INTERFACIAL TENSION REDUCTION OF LIGHT OIL WITH SULFONATE-STRUCTURED SURFACTANTS FOR ENHANCED OIL RECOVERY APPLICATION

Abstract

Surfactant flooding is an effective technique for enhance oil recovery. The appropriate surfactant is injected into the production well to reduce oil-water interfacial tension. In this study, the interfacial tension of light oil from the northern oilfield with sulfonate-structure surfactant solutions are measured. In addition, the parameters such as pressure, type of surfactant solution, surfactant concentration, temperature, salinity, divalent and co-surfactant on the interfacial tension are investigated. The results show the less effect of pressure on interfacial tension reduction because the experiment performs in the liquid phase. For the effect of type of surfactant solution, the surfactant with the similar equivalent alkane-carbon number (EACN) value of crude oil will demonstrate the higher performance in lowing the interfacial tension compared with the others. Surfactant concentration has an important role in the reduction of interfacial tension accounting to 98.23% because the higher concentration represents to higher in surfactant monomer in solution resulting in lowering interfacial tension. Interfacial tension reduces when the temperature is increased for all surfactant types. Salinity can also reduce the interfacial tension in all range of surfactant concentration. Divalent ions have less impact on Interfacial tension reduction. In addition, co-surfactant can be used to increase the solubility of surfactant in solution. However, the increasing of surfactant concentration shows the negative effect on interfacial tension reduction in this study because the overwhelming amount of surfactant monomer will stimulate the micelle formation resulting reduce the surfactant monomer at the interface. The results can be used as the fundamental data for performing surfactant flooding at the northern oilfield and preliminary data for future studies such as core flooding test and enhanced oil recovery (EOR) simulation.