Table 1.
Chronological evolution of different models that have appeared in the literature.
| Modeling Approach | Main Features | Reference |
|---|---|---|
| colloidal | Bitumen is viewed as a colloidal dispersion of ASP micelles stabilized by resins | Nellensteyn [24] Pfeiffer et al. [25,26] Traxler et al. [27] Kawanaka et al. [28] Storm et al. [29] Lian et al. [30] |
| colloidal | ASPs are plate-like structures stacked together that form particles or crystallites | Yen et al. [31,32] Dickie et al. [33] Mullins [34] |
| solubility | ASPs are complexed by resins without forming micelles | Altegelt et al. [35] Koots et al. [36] Petersen [37] Christensen et al. [38] |
| solubility | Bitumen is a single-phase and homogenous fluid | Anderson et al. [39] Redelius [40] |
| colloidal | ASP micelles consist of an insoluble molecular core associated with surfactant-like resins in thermodynamic equilibrium | Lesueur [41] Rogel [42] |
| colloidal | Bitumen microstructure is formed by insoluble ASP aggregates stabilized by a fraction of more soluble ASP | Acevedo et al. [43,44,45] |
| colloidal | ASPs are stabilized by a series of nested shells with decreasing polarity | Wiehe et al. [46] |
| colloidal | Bitumen microstructure is constituted by ASP particles, micelles, and clusters of micelles held by molecular interactions | Yen et al. [47] |
| colloidal | Hierarchical microstructure of bitumen made by ASP molecules, nanoaggregates of ASP and cluster of nanoaggregates | Mullins et al. [48,49,50] |
| colloidal | Mechanism of micellization for ASP aggregates | Li et al. [51] Liu et al. [52] |
| solubility | Solution of ASP in oil is described in terms of thermodynamic liquid–liquid equilibrium | Wang et al. [53] |
| solubility | ASP association is interpreted according to a stepwise polymerization scheme | Agrawala et al. [54] Yarranton et al. [55] |
| colloidal | ASP nanoaggregates dispersed in solution generate structures with pores and host–guest complexes | Gray et al. [56] |
ASP = asphaltene(s).