Abstract
CO2-switchable oligomeric surfactants have good viscosity-reducing properties; however, the complex synthesis of surfactants limits their application. In this study, a CO2-switchable “pseudo”-tetrameric surfactant oleic acid (OA)/cyclic polyamine (cyclen) was prepared by simple mixing and subsequently used to reduce the viscosity of heavy oil. The surface activity of OA/cyclen was explored by a surface tensiometer and a potential for viscosity reduction was revealed. The CO2 switchability of OA/cyclen was investigated by alternately introducing CO2 and N2, and OA/cyclen was confirmed to exhibit a reversible CO2-switching performance. The emulsification and viscosity reduction analyses elucidated that a molar ratio of OA/cyclen of 4:1 formed the “pseudo”-tetrameric surfactants, and the emulsions of water and heavy oil with OA/cyclen have good stability and low viscosity and can be destabilized quickly by introducing CO2. The findings reported in this study reveal that it is feasible to prepare CO2-switchable pseudo-tetrameric surfactants with viscosity-reducing properties by simple mixing, thus providing a pathway for the emulsification and demulsification of heavy oil by using the CO2-switchable “pseudo”-oligomeric surfactants.
Highlights
It has been difficult to meet the current needs of industry and daily life with the output of conventional crude oil, and the exploitation and utilization of unconventional petroleum resources have been considered widely
The heavy oil and the aqueous solution of oleic acid (OA)/cyclen were proportioned to prepare a heavy oil emulsion with low viscosity and switchable stability; in addition, the demulsification effects of the OA/cyclen mixture were analyzed by bubbling CO2
This was due to the fact that at a fixed total concentration of the surfactant, the ion pairs formed by OA and cyclen increased with the amount of OA, and the amount of OA anions acting as surfactants increased
Summary
It has been difficult to meet the current needs of industry and daily life with the output of conventional crude oil, and the exploitation and utilization of unconventional petroleum resources have been considered widely. Lu et al reviewed a number of advanced switchable molecules and materials for emulsification and viscosity reduction of crude oil [9]. Overall, it is of vital significance for the recovery and gathering of heavy oil to identify switchable emulsifiers, which can result in the swift and reversible emulsification and demulsification of the heavy oil. The heavy oil and the aqueous solution of OA/cyclen were proportioned to prepare a heavy oil emulsion with low viscosity and switchable stability; in addition, the demulsification effects of the OA/cyclen mixture were analyzed by bubbling CO2
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