Laboratory evaluation of red onion skin extract and its derivative as biomass-based enhanced oil recovery agents

Publication Type

Journal Article

Name of Author

• Ann Amalate Obuebite, Department of Petroleum Engineering, Niger Delta University, PMB 071, Wilberforce Island, Bayelsa State, Nigeria
• Cynthia Onyekachi Victor-Oji, Department of Pure & Industrial Chemistry, University of Port Harcourt, PMB 5323, Port Harcourt, Rivers State, Nigeria
• William Iheanyi Eke, Department of Pure & Industrial Chemistry, University of Port Harcourt, PMB 5323, Port Harcourt, Rivers State, Nigeria

Publication Date (Issue Year)

2023

Journal Name

Scientific African

Abstract

The use of natural alternatives as oilfield chemicals is gradually gaining attention among researchers due to their eco-friendly nature. The aim of this study was to determine the efficiency of red onion skin extract (ROSE) at recovering residual oil using the mechanism of surfactant flooding in sandstone reservoirs at reservoir conditions and compare its effectiveness in its pristine and modified state. ROSE was obtained by solvent extraction of the waste biomass (red onion skin) using acetone. The extract was chemically modified using glutaraldehyde. Phase behavior analysis in the presence of divalent ions at high temperatures (80 ˚C) and sandstone core flooding were performed to determine the fluid compatibility and displacement efficiency. Results show high compatibility and solubility of pristine (unmodified) and modified ROSE in soft and hard brine. Core flooding analysis showed a higher recovery of 32.1% and 36.5% original oil in place (OOIP) for 0.3 wt.% modified ROSE as compared to a recovery factor of 31.8% and 35.0 % OOIP for 0.5% unmodified ROSE in soft and hard brine respectively. It further reveals an increase in additional recovery at surfactant concentration in hard brine above critical micelle concentration (CMC). Results of statistical significance test showed that modified ROSE exhibited superior performance and a higher recovery relative to unmodified ROSE especially in hard brine. This is a novel work as red onion skin extract was derivatized with glutaraldehyde and successfully recovered additional residual oil under hard brine and reservoir temperature making them potential surface-active agents for chemical enhanced oil recovery.

Keywords

Red onion skin, extSurfactant flooding, EOR, Core flooding, Glutaraldehyde, Agro-waste, biomass

Grantee Name(s)

Ann Amalate Obuebite

Project Title

Developing Orange Mesocarp and Red Onion Skin into Multifunctional Materials for Oilfield Applications

Funding Statement

This work was carried out with the financial support of icipe- World Bank Financing Agreement no. D347-3A and World Bank-Korea Trust Fund Agreement No TF0A8639 for PASET Regional Scholarship and Innovation Fund.

Recommended Citation

Obuebite, A. A., Victor-Oji, C. O., & Eke, W. I. (2023). Laboratory evaluation of red onion skin extract and its derivative as biomass-based enhanced oil recovery agents. Scientific African https://doi.org/10.1016/j.sciaf.2022.e01460