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A New Methodology Combining Geophysical Calculations and Geological Analysis to Identify and Characterize Carrier Systems for Vertical Hydrocarbon Migration in the Central Diapir Zone of the Yinggehai Basin, China

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  • Caiwei Fan

    (School of Geosciences, China University of Petroleum (East China), Qingdao 266580, China
    CNOOC China Limited, Zhanjiang Branch, Zhanjiang 524057, China)

  • Kongyou Wu

    (School of Geosciences, China University of Petroleum (East China), Qingdao 266580, China)

  • Jun Li

    (School of Earth Resources, China University of Geosciences, Wuhan 430074, China)

Abstract

To understand hydrocarbon migration in terms of the mechanisms, accumulations and exploration targets, it is essential to correctly identify and characterize the carrier systems that control fluid-migration history and oil/gas reservoir formation. The Yinggehai Basin in China is an important area for natural gas exploration and production. However, due to the argillaceous sand sedimentary environment and the absence of faults from the Neogene thermal subsidence period, traditional migration pathways are absent in the Yinggehai Basin, posing significant challenges to target evaluation in this area. Exploration shows that most of the existing gas reservoirs are associated with vertical migration. In this work, coherence cube and curvature seismic techniques are used in the central diapir zone of the Yinggehai Basin to identify diapir-associated fractures and regional stress. Together with geological analysis, two categories of carrier system are discussed in detail to explain the complex migration and accumulation patterns that have puzzled the area. Diapirs have five evolutionary phases, i.e., pressurization, piercing, equilibrium, release and collapse, which have different fracture development patterns, leading to different mechanisms of hydrocarbon migration and accumulation. The carbon isotopes of gaseous hydrocarbons in DF shallow layers and mid-deep layers have an inverted order distribution, indicating mixed accumulation with different maturity, whereas in the mid-deep layers of the diapir-affected areas, there is a single accumulation with low maturity. Early diapiric activity allowed the natural gas produced from deep source rocks to migrate upward along the diapiric carrier system and accumulate in suitable traps to form gas reservoirs. For regional-stress related fractures, the gradual loss of overpressure and fluids from deep to shallow in high-pressure fractures results in the gas accumulation time of deep traps in the regional stress-related carrier system being relatively late and the gas accumulation time of shallow traps being relatively early.

Suggested Citation

  • Caiwei Fan & Kongyou Wu & Jun Li, 2023. "A New Methodology Combining Geophysical Calculations and Geological Analysis to Identify and Characterize Carrier Systems for Vertical Hydrocarbon Migration in the Central Diapir Zone of the Yinggehai," Energies, MDPI, vol. 16(4), pages 1-17, February.
  • Handle: RePEc:gam:jeners:v:16:y:2023:i:4:p:1774-:d:1064299
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    References listed on IDEAS

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    1. Jun Li & Xiaoying Zhang & Bin Lu & Raheel Ahmed & Qian Zhang, 2019. "Static Geological Modelling with Knowledge Driven Methodology," Energies, MDPI, vol. 12(19), pages 1-23, October.
    2. Barbara Uliasz-Misiak & Jacek Misiak & Joanna Lewandowska-Śmierzchalska & Rafał Matuła, 2020. "Environmental Risk Related to the Exploration and Exploitation of Coalbed Methane," Energies, MDPI, vol. 13(24), pages 1-13, December.
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