Demulsification Mechanism of Asphaltene-Stabilized Water-in-Oil Emulsions by a Polymeric Ethylene Oxide–Propylene Oxide Demulsifier

The demulsification mechanism of asphaltene-stabilized water-in-toluene emulsions by an ethylene-oxide–propylene oxide (EO–PO) based polymeric demulsifier was studied. Demulsification efficiency was determined by bottle tests and correlated to the physicochemical properties of asphaltene interfacial...

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Bibliographic Details
Published in:Energy & fuels 2014-11, Vol.28 (11), p.6760-6771
Main Authors: Pensini, Erica, Harbottle, David, Yang, Fan, Tchoukov, Plamen, Li, Zifu, Kailey, Ishpinder, Behles, Jacqueline, Masliyah, Jacob, Xu, Zhenghe
Format: Article
Language:English
Subjects:
Applied sciences
Asphalts
Bottles
Droplets
Emulsions
Energy
Energy. Thermal use of fuels
Ethylene
Exact sciences and technology
Fuels
Macrostructure
Oxides
Penetration
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Summary:The demulsification mechanism of asphaltene-stabilized water-in-toluene emulsions by an ethylene-oxide–propylene oxide (EO–PO) based polymeric demulsifier was studied. Demulsification efficiency was determined by bottle tests and correlated to the physicochemical properties of asphaltene interfacial films after demulsifier addition. From bottle tests and droplet coalescence experiments, the demulsifier showed an optimal performance at 2.3 ppm (mass basis) in toluene. At high concentrations, the demulsification performance deteriorated due to the intrinsic stabilizing capacity of the demulsifier, which was attributed to steric repulsion between water droplets. Addition of demulsifier was shown to soften the asphaltene film (i.e., reduce the viscoelastic moduli of asphaltene films) under both shear and compressional interfacial deformations. Study of the macrostructures and the chemical composition of asphaltene film at the toluene–water interface after demulsifier addition demonstrated gradual penetration of the demulsifier into the asphaltene film. Demulsifier penetration in the asphaltene film changed the asphaltene interfacial mobility and morphology, as probed with Brewster angle and atomic force microscopy.
ISSN:0887-0624
1520-5029
DOI:10.1021/ef501387k