Evidence for active generation and seepage of sub-salt natural gas/condensate blend in the east offshore Nile Delta, Egypt: Integrated geochemical, petrophysical and seismic attribute approaches
Leila M. Radwan A.A. Ismail A. Eysa E.A.
January 2025KeAi Communications Co.
Petroleum Science
2025#22Issue 1130 - 150 pp.
Offshore Nile Delta in Egypt represents an enormous hydrocarbon province with recent projected gas and condensate discoveries of more than 50 trillion cubic feet “TCF”. Most of these occur in the post-salt hydrocarbon plays where biogenic gases are dominant. This study integrates organic geochemistry, seismic geomorphology and petrophysics in order to decipher the origin, and accumulation conditions of the wet gas/condensate blend in the Upper Miocene sub-salt Wakar Formation sandstones in Port Fouad Marine “PFM” Field, offshore Nile Delta. Hydrocarbon pay zones are scattered thin (<10 m) sandstones deposited in as turbiditic channel/levee complex facies. Spatial distribution of vertical gas chimneys (∼2 km wide) rooting-down to the Messinian Rosetta salt is associated with the lateral pinching-out of the turbiditic sandstones. Organically-rich (total organic carbon “TOC” > 1 w.t.%, hydrogen index “HI” > 200 mgHC/gTOC) and mature (Tmax > 430 °C, vitrinite reflectance “VR” > 0.6 %Ro), source rocks are restricted to Upper Miocene Wakar and Oligo-Miocene Tineh formations. The latter contains more mature organofacies (up to 1.2 %Ro) and type II/III kerogen, thereby demonstrating a good capability to generate wet gases. The studied gas is wet and has thermogenic origin with signs of secondary microbial alteration, whereas the condensate contains a mixture of marine and terrestrial input. Molecular biomarkers of the condensate, isotopic and molecular composition of the gas reveals a generation of condensate prior to gas expulsion from the source. The Wakar sandstones have a heterogeneous pore system where three reservoir rock types (RRTI, RRTII and RRTIII). RRTI rocks present the bulk composition of the Wakar pay zones. Spatial distribution of RRTI facies likely control the accumulation of the sub-salt hydrocarbons. Our results provide a new evidence on an active petroleum system in the sub-salt Paleogene successions in the offshore Nile Delta where concomitant generation of gas/condensate blend has been outlined.
Biomarkers , Gas chimneys , Hydrocarbon geochemistry , Petrophysical evaluation , Rock-typing , Source rock
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Geology Department, Faculty of Science, Mansoura University, Mansoura, 35516, Egypt
School of Mining and Geosciences, Nazarbayev University, Astana, 010000, Kazakhstan
Department of Geology, Faculty of Science, Al-Azhar University, Assiut Branch, Assiut, 71524, Egypt
Department of Geology, Faculty of Science, Helwan University, Cairo, 11795, Egypt
Department of Physical and Environmental Sciences, Texas A&M University—Corpus Christi, 6300 Ocean Drive, Corpus Christi, 78412, TX, United States
Geology Department, Faculty of Science, Zagazig University, Zagazig, 44519, Egypt
Geology Department
School of Mining and Geosciences
Department of Geology
Department of Geology
Department of Physical and Environmental Sciences
Geology Department
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