Preliminary evaluation of a natural surfactant extracted from Myrtus communis plant for enhancing oil recovery from carbonate oil reservoirs

Iman Nowrouzi,Amir H Mohammadi,Abbas Khaksar Manshad

doi:10.1007/s13202-021-01336-6

Iman Nowrouzi, Amir H Mohammadi + Show 1 more

Open Access

https://doi.org/10.1007/s13202-021-01336-6

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Abstract

Surfactants are among the materials used to improve water properties for injection into oil reservoirs, and reduce injection phase and crude oil interfacial tension (IFT). Recently, the interest in the use of natural surfactants has increased and is constantly on the rise to solve some challenges of using chemical surfactants such as incompatibility with the environment and the high cost. In this study, we have used aqueous extract of powdered leaf of Myrtus communis as an available source of natural surfactant. The extracted surfactant was characterized by TGA, 1H NMR and FTIR techniques. The surfactant efficiency was demonstrated by performing some experiments including IFT and injection of chemical slug and surfactant into carbonate plugs. The surfactant adsorption on carbonate rock was also studied. It was observed that this natural surfactant can reduce IFT to 0.861 mN/m at surfactant critical micelle concentration (CMC) of 5000 ppm. This minimum IFT was further reduced at optimum salinity and alkali. Finally, an increase of 14.3% oil recovery by surfactant flooding and 16.4% oil recovery by ASP slug injection containing NaOH alkali and partially hydrolyzed polyacrylamide (PHPA) polymer with 0.5 PV volume from carbonate plugs was achieved.

Highlights

In a chemical water injection program, what is most important is the management of additives in aqueous phase to enhance oil recovery
We have studied the extracted saponin from Myrtus communis as a natural surfactant
The saponin extracted from Myrtus communis as a natural surfactant was characterized and used for chemical water injection into carbonate plugs

Summary

Introduction

In a chemical water injection program, what is most important is the management of additives in aqueous phase to enhance oil recovery. Najimi et al (2019) used ionic liquid-based surfactants as IFT reducing agents They obtained an IFT reduction of 70% at very high salinity. Pal et al (2018b) prepared surfactant from coconut oil and achieved an ultra-low IFT and altered the quartz wettability Pillai et al (2018) used ionic liquids with the basis of imidazolium and showed that the ionic liquids can work at harsh conditions of the reservoir in terms of salinity and temperature They increased oil recovery by about 32% using a chemical slug injection. Rostami et al (2017) reduced the IFT and modified wettability using a Lysine Derivative surfactant They achieved an increase of 12% in oil production by surfactant injection. The impacts of CaCl2, NaCl, Na2SO4, K2SO4, KI, KCl, MgCl2 and MgSO4 salinities and NaOH alkalinity on the surfactant efficiency in IFT reduction were investigated, and the surfactant adsorption onto carbonate rock and the pH of the surfactant solutions were studied

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