Abstract
3D seismic interpretative study was carried out across the Uzot-field in the western Coastal Swamp Depobelt of the onshore Niger Delta Basin, Nigeria, with the aim to identify possible hydrocarbon leads and prospects away from the drilled zone, utilizing seismic amplitude attributes. The method employed in this study involved systematic picking of faults and mapping of horizons/reservoir tops across seismic volume and extraction of seismic attributes. Structural analysis indicates the presence of down-to-basin footwall and hanging wall faults associated with rollover anticlines and horst-block (back-to-back fault). Generated time and depth structural maps from three reservoir intervals (D3100, D5000, and D9000) revealed the presence of fault dependent closure across the field. Analyses of relevant seismic attributes such as root-mean-square (RMS) amplitude, maximum amplitude, average energy amplitude, average magnitude amplitude, maximum magnitude attribute, and standard deviation amplitude, which were applied on reservoir tops, revealed sections with bright spot anomalies. These amplitude anomalies served as direct hydrocarbon indicators (DHIs), unravelling the presence and possible hydrocarbon prospective zones. In addition, structural top maps show that booming amplitude is seen within the vicinity of fault closures, an indication that these hydrocarbon prospects are structurally controlled. Results from this study have shown that, away from currently producing zone at the central part of the field, additional leads and prospects exist, which could be further evaluated for hydrocarbon production.
Highlights
Oil and gas in the Niger Delta Basin are principally produced from accumulations in the pore spaces of reservoir rocks from sandstones and unconsolidated sands predominantly in the Agbada formation [1]
The advancement in 3D seismic reflection methodology and borehole geophysics has made it possible to map such structural and stratigraphic configuration with high degree of reliability and precision reducing the risk factor associated with hydrocarbon exploration [2,3,4,5]
This study is aimed at imaging the subsurface structure of Uzot field with a view to delineate hydrocarbon prospect using seismic amplitude attributes as direct hydrocarbon indicators (DHIs)
Summary
Oil and gas in the Niger Delta Basin are principally produced from accumulations in the pore spaces of reservoir rocks from sandstones and unconsolidated sands predominantly in the Agbada formation [1]. The goal of hydrocarbon exploration is to identify and delineate structural and stratigraphic features associated with hydrocarbon generation, deposition, migration, and entrapment. These structural and stratigraphic traps could be very subtle and are, difficult to map accurately. The advancement in 3D seismic reflection methodology and borehole geophysics has made it possible to map such structural and stratigraphic configuration with high degree of reliability and precision reducing the risk factor associated with hydrocarbon exploration [2,3,4,5]. Seismic attributes have been widely used for detection of hydrocarbon reservoirs [9,10,11,12,13]. This study is aimed at imaging the subsurface structure of Uzot field with a view to delineate hydrocarbon prospect using seismic amplitude attributes as direct hydrocarbon indicators (DHIs)
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