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Universal Rapid Demulsification by Vacuum Suction Using Superamphiphilic and Underliquid Superamphiphobic Polyurethane/Diatomite Composites

Pan Wu, Qiuxian Luo, Xingyang Zhang, Jian He, Changjun Liu, Wei Jiang

2022ACS Applied Materials & Interfaces19 citationsDOI

Abstract

A process for universal rapid demulsification by vacuum suction using an as-prepared superamphiphilic and underliquid superamphiphobic polyurethane (PU)/diatomite composite has been developed and is used to demulsify kerosene-in-water and water-in-kerosene emulsions with and without a surfactant. The results show that the demulsification rate of all the emulsions exceeds 98.5% in long-term operation, with a stable demulsification speed exceeding 0.303 L/m2 min. When a superhydrophobic channel for separation is added, the oil/water separation efficiency exceeds 99.0%, and the final products are qualified oil and water. This attractive universal demulsification capability of PU/diatomite originates from its underliquid superamphiphobicity, which attracts a continuous phase to form a stable liquid film and thus repels dispersed phase droplets, which have a similar interaction with the surface but are much less abundant. The vacuum forces emulsion droplets into the microstructure of the PU/diatomite cake, where they are compressed, coalesce, and finally demulsified. This observed mechanism suggests a promising strategy to avoid the negative effects of oil fouling in demulsification and achieve large-scale universal continuous rapid demulsification.

Topics & Concepts

KeroseneMaterials sciencePolyurethaneComposite materialEmulsionComposite numberSuctionPhase (matter)FoulingChemical engineeringMechanical engineeringMembraneChemistryOrganic chemistryEngineeringGeneticsBiologySurface Modification and SuperhydrophobicityFluid Dynamics and Heat TransferPickering emulsions and particle stabilization
Universal Rapid Demulsification by Vacuum Suction Using Superamphiphilic and Underliquid Superamphiphobic Polyurethane/Diatomite Composites | Litcius