Chemical Characteristics of Asphaltenes: An Insight into Aggregation and Precipitation BehaviorClick to copy article link
Resumo
Asphaltene-related issues, such as emulsion stability and solid deposition in long tie-backs, represent major flow assurance challenges in the petroleum industry. This study compares the aggregation behavior and precipitation tendencies of two structurally distinct asphaltenes─one extracted from heavy crude oil (AH) and the other from light crude oil (AL)─through an integrated analysis combining LUMiSizer optical centrifugation, DLS, CHN, XPS, FTIR, and NMR. Dynamic light scattering (DLS) and LUMiSizer optical centrifugation were performed under varying n-heptane concentrations (0–40 vol %), revealing that both aggregate size and sedimentation index increase with dilution, indicating reduced dispersion stability. Importantly, a key new insight revealed is that the destabilization kinetics are strongly controlled by the molecular architecture. Complementary CHN, XPS, FTIR, and NMR analyses showed that asphaltene AL exhibited larger and more polydisperse aggregates (up to 4 μm) and higher sedimentation indices, linked to its higher aromaticity, greater heteroatom-related polarity, and shorter alkyl chains, which facilitate π–π stacking and reduced steric stabilization. In contrast, AH showed smaller aggregates and slower destabilization, consistent with more hydrogen-rich and less condensed structural motifs. These results establish a structure–kinetics relationship where specific molecular features predict aggregation behavior. The findings enable more targeted stability screening and support the mechanistic development of models and additives for preventing asphaltene deposition and emulsion stability.
Autores
Fernanda P. Pelaquim, Paulo T. V. Rosa, Carlos E. Perles, Vanessa C. B. Guersoni.
