Géza Horváth‐Szabó scite author profile

Silica-gel-coated QCM crystals oscillating in a thickness shear mode are used to measure adsorption of bituminous components in water-saturated heptol (1/1 vol ratio of a heptane/toluene mixture) at the oil/water interface. In addition to the viscoelasticity of the adsorbed film, the effects of the bulk liquid density and viscosity as well as the liquid trapped in interfacial cavities are taken into account for the calculation of adsorbed mass. Asphaltenes in heptol adsorb continuously at the oil/water interface, while resins (the surface-active species in maltenes) show adsorption saturation in the same solvent. For Athabasca bitumen in heptol, two adsorption regimes are observed depending on concentration. At low concentrations, a slow, non-steady-state, and irreversible adsorption takes place. At high concentrations, a steady-state adsorption with limited reversibility results in a quick adsorption saturation. The threshold concentration between these adsorption regimes is 1.5 wt % and 8 wt % for oil/water and oil/gold interfaces, respectively. The threshold concentration, the total adsorbed amount, and the flux of non-steady-state adsorption depend on the resin-to-asphaltene ratio. The threshold concentration is related to the earlier reported critical bitumen concentration characterizing the rigid-to-flexible transition of the interfacial film. We propose a new mechanism based on the change of the effective resin-to-asphaltene ratio with dilution to explain both the adsorption behavior and emulsion stability.

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Liquid Crystals in Aqueous Solutions of Sodium Naphthenates

Horváth‐Szabó

Czarnecki

Masliyah

2001

Journal of Colloid and Interface Science

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Sandwich Structures at Oil–Water Interfaces under Alkaline Conditions

Horváth‐Szabó

Czarnecki

Masliyah

2002

Journal of Colloid and Interface Science

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Phase Behavior of Sodium Naphthenates, Toluene, and Water

Horváth‐Szabó

Masliyah

Czarnecki

2001

Journal of Colloid and Interface Science

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Adsorption isotherms of associating asphaltenes at oil/water interfaces based on the dependence of interfacial tension on solvent activity

Horváth‐Szabó

Masliyah

Elliott

et al. 2005

Journal of Colloid and Interface Science

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