Aggregation behavior of various component in crude oil for insight of aquathermolysis technology application

Aquathermolysis is a promising technology for enhancing heavy oil recovery by breaking heavy component into smaller molecules and reducing its viscosity. To gain deeper insights into the application of aquathermolysis technology, seven crude oil models with different viscosities were established through molecular dynamics (MD) simulations, in this paper. The noncovalent weak intermolecular interactions related to viscosity among different components were computed using density functional theory (DFT). Then, the contribution of different types of complexes to total intermolecular interactions was investigated. It is found that total noncovalent weak intermolecular interactions are mainly caused by the strong it-it interactions on the aromatic skeletons of aromatics, resins and asphaltenes. For the aquathermolysis reaction, there is still large interaction energy of asphalteneasphaltene complexes. Therefore, this technology is recommended for initial application in high viscosity oils characterized by excessive resin content and low asphaltene content.