posted on 2020-07-02, 23:30authored byFernando Fajardo-Rojas, Diego Pradilla, Oscar Alberto Alvarez Solano, Joseph Samaniuk
Asphaltenes
are largely responsible for crude oil interfacial behavior.
Due to their complex molecular nature, studying connections between
interfacial properties and molecular structure is challenging, and
these connections remain unclear. Several groups have reported on
the interfacial behavior of asphaltenes, but a unified picture of
both interfacial dynamics and thermodynamics is still missing. We
seek to establish connections between asphaltene interfacial morphology
and interfacial dynamics by combining interfacial dilatational deformation
with microscopic structural imaging analysis. Understanding the behavior
of natural asphaltene samples is made difficult by the inherent molecular
variability. Therefore, we have also studied the behavior of an asphaltene
model compound to draw fundamental structure–property relationships.
This work contains simultaneous interfacial deformation and microscopy
in systems of natural and model asphaltenes at air–water and
decane–water interfaces. How the dynamics of natural asphaltenes
influences the morphological and thermodynamic state of the air–water
and decane–water interfaces is discussed based on the deviations
observed between isotropic and anisotropic deformations. Areas where
model asphaltenes can help us to understand the behavior of natural
asphaltenes are identified such as its high surface pressure activity
and aggregation character. An aggregation mechanism for model and
natural asphaltenes is proposed based on an observed relationship
between microscopic and millimetric aggregates.