Optimization of CO2 WAG Processes in a Selected Carbonate Reservoir-An Experimental Approach

El-Amin, Mohamed F.; Zekri, Abdulrazag Y.; Almehaideb, Reyadh A.; Al-Attar, Hazim

doi:10.2118/161782-ms

Cited by 13 publications

(1 citation statement)

References 15 publications

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“…On the other hand, the injection of CO 2 as a continuous phase would be a superior technique in tight reservoirs. It can reduce the interfacial tension and oil viscosity when injected in miscible conditions (Amin et al 2012;Enayati et al 2018;Zhou et al 2017). Continuous Gas Injection (CGI) would be a proper method in water-wet reservoirs during the immiscible gas injection.…”

Section: Introductionmentioning

confidence: 99%

Experimental evaluation of the water-based enhanced oil recovery methods in ultra-tight reservoirs

Zhang

Luo

Liu

et al. 2023

J Petrol Explor Prod Technol

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Water-based enhanced oil recovery methods have been developed to improve the oil production rate from ultra-tight reservoirs. By coupling the effect of surfactant as wettability alteration and water alternating gas injection method, we aimed to determine the most efficient enhanced oil recovery technique. We performed seven injectivity scenarios to measure the oil recovery factor by introducing the alkylbenzene sulfonic acid (LABSA) as a surfactant agent during the active carbonated water alternating gas (ACWAG) injection. To consider the effect of slug size during water alternating gas injection, we used two different slug sizes (0.3, and 0.6). After the water breakthrough, a little oil volume was produced, and the maximum oil recovery factor at 1.5 Pore Volume (PV) was 26%. This issue corresponded to the water channeling after the breakthrough point. For smaller slug sizes (0.3), the maximum oil recovery factor (78%) was reached in smaller pore volumes. One of the exciting results wass the considerable influence of slug ratio during the water alternating gas (WAG) injection, in which it provided more oil recovery factor (83%) when the gas volume is higher than the water volume. Finally, by introducing the coupling effect of active carbonated water (made by LABSA surfactant) and WAG injection, the maximum oil recovery factor was 85%, corresponding to the better efficiency of active carbonated water in interfacial tension reduction. The results of this comprehensive investigation can be extended in ultra-tight sandstone reservoirs and can be applied as a further guideline in numerical simulations. Graphical abstract

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Section: Introductionmentioning

confidence: 99%