Abstract
Surfactant flooding is one of the chemical enhanced oil recovery (CEOR) techniques that can be used to improve oil recovery. The surfactant injection reduces the oil-water interfacial tension and mobilizes residual oil towards the producing well. In this paper, the performance of alkyl ether carboxylate (AEC) and calcium lignosulfonate (CLS) in individual and mixed surfactant systems were investigated based on their ability to reduce the interfacial tension through a spinning drop method. The interfacial tensions of individual and mixed surfactant systems in different brine systems were measured against decane at 25°C and 98°C. The results show that the individual and mixed surfactant systems in 3.5 wt.% NaCl brine has a significant reduction in interfacial tension at 98°C. In contrast, the presence of hardness in 2.5 wt.% NaCl and 1.0 wt.% MgCl2 brine reduces the interfacial tension of the individual AEC surfactant system and mixed surfactant system significantly at 98°C except for the individual CLS system. Meanwhile, the interfacial tension of mixed surfactant system decreases with increasing surfactant concentration in two brine systems and at 98°C. The findings show the significant application of the AEC and CLS surfactant mixture considering the harsh reservoir conditions for the chemical enhanced oil recovery application.
Highlights
This research aims to investigate the effects of hardness and temperature on the interfacial tension (IFT) of individual and mixed surfactant systems for alkyl ether carboxylate (AEC) and calcium lignosulfonate (CLS)
The IFT of individual and mixed surfactant systems of alkyl ether carboxylate (AEC) and calcium lignosulfonate (CLS) against decane in two brine systems were assessed by spinning drop tensiometer at 25°C and 98°C
The IFT of the individual AEC system decreases with increasing the concentration of AEC surfactant in both brine systems and the reduction in IFT at the temperature of 98°C is more substantial with the presence of hardness
Summary
This research aims to investigate the effects of hardness and temperature on the IFT of individual and mixed surfactant systems for alkyl ether carboxylate (AEC) and calcium lignosulfonate (CLS). Lignosulfonate has been introduced as an additive to petroleum sulfonate due to its surface-active properties [1,2,3]. Despite a high tolerance to the temperature, some of the sulfonate surfactants are sensitive to the high salinity conditions [4, 5]. In this research, the performance of carboxylate surfactant which has shown excellent performance under harsh reservoir conditions [5,6,7] was investigated with the calcium lignosulfonate. This research has a significant advantage in the potential alternatives for the CEOR application considering the harsh reservoir conditions
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