Geophysical 3D-static reservoir and basin modeling of a Jurassic estuarine system (JG-Oilfield, Abu Gharadig basin, Egypt)

• Published in: Journal of Asian earth sciences Vol. 225; p. 105067
• Main Authors: Abdelwahhab, Mohammad A., Radwan, Ahmed A., Mahmoud, Hamdy, Mansour, Ahmed
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.03.2022
• Subjects: 3D-Static Reservoir Modeling; Basin Modeling; Estuarine System; Paleoenvironment; Petroleum Geology; Western Desert of Egypt; Western Desert of Egypt; Petroleum Geology; 3D-Static Reservoir Modeling; Paleoenvironment; Basin Modeling; Estuarine System
• ISSN: 1367-9120; 1878-5786
• DOI: 10.1016/j.jseaes.2021.105067

[Display omitted] •The estuarine architecture is just depicted via facies-constrained 3D modeling.•Heterogeneity of Khatatba complex reveals five sedimentary facies associations.•Basin modeling confirms hydrocarbon charging from Khatatba shales to reservoirs.•Bars comparison with modern-ancient analogues verifies sufficient characteristics.•Given best reservoir quality, estuarine bars deserve testing in similar settings. Inadequate delineation of reservoir-heterogeneities, along with charge-timing confirmation, can considerably mislead exploration-development phases of petroleum. Therefore, precisely depicting the reservoir-architecture is crucial for avoiding exploration failures. To this end, integrated approach of various facies analysis and modeling-related disciplines; e.g. seismic facies, and GR-log motifs; was applied, in this study, to develop a depositional-model capable of aiding in stochastically-mapping reservoir heterogeneity and quality of the Jurassic estuarine depositional-system at JG-Field. To overcome the issue of sparse well control and scarcity of promising discoveries from deep-buried intervals in the study area, stochastic 3D-geocellular reservoir modeling, constrained by seismic attribute analysis, was performed to render a lateral prediction of different facies constituting the Jurassic succession. Predicting organic maturities and retrieving past geologic processes controlled sedimentary basin evolution were also a matter of importance to confirm hydrocarbon-charging to reservoir intervals. Accordingly, 1D-basin model was established so as to complete the story of petroleum system analysis in the area. We utilized dataset of seismic, log, core, and thin-section data; and applied both object-based and pixel-based, SIS (Sequential Indicator-Simulation) and SGS (Sequential Gaussian-Simulation), stochastic modeling algorithms upon simulating rock and fluid properties. The results show that the Jurassic succession constitutes a third-order depositional sequence of fluvio-estuarine units, subdivided into five sedimentary facies-associations. Fluvial and tidal-bar facies associations enrich medium-grained sandstones, deposited in subaerial and subaqueous conditions respectively, featuring significant reservoir quality. Given best reservoir-quality, and considerable thickness, the tidal sand-bars ought to catch attention of future development strategies and be considered for investigation in similar settings.