Review of EOR-based techniques for enhancing sweep efficiency in carbon geo-storage
Muhammad Shehryar, Arshad Raza, Guenther Glatz, Muhammad Shahzad Kamal, Mohamed Mahmoud, Ahmad Mahboob, Saad Alafnan
Abstract
Carbon dioxide (CO 2 ) storage in geological reservoirs faces viscous fingering, gravity override, and poor mobility control due to its low viscosity and resulting inefficient distribution and compromised storage capacity. Therefore, an urgent need arises to thicken the CO 2 and enhance its viscosity for better mobility control and uniform distribution across the reservoir. This study examines the different schemes to enhance sweep efficiency in subsurface storage. In the context of polymer-, surfactant-, and foam-based technologies, the study defines optimization for CO 2 injection and retention. Sweep efficiency is critical in maximizing reservoir usage and minimizing the risk of leakage by ensuring even dispersion of CO 2 . Polymers could increase CO 2 viscosity, thereby yielding better mobility control and wider reservoir coverage. Surfactants reduce interfacial tension, enabling CO 2 to invade less permeable areas, while foams act as conformance control agents, changing the flow path of CO 2 away from the high permeability and into the underused areas. The study further includes advanced materials like CO 2 -soluble polymers, fluorinated surfactants, and nanoparticle-stabilized foams with superior stability under high-pressure, high-temperature conditions typical of deep reservoirs. Though effective, these approaches are challenged with chemical degradation, economic feasibility and environmental consequences. The study delves into these limitations and suggests integrated approaches involving polymers, and surfactant foams for enhanced sweep efficiency. These findings are a step towards realizing surfactant efficient and sustainable carbon sequestration technologies and contribute to the efforts of the world to mitigate climate change.