SPE 165909 Electrokinetics Assisted Surfactant-EOR to Optimize Mature Waterfloods in AbuDhabi Carbonate Reservoirs Arsalan Ansari, Muhammad Haroun, Nabeela Al Kindy, Basma Ali, Reena Amatya Shrestha, Hemanta Sarma, The Petroleum Institute, Abu Dhabi Copyright 2013, Society of Petroleum Engineers This paper was prepared for presentation at the SPE Asia Pacific Oil & Gas Conference and Exhibition held in Jakarta, Indonesia, 22–24 October 2013. This paper was selected for presentation by an SPE program committee following review of information contained in an abstract submitted by the author(s). Contents of the paper have not been reviewed by the Society of Petroleum Engineers and are subject to correction by the author(s). The material does not necessarily reflect any position of the Society of Petroleum Engineers, its officers, or members. Electronic reproduction, distribution, or storage of any part of this paper without the written consent of the Society of Petroleum Engineers is prohibited. Permission to reproduce in print is restricted to an abstract of not more than 300 words; illustrations may not be copied. The abstract must contain conspicuous acknowledgment of SPE copyright. Abstract EOR technologies such as CO 2 flooding and chemical floods have gained increased interest due to the decreasing number of new-field discoveries, increasing number of maturing fields and higher oil price. Therefore, promising results have been demonstrated in both lab scale and field pilots. Among the emerging EOR technologies, is the surfactant EOR integrated with the application of electrically enhanced oil recovery (EEOR), which is gaining increased popularity due to a number of reservoir- related advantages such as reduction in fluid viscosity, water-cut, increased reservoir permeability, reduced HSE concerns and increased targeting of the unswept oil. Core flood tests were performed using carbonate core-plugs from Abu Dhabi producing oilfields which were saturated with medium crude oil in a specially designed EK core-flood setup. Electrokinetics (DC voltage of 2V/cm) was applied on these oil saturated cores while waterflooding simultaneously until the ultimate recovery was reached. In the second stage, the recovery was further enhanced by injecting non- ionic surfactant (APG) along with sequential application of EK. This was compared with simultaneous application of EK-assisted surfactant flooding on oil-wet cores. A smart Surfactant-EOR process was done in this study that allowed shifting from sequential to simultaneous Surfactant-EOR alongside EEOR. The experimental results at ambient conditions show that the application of waterflooding on the carbonate cores yields recovery of approximately 42-64% along with an additional 6-14% incremental recovery that resulted upon the injection of non-ionic surfactant. However, there was a further 12-15% recovery enhanced by the application of EK-assisted surfactant flooding, which could be promising for water swept reservoirs. In addition, EK was shown to enhance the carbonate reservoir’s permeability by approximately 11-29%. Furthermore, this process can be engineered to be a greener approach as the water requirement can be reduced upto 20% in the presence of electrokinetics which is economically feasible.