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Mohamed Omran

British University of Egypt, Egypt

Title: Enhancing unconventional gas reservoirs characterization

Biography

Biography: Mohamed Omran

Abstract

Unconventional reservoirs can add huge amounts of additional energy to our world resources bases like organic shale in terms of shale gas, shale oil, tight gas and coal-bed methane. These reservoirs can transform the world global energy market through advances in reservoir characterization, drilling, and completion technologies. Reservoir characterization and properties have great influences on the exploration and development processes, it is not through a single discipline that can provide a fulfill description of the reservoir characteristics especially for unconventional reservoirs. Moreover, unconventional sources can be defined by their difference of intrinsic of their geological sittings, origins, and tapping mechanisms, thus having different methodologies for exploration, production, and development methods. Therefore, it is very important to well express and identify the necessary parameters for unconventional characterization of these reservoirs for defining reservoir rock and fluid properties in terms of total organic carbon content, gas adsorption, level of maturity, original fluids in place, and etc. The results showed that Upper Safa formation can be considered as shale gas unconventional resource play that consists mainly of kaolinite clay and other mixed clay types. Geochemical pyrolysis analysis is used to confirm the presents of kerogen type III as a shale gas potential reservoir. Interpretation analysis has been used also to confirm the presence of hydrocarbon potential in shale reservoirs depend on the readings that indicating most of shale play. Moreover, brittleness ratio average value equals to 50% brittleness. Integration between results of TOC (Total Organic Carbon) from both of geochemical and petrophysical analysis methods within the same range. However, TOC results which are obtained within the ranges of very good petroleum potential according to Rock Eval pyrolysis from 2% to 4% TOC. Some petrophysical analysis methods for determination of TOC results are applicable to Upper Safa formation as Schmoker, Modified Schmoker, NMR, and Uranium TOC. Recent Publications 1. M A F Omran and Attia Attia (2018) New approach for unconventional reservoirs rock typing characterization: Egyptian unconventional gas reservoirs. Petro. Chem. Indus. Intern. 1(1):1-7.