TY - JOUR
T1 - Toward Reducing Surfactant Adsorption on Clay Minerals by Lignin for Enhanced Oil Recovery Application
AU - Abbas, Azza Hashim
AU - Pourafshary, Peyman
AU - Wan Sulaiman, Wan Rosli
AU - Jaafar, Mohd Zaidi
AU - Nyakuma, Bemgba B.
N1 - Funding Information:
The authors are grateful for the financial support provided by the Ministry of Higher Education Malaysia grant reference vote number: 4C195. Additionally, the authors would like to express their gratiude to Nazarbayev University, School of Mining and Geosciences for covering the Article Process Charge.
Publisher Copyright:
© 2021 The Authors. Published by American Chemical Society.
PY - 2021
Y1 - 2021
N2 - The significant loss of surfactants during reservoir flooding is a challenge in oil field operations. The presence of clay minerals affects the surfactant performance, resulting in surfactant losses. This is because the mineralogical composition of the reservoir results in unpredicted adsorption quantity. Therefore, this paper seeks to investigate Aerosol-OT's adsorption on different quartz/clay mineral compositions during the flow. Also, it investigates adsorption mitigation by preflushing with lignin. The dynamic experiments were conducted on sand packs composed of quartz-sand and up to a 7% clay mineral content. The results obtained from the surfactant losses were compared with/without lignin preflush at different pH values. The main observation was the direct relationship between increasing the composition of clay minerals and the surfactant pore volume required to overcome the adsorption. The highest adsorption calculated was 46 g/kg for 7% kaolinite. Moreover, lignin successfully reduced the adsorption of Aerosol-OT by 60%. Therefore, the results demonstrate that the effects of the clay mineral content on adsorption could be efficiently minimized using lignin at a high pH.
AB - The significant loss of surfactants during reservoir flooding is a challenge in oil field operations. The presence of clay minerals affects the surfactant performance, resulting in surfactant losses. This is because the mineralogical composition of the reservoir results in unpredicted adsorption quantity. Therefore, this paper seeks to investigate Aerosol-OT's adsorption on different quartz/clay mineral compositions during the flow. Also, it investigates adsorption mitigation by preflushing with lignin. The dynamic experiments were conducted on sand packs composed of quartz-sand and up to a 7% clay mineral content. The results obtained from the surfactant losses were compared with/without lignin preflush at different pH values. The main observation was the direct relationship between increasing the composition of clay minerals and the surfactant pore volume required to overcome the adsorption. The highest adsorption calculated was 46 g/kg for 7% kaolinite. Moreover, lignin successfully reduced the adsorption of Aerosol-OT by 60%. Therefore, the results demonstrate that the effects of the clay mineral content on adsorption could be efficiently minimized using lignin at a high pH.
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U2 - 10.1021/acsomega.1c01342
DO - 10.1021/acsomega.1c01342
M3 - Article
AN - SCOPUS:85111333830
SN - 2470-1343
VL - 6
SP - 18651
EP - 18662
JO - ACS Omega
JF - ACS Omega
IS - 29
ER -