Abstract
Enhanced oil recovery (EOR) processes have a great potential to maximize oil recovery factor of the existing reservoirs, where a significant volume of the unrecovered oil after conventional methods is targeted. Application of chemical EOR techniques includes the process of injecting different types of chemicals into a reservoir to improve the overall sweep efficiency. Surfactant flooding is one of the chemical EOR used to reduce the oil–water interfacial tension and to mobilize residual oil toward producing wells. Throughout the process of surfactant flooding, selecting a suitable surfactant for the reservoir conditions is quite challenging. Surfactants tend to be the major factor associated with the cost of an EOR process, and losing surfactants leads to substantial economic losses. This process could encounter a significant loss of surfactant due to adsorption into the porous media. Surfactant concentration, salinity, temperature, and pH were found to be as the main factors that influence the surfactant adsorption on reservoir rocks. Most of the research has been conducted in low-temperature and low-salinity conditions. Only limited studies were conducted in high-temperature and high-salinity (HT/HS) conditions due to the challenging for implementation of surfactant flooding in these conditions. This paper, therefore, focuses on the reviews of the studies conducted on surfactant adsorption for different surfactant types on different reservoir rocks under different reservoir conditions, and the influence of surfactant concentration, salinity, temperature, and pH on surfactant adsorption.
Highlights
Rising demand for oil has been noticed due to the fact that it remains the world’s most powerful source of energy
Surfactant adsorption magnitude differs at different pHs depending on the surfactant charge which interacts with the charges available at the surface
This review highlights the influence of surfactant concentration, salinity, temperature, and pH on surfactant adsorption
Summary
Rising demand for oil has been noticed due to the fact that it remains the world’s most powerful source of energy. These surfactants are widely used in EOR processes, and this is due to (1) their relatively low cost of manufacture, (2) they exhibit relatively low adsorption on sandstone rocks whose surface charge is negative, (3) their efficiency to reduce IFT, (4) their stability at high temperatures (Tadros 2014).
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More From: Journal of Petroleum Exploration and Production Technology
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