Oil-in-water emulsions are currently being investigated to facilitate the transport of viscous
heavy oils. The behavior of these emulsions is largely controlled by the interfaces between oil
drops and water. The surface-active components of crude oil, such as asphaltenes and naphthenic
acids, compete among themselves at these interfaces and also with possibly added synthetic
surfactant emulsifier. Here, we present a study of dynamic interfacial tension of interfaces between
water and a model oil (toluene) in which variable amounts of asphaltenes are solubilized. We
show that pH has a strong influence on interfacial properties of asphaltenes at the oil/water
interface. At high or low pH, asphaltenes functional groups become charged, enhancing its surface
activity. The influence of lower-molecular-weight surface-active species, such as the natural
naphthenic acids contained in maltenes (crude oil without asphaltenes), has been investigated,
and an interaction between asphaltenes and maltenes that facilitates molecular arrangement at
the interface was detected. Several micropipette experiments, in which micrometric drops have
been manipulated, are also described and indicate that very little coalescence of water droplets
is observed at high or low pH. The microscopic properties of the interface and the macroscopic
behavior of the emulsion are determined to be correlated.
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