Characterization of secondary reservoir potential via seismic inversion and attribute analysis: A case study

Seismic reservoir characterization is a renowned technique to obtain a better understandingand quantification of hydrocarbon bearing reservoirs by integration of seismic attributes, post stack inversion and wireline log analysis. In current case study, a methodology based on these techniques is prop...

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Bibliographic Details
Published in:Journal of petroleum science & engineering 2019-07, Vol.178, p.272-293
Main Authors: Ali, Aamir, Younas, Muhammad, Ullah, Matee, Hussain, Matloob, Toqeer, Muhammad, Bhatti, Asher Samuel, Khan, Azhar
Format: Article
Language:English
Subjects:
Cross-plots
Gas saturation
Petrophysics and rock physics
Post stack colored inversion
Seismic attributes
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Summary:Seismic reservoir characterization is a renowned technique to obtain a better understandingand quantification of hydrocarbon bearing reservoirs by integration of seismic attributes, post stack inversion and wireline log analysis. In current case study, a methodology based on these techniques is proposed, and its applicability is tested for delineating the secondary reservoir potential of the Eocene carbonates (Habib Rahi and Sui Upper Limestone) in Qadirpur area, Lower Indus Basin, Pakistan. The application of post stack inversion provides a reasonable estimate of the acoustic impedance and enables the spatial distribution of important petrophysical properties (effective porosity and water saturation) available at sparse well locations. This distribution is facilitated by developing geostatistical relations between seismic and well derived reservoir properties in the range of seismic resolution. The results from all integrated techniques depict fluid saturated zones at Habib Rahi (gas at 907–922 m; water at 953–973 m) and Sui Upper Limestone (gas at 1192–1208 m) levels. The spatial distribution of the reservoir properties (effective porosity and water saturation) obtained via seismic data shows a very good calibration at the location of wells and reflects significant secondary reservoir potential for Eocene carbonates in the study area (effective porosity in the range of 7–26% and water saturation in the range of 35–60%). Furthermore, the methodology tested over here will be advantageous for the characterization of oil/gas reservoirs in various basins of Asia and other parts of world with similar geological settings. •Dominant frequency is a valuable attribute for the identification of reservoir interval.•Seismic post stack colored inversion can serve as a robust tool for demarcation of fluid saturated zones.•Geostatistical analysis helps in improved distribution of key properties over the reservoir scale.
ISSN:0920-4105
1873-4715
DOI:10.1016/j.petrol.2019.03.039