Analysis of controlling factors on reservoir petrophysics of the Paleogene Shahejie Formation in Qinan Sag of Huanghua Depression
Liu Zhenghua,Yang Xianghua,Chen Honghan,Wei Ajuan,Hao Lihua
1 Petroleum Department of China University of Geosciences(Wuhan),Wuhan 430074,Hubei
2 Research Institute of Petroleum Exploration and Development,Dagang Oilfield,Tianjin 300280
In China, theories on secondary porosity of deep reservoirs need breakthrough urgently. The Qinan Sag, located in the Huanghua Depression, is an active hydrocarbon generation sag, and deve ̄lops favorable reservoir sandbodies in the Paleogene Shahejie Formation, and has a significant exploration potential. Using thin sections,scanning electron microscope(SEM),cathodoluminescence,Xdiffraction methods, integrated with measured reservoir properties and log interpretation, the authors summarized that distribution of secondary pores was different in different tectonic units. In the west slope, secondary pores were distributed in 3 belts: 1650~1800 m,2300~2600 m and 2880~2920 m. In the eastern Chengbei faulted belt, secondary pores were distributed in 2200~2800 m. In the central zone of the sag, secondary pores were distributed in 2900~3500 m. Lithic sandstone and arkosic arenite sandstone are the dominant rock types in the study area with low component and texture maturity which made the material basis for secondary pore development. Sedimentary environment also had some influence on reservoir quality. Lake shore zone and bar sandbodies possess thebest reservoir petrophysics. They are followed by main gravityflow channel sandbodies and channel of middle fan in subaqueous fan. The flankdistal sandbodies of gravityflow channel and middlebay in subaqueous fan constitute poor to fair reservoirs. The main mechanisms for secondary pore formation are as follows: ①The development of clay coating is favorable for development of secondary pore. ② The organic acid which formed during the process of organic material transforming into hydrocarbon and the acidic solution forned in resulting from the conversion of montmorillonite into illite could dissolve the feldspar and lithic grains. Asaresult, secondary pores could the develop. ③The activity of pore water entering into the sandbody reservoir influences the development of secondary pore. ④The dissolution dominated cementation during the hydrocarbon filling process and thus in the later period, secondary pores were developed. ⑤ Adjecent to fault and unconformity, a great deal of CO2 was dissolved in the atmospheric fresh water. Carbonate acids could be easily to formed and they dissolved feldspar grains when entering the reservoirs. As a result secondary pores were formed.
. Analysis of controlling factors on reservoir petrophysics of the Paleogene Shahejie Formation in Qinan Sag of Huanghua Depression[J]. JOPC, 2009, 11(4): 435-.