG Weiwei, HUANG Wenfang, ZHUO Seqiang. Relationship between structure and evolution of the Early Carboniferous rifted basin and shale gas preservation: A case study of the Rongshui area in the Guizhong Depression[J]. Bulletin of Geological Science and Technology, 2024, 43(4): 39-52. doi: 10.19509/j.cnki.dzkq.tb20230723

Relationship between structure and evolution of the Early Carboniferous rifted basin and shale gas preservation: A case study of the Rongshui area in the Guizhong Depression

doi: 10.19509/j.cnki.dzkq.tb20230723
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  • Author Bio:

    CEN Wenpan, E-mail: cenwp23@163.com

  • Corresponding author: QIN Yinglun, E-mail: 853766405@qq.com
  • Received Date: 02 Jan 2024
  • Accepted Date: 15 Mar 2024
  • Rev Recd Date: 19 Jan 2024
  • Objective

    Many important discoveries have been made in shale gas exploration in the Lower Carboniferous Luzhai Formation in the central and northern Guizhong Depression, southern margin of the Xuefengshan Uplift, and commercial test production has achieved successful gas ignition. However, the structure and evolution of the depression in this area have not been clearly defined, which restricts an accurate understanding of the formation conditions for organic-rich mud shale, the distribution of favourable sedimentary facies zones, and shale gas enrichment law.

    Methods

    Taking the Rongshui area as an example, this paper studies the main structures and their relationships with shale gas preservation through geological investigation and analysis, 2D-3D seismic section structural interpretation, evolutionary equilibrium section interpretation and other technologies.

    Results

    It is believed that there are three main faults and four main NE-NNE synclines in the study area. The preexisting NNE-trending Sanjiang-Rong'an fault is the main factor involved in extensional fault depression and compression-strike-slip transformation. In the study area, the extensional fault depression developed in the Late Devonian, strengthened in the Early Carboniferous and stopped in the late Early Carboniferous. The compression-strike-slip effect of the depression reconstruction developed in the Indochinese and Yanshanian stages, and the local tensioning effect developed in the Alpine stage. The main part of the present fold system was formed in the Indosinian period. Influenced by the increasing thrust of the Sanjiang-Rong'an fault from west to east, the structure pattern of broad and slow synclinal-compound synclinal-faulted folds is distributed. Complex synclines are favourable structural units for shale gas preservation, and the favourable structural styles for shale gas preservation are synclines and anticlines.

    Conclusion

    This understanding clearly defines the direction of shale gas exploration and deployment in the next step, and provides a beneficial idea for the structure and evolution of the Liucheng slope in the north-central part of the Guizhong Depression.

     

  • The authors declare that no competing interests exist.
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