Anqi Du scite author profile

In this work, a coflowing microfluidic device was used to determine the influence of different mixed sodium dodecyl sulfate (SDS)-poly(ethylene glycol) (PEG) compound systems on dynamic interfacial tension and, by extension, corresponding emulsion droplet sizes. The aqueous solutions were used as the continuous phase in the microfluidic device, while octane was used as the organic dispersed phase. Combined SDS-PEG systems lower the interfacial tension more than either component can alone up to the critical aggregation concentration (CAC) of SDS. Octane droplet sizes produced in the microfluidic device using combined SDS-PEG systems were smaller than those produced using SDS alone, and a reduction in dynamic interfacial tension as determined by drop size followed a pattern similar to that observed in the static case (PEG4000 > PEG600 > PEG400 > PEG200 > PEG8000) with the exception of PEG8000. Finally, a previously formulated model relating interfacial tension to droplet size was used to estimate the dynamic interfacial tensions in the microfluidic device.

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Application of gemini viscoelastic surfactant with high salt in brine-based fracturing fluid

Mao

Zhang

et al. 2021

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Anqi Du

Preparation of a novel sulfonic Gemini zwitterionic viscoelastic surfactant with superior heat and salt resistance using a rigid-soft combined strategy

Experimental Study on Dynamic Interfacial Tension with Mixture of SDS–PEG as Surfactants in a Coflowing Microfluidic Device

Application of gemini viscoelastic surfactant with high salt in brine-based fracturing fluid

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