Skip to main content
User Image

Mahmood Abdullah

Assistant Professor

Assistant Professor

كلية العلوم
Department of Chemistry, College of Science, P.O. Box 2455, Riyadh-11451, Kingdom of Saudi Arabia, Building 5, 2B, 105
publication
Conference Paper
2024

Investigation on Rheological Characterization and Salt Tolerance Potential of Paraffinic O/W Emulsions of Natural Surfactant for Crude Emulsification and Mobilization

While the presence of long-chain paraffinic compounds in crude oil seriously impacts oil production, they tend to form emulsions during flow through restricted pores. In turn, these emulsions help mobilize additional oil due to pore throat plugging, reducing interfacial tension, altering the wettability, and facilitating flow redistribution. The inclusion of a surfactant, especially of a natural biodegradable origin, can not only help promote emulsion formation to boost oil recovery but also lower the chemical footprint of the oil recovery process, making the entire process more sustainable. Therefore, in this study, a natural surfactant obtained from Fenugreek seeds has been explored to produce oil-in-water emulsions in conjunction with oil phases: n-pentane (EP1), n-hexane (EP2), n-heptane (EP3), and ndodecane (EP4). Using visual observation and interfacial tension measurements over a range of 0.05−0.3 wt %, the optimum emulsifying surfactant concentration was identified to be 0.2 wt %. The emulsions were observed to be creamed by separating the aqueous phase over a span of 10 days, which was observed under a microscope. All emulsions tend to exhibit a shear thinning profile at ambient conditions, and the best fit was observed with Power Law with R2 values of 0.93, 0.91, 0.94, and 0.97 for solutions EP1, EP2, EP3, and EP4, respectively. Furthermore, the effect of monovalent (NaCl) and divalent (CaCl2) salts was explored, with EP4 found to be comparatively more stable than other emulsions. To understand the effect of heterogeneity of reservoirs, contact angle measurements were performed on sand base prepared with different sizes and pore size was found to be a critical factor influencing wettability alteration. Finally, the potential of natural surfactant in displacing the oil was visualized using a microfluidic setup wherein the injected surfactant solution was able to mobilize oil, paving a potential pathway for future field implementation for enhanced oil recovery operations.

Publisher Name
ACS
Volume Number
63
Magazine \ Newspaper
Industrial & Engineering Chemistry Research
Pages
10825–10841
more of publication
publications

While the presence of long-chain paraffinic compounds in crude oil seriously impacts oil production, they tend to form emulsions during flow through restricted pores. In turn, these emulsions help…

by Alpana Singh, Aditya Raj Kashyap, Mahmood M. S. Abdullah, Shashank Vajpayee, and Tushar Sharma
2024
Published in:
ACS
publications

The objective of this study is to synthesize novel heterocyclic scaffolds containing a thiophene moiety using easily accessible acetoacetamide as a key synthon. The reaction of acetoacetamide with…

by Altaf S. Almatari, Ali Saeed, Ghada E. Abdel-Ghani, Mahmood M. S. Abdullah, Amr El-Demerdash, Ehab Abdel-Latif
2024
Published in:
Wiley
publications

In this present work, a novel CuO/ZnFe2O4 nanocomposites has been fabricated via hydrothermal-assisted synthesis using Ulva lactuca L. extract as both a reducing and capping agent A comprehensive…

by Ravichandran D, Mahmood M.S. Abdullah, Vasanthakumar V, Ranjith R, Suganya S, Meena R, Murugesan S
2024
Published in:
Sciencedirect