Paleozoic oil/gas shale reservoirs in southern Tunisia: An overview

•We review the Paleozoic gas/oil shale potential in southern Tunisia.•We detail the Rhuddanian, Ludlow–Pridoli and Frasnian Hot shales.•We present the essential maps of the three Hot shale levels. During these last years, considerable attention has been given to unconventional oil and gas shale in n...

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Bibliographic Details
Published in:Journal of African earth sciences (1994) 2014-12, Vol.100, p.450-492
Main Author: Soua, Mohamed
Format: Article
Language:English
Subjects:
Berkine Basin
Jeffara Basin
Paleozoic gas/oil shale reservoirs
Southern Chott Basin
Southern Tunisia
Unconventional plays
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Summary:•We review the Paleozoic gas/oil shale potential in southern Tunisia.•We detail the Rhuddanian, Ludlow–Pridoli and Frasnian Hot shales.•We present the essential maps of the three Hot shale levels. During these last years, considerable attention has been given to unconventional oil and gas shale in northern Africa where the most productive Paleozoic basins are located (e.g. Berkine, Illizi, Kufra, Murzuk, Tindouf, Ahnet, Oued Mya, Mouydir, etc.). In most petroleum systems, which characterize these basins, the Silurian played the main role in hydrocarbon generation with two main ‘hot’ shale levels distributed in different locations (basins) and their deposition was restricted to the Rhuddanian (Lllandovery: early Silurian) and the Ludlow–Pridoli (late Silurian). A third major hot shale level had been identified in the Frasnian (Upper Devonian). Southern Tunisia is characterized by three main Paleozoic sedimentary basins, which are from North to South, the southern Chotts, Jeffara and Berkine Basin. They are separated by a major roughly E–W trending lower Paleozoic structural high, which encompass the Mehrez-Oued Hamous uplift to the West (Algeria) and the Nefusa uplift to the East (Libya), passing by the Touggourt-Talemzane-PGA-Bou Namcha (TTPB) structure close to southern Tunisia. The forementioned major source rocks in southern Tunisia are defined by hot shales with elevated Gamma ray values often exceeding 1400 API (in Hayatt-1 well), deposited in deep water environments during short lived (c. 2Ma) periods of anoxia. In the course of this review, thickness, distribution and maturity maps have been established for each hot shale level using data for more than 70 wells located in both Tunisia and Algeria. Mineralogical modeling was achieved using Spectral Gamma Ray data (U, Th, K), SopectroLith logs (to acquire data for Fe, Si and Ti) and Elemental Capture Spectroscopy (ECS). The latter technique provided data for quartz, pyrite, carbonate, clay and Sulfur. In addition to this, the Gamma Ray (GR), Neutron Porosity (ΦN), deep Resistivity (Rt) and Bulk Density (ρb) logs were used to model bulk mineralogy and lithology. Biostratigraphic and complete geochemical review has been undertaken from published papers and unpublished internal reports to better assess these important source intervals.
ISSN:1464-343X
1879-1956
DOI:10.1016/j.jafrearsci.2014.07.009