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Abstract

AAPG Bulletin, V. 107, No. 5 (May 2023), P. 785-821.

Copyright ©2023. The American Association of Petroleum Geologists. All rights reserved.

DOI: 10.1306/09232220024

Secondary porosity generation in sandstones constrained by the fault movement, fluid flow, and mudstone–sandstone interactions, offshore Bohai Bay Basin, China

Huan Li,1 Hongtao Zhu,2 Xiaofeng Du,3 and Xianghua Yang4

1School of Geography, Earth and Atmospheric Sciences, University of Melbourne, Melbourne, Victoria, Australia; CNOOC Ltd., Tianjin Branch, Tianjin, China; [email protected]
2Faculty of Earth Resources, China University of Geosciences, Wuhan, China; [email protected]
3CNOOC Research Institute Ltd., Beijing, China; [email protected]
4Faculty of Earth Resources, China University of Geosciences, Wuhan, China; [email protected]

Abstract

This work examines the influences of fault movement, induced fluid flow, and thermal mudstone evolution on the secondary porosity generation and diagenesis in Eocene–Miocene sandstones from the Western Bozhong depression, offshore Bohai Bay Basin, using quantitative petrographic analyses, Previous HitstableTop isotopes, quantitative fluorescence, and quantitative evaluations of fault movement, seal, and fluid flow. Mudstones at shallow, moderate, and deep depths have different capacities in providing organic acids/CO2 for mineral dissolution and ions for the precipitation of carbonate cements in adjacent sandstones. Moderate and deep mudstones are mature and able to provide organic acids/CO2 and other ions to adjacent sandstones. However, shallow mudstones are not mature and have limited mass supply capacity. Subsequent fault movement activates fluid migration, resulting in the redistribution of organic acids/CO2 (including naphthenic acid/CO2 from hydrocarbon biodegradation), the acceleration of secondary porosity generation, and the export of byproducts. Under the joint influences of thermal mudstone maturity and fault movement-induced fluid flow, organic acids/CO2 could have been sourced from adjacent mudstone (internal source, deep model, >2500 m), transported from deep formations through faults (external source, shallow model,

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