Abstract
Volcanic activities exert a significant influence on pore fluid property and related diagenetic processes that substantially controlled reservoirs quality. Analysis of Paleogene medium-deep sandstones on the Huanghekou Sag provides insight into relating the diagenetic processes to pore fluid property evolution influenced by volcanic activities. Three distinct types of pore fluids were identified on the basis of an integrated and systematic analysis including core and thin section observation, XRD, SEM, CL, and trace element. Alkaline aqueous medium environment occurred in E2s1+2 where volcanic activities have insignificant influence on pore fluids, evidenced by typical alkaline diagenetic events such as K-feldspar albitization, quartz dissolution, feldspar dissolution, and carbonate cementation. During the deposition of E3d3, influx of terrestrial freshwater and alteration of ferromagnesian-rich pore water result in the formation of mixing aqueous medium environment through volcanic eruption dormancy causing zeolite dissolution, clay mineral transformation, and K-feldspar albitization. Ferromagnesian-rich aqueous medium environment developed resulting from the intensive hydrolysis of the unstable ferromagnesian minerals formed due to intense volcanic activities during E3d1+2 and corresponding predominant diagenetic processes were characterized by the precipitation and dissolution of low-silica zeolites. Therefore, the differential properties of pore fluids caused various diagenetic processes controlling reservoir quality.
Highlights
It has been documented that thousands of drilled wells show the tremendously exploratory potential of deep sedimentary formations, which has recently drawn great attention of petroleum geologists worldwide (e.g., [1,2,3])
A series of diagenetic processes are identified in the Paleogene medium-deep reservoirs, Huanghekou Sag, including precipitation of carbonate, zeolite minerals and dissolution of feldspar, quartz, and zeolite minerals
Discrete plot of mineral compositions based on X-ray diffraction (XRD) analysis of sandstone reservoirs indicates that zeolites occur mainly in the E3d1+2 interval with high content, which may be controlled by aqueous medium environment enriched ferromagnesian minerals (Figure 4)
Summary
It has been documented that thousands of drilled wells show the tremendously exploratory potential of deep sedimentary formations, which has recently drawn great attention of petroleum geologists worldwide (e.g., [1,2,3]). The definition of the medium-deep or deep reservoirs differs from basin to basin conventionally depending on basin type and exploration degree. Bohai Bay Basin, one of the most petroliferous basins in China [4], and the medium-deep reservoirs are significant exploration interests commonly defined as those Paleogene intervals at burial depth more than 2500 m (e.g., [5,6,7]) but in the study area of Huanghekou Sag it is generally referred to those not deeper than 3500 m due to special geological settings. A clear understanding of Paleogene reservoirs development is of great significance for optimizing petroleum exploration and increasing reserves. The pore fluids are altered by dissolution (km) 0 720
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