Overview of the Late Jurassic Madbi-Sab'atayn petroleum system in the Marib Concession, northwestern Sab'atayn Basin (Yemen): hydrocarbon from source to trapping

The Marib Concession in the northwestern Sab'atayn Basin is the most conventional petroleum exploration activities. Although the Marib Concession is an established hydrocarbon province due to the accumulation of Mesozoic sediments some of which act as good source and reservoir rocks, still ther...

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Bibliographic Details
Published in:Arabian journal of geosciences 2022-02, Vol.15 (3), Article 319
Main Authors: Hakimi, Mohammed Hail, Varfolomeev, Mikhail, Qadri, Syed Mohammad Talha, Lashin, Aref, Yelwa, Nura Abdulmumini, Radwan, Ahmed, Saeed, Shadi
Format: Article
Language:English
Subjects:
Basins
Cretaceous
Earth and Environmental Science
Earth science
Earth Sciences
Entrapment
Exploitation
Expulsion
Geochemistry
Gondwana
Hydrocarbons
Jurassic
Kerogen
Mesozoic
Oil and gas exploration
Oil exploration
Oil reservoirs
Original Paper
Peak oil
Permeability
Petroleum
Petroleum hydrocarbons
Porosity
Reflectance
Reservoirs
Resources
Rifting
Rocks
Sandstone
Sedimentary rocks
Sediments
Shale
Shales
Stratigraphic traps
Stratigraphy
Tectonics
Total organic carbon
Trapping
Vertical migration
Vertical migrations
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Summary:The Marib Concession in the northwestern Sab'atayn Basin is the most conventional petroleum exploration activities. Although the Marib Concession is an established hydrocarbon province due to the accumulation of Mesozoic sediments some of which act as good source and reservoir rocks, still there is a gap in developing a better understanding the petroleum system of the region. This study identifies the characterization and effectiveness of the Late Jurassic Madbi-Sab'atayn petroleum system for the Marib Concession and reveals Kimmeridgian-Tithonian Madbi Shales and Tithonian Alif sandstones as the source and reservoir rocks, respectively. To analyze its source rock and reservoir characteristics, model the generation and migration histories, and outline the entrapment style and effective seals of the petroleum system, integrated geochemical and geological modeling techniques were used. The shale intervals within the Lam and Meem Members of the Late Jurassic Madbi Formation are considered to be the main source rocks in the Marib Concession and characterized by fairly high total organic content (TOC%) of up to 9.0%, whereas the hydrogen index (HI) ranges from 50 to 595 mg HC/g TOC, indicating that the kerogen types contained within these shales are mainly Type II and mixed Type II/III, with a significant amount of Type III. A wide range of vitrinite reflectance values (0.50–2.61 R 0 %) is indicative of the Madbi shales maturity and illustrates that the Madbi source rock is currently within the peak oil to gas window. Geochemical oil-source rock correlation analyses propose that the hydrocarbon’s regional distribution in the Marib Concession was mainly derived from the Kimmeridgian age Madbi shales. The reservoir units are discovered in various stratigraphic sequences of Late Jurassic period, including Alif and Seen Members of the Sab'atayn Formation as well as Lam Member of the Madbi Formation. Still, the sandstones of the Alif Member of the Sab'atayn Formation acting as the primary productive reservoir within the studied Marib Concession. The best reservoir quality of the Alif sandstones is characterized by high porosity and permeability values up to 33% and 10,000 mD, respectively. The Tithonian salt and shales within the Safir Member of the Sab'atayn Formation represent good seal rocks that underlie the hydrocarbon reservoir rocks in Marib Concession. The main tectonic development within the Marib Concession in the northwestern Sab'atayn Basin is occurred a
ISSN:1866-7511
1866-7538
DOI:10.1007/s12517-022-09576-4