Noorah A. Faqihi scite author profile

New non-ionic surfactants based on alkylamine and poly(ethylene glycol) dimethacrylate were synthesized by one-step Aza-Michael addition reaction. The surfactants’ chemical compositions, surface and interfacial activities, micellization, and zeta potential were characterized. Their surface and interfacial activities recommended the application as demulsifiers for water in Arabian heavy oil emulsions (w/o). The demulsification of this type of emulsion has attracted researchers’ attention because of its high stability with water droplets in the microscale. The outcome of using the prepared surfactants showed high performance as emulsion breakers, as the demulsification efficiency reached 100% for w/o emulsions with different water to oil ratios (50:50, 30:70, and 10:90).

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Synthesis and Performance of Two New Amphiphilic Ionic Liquids for Demulsification of Water-in-Crude Oil Emulsions

Abdullah

Al‐Lohedan

Faqihi

2023

ACS Omega

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This work aims to synthesize and apply two novel amphiphilic ionic liquids (AILs) for the demulsification of water-in-crude oil (W/O) emulsions. To do that, 4-tetradecylaniline (TA) and 4-hexylamine (HA) were etherified using tetrethylene glycol (TEG) in the presence of bis(2chloroethoxyethyl)ether (BE) as a cross-linker, yielding corresponding ethoxylated amines TTB and HTB. The obtained ethoxylated amines TTB and HTB were quaternized with acetic acid (AA), obtaining corresponding AILs TTB-AA and HTB-AA. The chemical structures, surface tension (ST), interfacial tension (IFT), and micelle size were investigated with various techniques. The performance of TTB-AA and HTB-AA to demulsify W/O emulsions was investigated using different influencing factors, including the demulsifier concentration, water content, salinity, and pH. Additionally, the obtained results were compared with a commercial demulsifier. The results indicated that the demulsification performance (DP) increased as the demulsifier concentration increased and the water content decreased; however, increased salinity slightly improved the DP. The data also showed that the highest DPs were achieved at a pH of 7, which suggested a change in the chemical structure of these AILs at a lower and higher pH due to their ionic structure. Furthermore, TTB-AA demonstrated higher DP than HTB-AA, which could be explained by its higher ability to reduce IFT due to a longer alkyl chain than that of HTB-AA. Furthermore, TTB-AA and HTB-AA showed significant DP compared to the commercial demulsifier especially with W/O emulsions at low water content.

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Noorah A. Faqihi

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Synthesis and Performance of Two New Amphiphilic Ionic Liquids for Demulsification of Water-in-Crude Oil Emulsions

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