Your search keyword '"surfactant-flooding"' showing total 3 results

1. Micellar solubilization of petroleum crudes in surfactant solution under different physicochemical conditions.

Author

Anto, Rincy, Ghosh, Ria, Pal, Samir Kumar, and Bhui, Uttam K.

Subjects

*POLYCYCLIC aromatic hydrocarbons, *NONIONIC surfactants, *ENHANCED oil recovery, *PETROLEUM, *PETROLEUM industry, *MICELLAR solutions, *HEAVY oil

Abstract

• Study investigates the molecular level interaction of crude oil (heavy and light) with different surfactants. • The key findings demonstrate the effect of crude oil components, surfactant type, salinity and pH on oil solubilization. • Crude oil composition influences the micellar solubilization for designing injection fluids for effective EOR. Surfactant assisted enhanced oil recovery holds significant potential for the future. The phase behavior study along with core flooding experiments are the general practice in the petroleum industry for proper selection of customized surfactant solutions for enhanced oil recovery (EOR). However, the detailed molecular-level mechanisms of oil solubilization within the micellar microenvironment of the formed microemulsion is still not well understood for EOR application with different oil composition, or for developing algorithms for appropriate selection of surfactant for optimum recovery from crude oil reservoirs. Therefore, an attempt has been made in this work to understand the interaction mechanisms of crude oil solubilization in surfactant solution under different physicochemical conditions. This study characterizes two crude oil samples (heavy oil − HO and light oil − LO) and reports their interaction behavior with surfactant solutions (commercial surfactant-SA and non-ionic surfactants-SN) using UV–visible and fluorescence spectroscopic techniques under saline and pH condition. The results demonstrate that the commercial surfactant (SA) entraps polycyclic aromatic hydrocarbons (PAH) with comparatively smaller fused aromatic ring (FAR) into the surfactant micelle, whereas, the non-ionic surfactant (SN) incorporates medium and large size FAR from both heavy (HO) and light crude oil (LO). The addition of salt (sodium chloride) to the non-ionic surfactant shifts the peak of the spectra towards a higher wavelength demonstrating the entrapment of large size FAR. Further, the addition of alkali (NaOH) in the saline-surfactant solution cause change in pH of the solution where at higher pH relatively smaller size PAH are solubilized in the micellar microenvironment. The present study demonstrated that oil solubilization changes with change in the physicochemical condition prevailing in the reservoir condition and has deep-rooted implications for designing surfactant solutions for EOR from crude oil reservoirs. [ABSTRACT FROM AUTHOR]

Published

2024

2. Novel Nonylphenol Polyethoxylated Based Surfactants for Enhanced Oil Recovery for High-Mineralization Carbonate Reservoir

Author

Emil R. Saifullin, Polina O. Putintseva, Rustam N. Sagirov, Mikhail A. Varfolomeev, Chengdong Yuan, Roman S. Pavelyev, Sergey A. Nazarychev, Aleksei O. Malahov, Lucia Akimushkina, Dmitrii A. Zharkov, Alexey O. Bykov, and Ulukbek Mirzakimov

Subjects

surfactants, surfactant-flooding, EOR, high-salinity, carbonate reservoirs, Technology

Abstract

Surfactant flooding can mobilize trapped oil and change the wettability of the rock to be more hydrophilic, which increases the oil recovery factor. However, the selection of surfactants is difficult in the case of high salinity conditions. In this work, we synthesized three novel anionic-nonionic surfactants based on widely used nonionic surfactant nonylphenol polyethoxylated (NPEO) and evaluated their efficiencies for enhanced oil recovery (EOR) in high salinity water (20% NaCl). The modified surfactants showed a decrease in interfacial tension (IFT) up to 10 times compared with the nonionic precursor. All surfactants had changed the wettability of rock to be more hydrophilic according to contact angle measurements. The effectiveness of surfactants was proved by spontaneous imbibition experiments, in which the synthesized surfactants showed a better displacement efficiency and increased oil production by 1.5–2 times. Filtration experiments showed an increase in oil recovery factor by 2–2.5 times in comparison with the nonionic NPEO. These promising results prove that the synthesis of new surfactants by modifying NPEO is successful and indicate that these novel surfactants have a great potential for EOR in high salinity reservoirs.

Published

2022

3. Novel Nonylphenol Polyethoxylated Based Surfactants for Enhanced Oil Recovery for High-Mineralization Carbonate Reservoir.

Author

Saifullin, Emil R., Putintseva, Polina O., Sagirov, Rustam N., Varfolomeev, Mikhail A., Yuan, Chengdong, Pavelyev, Roman S., Nazarychev, Sergey A., Malahov, Aleksei O., Akimushkina, Lucia, Zharkov, Dmitrii A., Bykov, Alexey O., and Mirzakimov, Ulukbek

Subjects

*ENHANCED oil recovery, *CARBONATE reservoirs, *SURFACE active agents, *NONYLPHENOL, *NONIONIC surfactants, *PETROLEUM

Abstract

Surfactant flooding can mobilize trapped oil and change the wettability of the rock to be more hydrophilic, which increases the oil recovery factor. However, the selection of surfactants is difficult in the case of high salinity conditions. In this work, we synthesized three novel anionic-nonionic surfactants based on widely used nonionic surfactant nonylphenol polyethoxylated (NPEO) and evaluated their efficiencies for enhanced oil recovery (EOR) in high salinity water (20% NaCl). The modified surfactants showed a decrease in interfacial tension (IFT) up to 10 times compared with the nonionic precursor. All surfactants had changed the wettability of rock to be more hydrophilic according to contact angle measurements. The effectiveness of surfactants was proved by spontaneous imbibition experiments, in which the synthesized surfactants showed a better displacement efficiency and increased oil production by 1.5–2 times. Filtration experiments showed an increase in oil recovery factor by 2–2.5 times in comparison with the nonionic NPEO. These promising results prove that the synthesis of new surfactants by modifying NPEO is successful and indicate that these novel surfactants have a great potential for EOR in high salinity reservoirs. [ABSTRACT FROM AUTHOR]

Published

2022