Yipu Liang scite author profile

Two zwitterionic surface-active ionic liquids (SAILs), 3-(1-hexadecyl-3-imidazolio) propanesulfonate (C16IPS) and 3-(1-hexadecyl-3-imidazolio) propanesulfonate β-naphthalenesulfonate (C16IPS-Nsa), were evaluated for their potential application in chemical enhanced oil recovery. It was found that the zwitterionic SAILs had a higher interfacial activity than the traditional SAILs. Interestingly, the C16IPS-Nsa molecule with the large hydrophobic group β-naphthalenesulfonate had a greater ability for reducing the interfacial tension (IFT) of water/crude oil. Moreover, the systematic investigations of the dynamic IFT and the salt and temperature effects further confirmed the proposed mechanism of two zwitterionic SAIL effects on the IFT. The C16IPS-Nsa system exhibited a satisfactory displacement performance (15.3% of initial oil in place), which may be attributed to the transient minimum value (∼1 × 10–3 mN/m) in its dynamic IFT curve.

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Facile construction of gemini-like surfactants at the interface and their effects on the interfacial tension of a water/model oil system

Zhou

Yang

et al. 2017

RSC Adv.

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Yipu Liang

Systematic investigation of the effects of mixed cationic/anionic surfactants on the interfacial tension of a water/model oil system and their application to enhance crude oil recovery

Systematic investigation of ionic liquid-type gemini surfactants and their abnormal salt effects on the interfacial tension of a water/model oil system

Sticky layers affect oil transport through the nanopores of realistic shale kerogen

Systematic Investigation of the Effects of Zwitterionic Surface-Active Ionic Liquids on the Interfacial Tension of a Water/Crude Oil System and Their Application To Enhance Crude Oil Recovery

Facile construction of gemini-like surfactants at the interface and their effects on the interfacial tension of a water/model oil system

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