Assessment of the Upper Cretaceous Abu Roash carbonate source rocks from the Beni Suef field, Western Desert, Egypt
Assessment of the Upper Cretaceous Abu Roash carbonate source rocks from the Beni Suef field, Western Desert, Egypt
Global sea-level rise during the Early Turonian-Late Cenomanian Bonarelli event resulted in oceanic anoxia and deposition of organic-rich source rocks across Northern Africa, such as the Late Cretaceous Abu Roash-F carbonates. Here, using thin sections, SEM, XRF, standard core analysis, and Rock-Eval pyrolysis data, we examine the petrographic and geochemical properties of the Abu Roash-F (AR-F) carbonate source rocks. These deep marine carbonates consist of dominantly planktonic foraminifera and calcispheres and are classified as wackestone. Extensive micritization, calcite cementation, and ferroan dolomite cement replacement (filling the bioclastic tests and chambers) are identified as the principal diagenetic factors. Core measurements indicate that these carbonates have very low porosity below 3% and horizontal permeability of 0.003 mD (3x10-18 m2), which is also supported by the observed isolated nanopores in SEM. The elemental concentration from the XRF data confirms a highly reducing depositional environment that facilitated the organic richness during the Early Turonian Oceanic Anoxia Event 2 (OAE2). The studied carbonate interval consists of Type-II kerogen in the oil window with a Tmax of about 440 °C and up to 4.2 wt.% TOC indicating ‘fair’ to ‘excellent’ organic richness and a very high probability of active oil generation and expulsion. Following the wireline logs and core data, the self-sourcing unconventional reservoir potential of the AR-F carbonates has been emphasized.
Egypt, Organic richness, XRF, carbonates, petrography, petrophysics
Farouk, Sherif
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Sen, Souvik
ea7744dd-2b55-4ae4-809d-49dae1604390
Ahmed, Fayez
adf9fc5e-9bf7-4e41-9b7f-56e5a7b4268f
Qteishat, Abdelrahman
40ce4b96-b7f5-4ee2-9506-3b3eb8d890e9
Al-Kahtany, Khaled
eca02b2e-9f3b-4137-acd4-7a88fb4a76f1
Moreno, Hector Marin
e466cafd-bd5c-47a1-8522-e6938e7086a4
Mitra, Sourav
f071e254-84c4-495b-bdf0-2706d91e47ff
Arafat, Mohamed
db6efd06-a31b-4a6c-8e44-243fbe1ef419
July 2024
Farouk, Sherif
14cd47bc-e9e7-4b19-a4fe-e6b6a47fc3b4
Sen, Souvik
ea7744dd-2b55-4ae4-809d-49dae1604390
Ahmed, Fayez
adf9fc5e-9bf7-4e41-9b7f-56e5a7b4268f
Qteishat, Abdelrahman
40ce4b96-b7f5-4ee2-9506-3b3eb8d890e9
Al-Kahtany, Khaled
eca02b2e-9f3b-4137-acd4-7a88fb4a76f1
Moreno, Hector Marin
e466cafd-bd5c-47a1-8522-e6938e7086a4
Mitra, Sourav
f071e254-84c4-495b-bdf0-2706d91e47ff
Arafat, Mohamed
db6efd06-a31b-4a6c-8e44-243fbe1ef419
Farouk, Sherif, Sen, Souvik, Ahmed, Fayez, Qteishat, Abdelrahman, Al-Kahtany, Khaled, Moreno, Hector Marin, Mitra, Sourav and Arafat, Mohamed
(2024)
Assessment of the Upper Cretaceous Abu Roash carbonate source rocks from the Beni Suef field, Western Desert, Egypt.
Journal of African Earth Sciences, 215, [105272].
(doi:10.1016/j.jafrearsci.2024.105272).
Abstract
Global sea-level rise during the Early Turonian-Late Cenomanian Bonarelli event resulted in oceanic anoxia and deposition of organic-rich source rocks across Northern Africa, such as the Late Cretaceous Abu Roash-F carbonates. Here, using thin sections, SEM, XRF, standard core analysis, and Rock-Eval pyrolysis data, we examine the petrographic and geochemical properties of the Abu Roash-F (AR-F) carbonate source rocks. These deep marine carbonates consist of dominantly planktonic foraminifera and calcispheres and are classified as wackestone. Extensive micritization, calcite cementation, and ferroan dolomite cement replacement (filling the bioclastic tests and chambers) are identified as the principal diagenetic factors. Core measurements indicate that these carbonates have very low porosity below 3% and horizontal permeability of 0.003 mD (3x10-18 m2), which is also supported by the observed isolated nanopores in SEM. The elemental concentration from the XRF data confirms a highly reducing depositional environment that facilitated the organic richness during the Early Turonian Oceanic Anoxia Event 2 (OAE2). The studied carbonate interval consists of Type-II kerogen in the oil window with a Tmax of about 440 °C and up to 4.2 wt.% TOC indicating ‘fair’ to ‘excellent’ organic richness and a very high probability of active oil generation and expulsion. Following the wireline logs and core data, the self-sourcing unconventional reservoir potential of the AR-F carbonates has been emphasized.
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Accepted/In Press date: 29 April 2024
e-pub ahead of print date: 30 April 2024
Published date: July 2024
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© 2024 Elsevier Ltd
Keywords:
Egypt, Organic richness, XRF, carbonates, petrography, petrophysics
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Local EPrints ID: 490136
URI: http://eprints.soton.ac.uk/id/eprint/490136
ISSN: 1464-343X
PURE UUID: 59781bc3-d7f1-4fcb-bf75-aaccbb75b40d
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Date deposited: 15 May 2024 16:34
Last modified: 12 Jul 2024 02:13
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Contributors
Author:
Sherif Farouk
Author:
Souvik Sen
Author:
Fayez Ahmed
Author:
Abdelrahman Qteishat
Author:
Khaled Al-Kahtany
Author:
Hector Marin Moreno
Author:
Sourav Mitra
Author:
Mohamed Arafat
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