References
- Alboudwarej, H., Jakher, R. K., Svrcek, W. Y., and Yarranton, H. W. (2004). Spectrophotometric measurement of asphaltene concentration. Petrol. Sci. Technol. 22(5/6):647–664.
- Arsalan, N., Palayangoda, S. S., and Nguyen, Q. P. (2014). Characterization of asphaltene deposition in a stainless steel tube. J. Petrol. Sci. Eng. 121:66–77.
- Castro, L. V., and Vazquez, F. (2009). Fractionation and characterization of Mexican crude oils. Energy Fuels 23:1603–1609.
- Chen, G., Yuan, W. H., Su, H. J., Zhang, J., Gu, X. F., Bai, Y., and Jeje, A. (2016). Methanol enhanced catalytic viscosity-reduction of heavy oil by transition metal-Mannich base complex under low temperature. Russ. J. Appl. Chem. Russ. J. Appl. Chem. 89(11):1853–1860.
- Douda, J., Alvarez, R., and Bolanos, J. N. (2008). Characterization of Maya asphaltene and maltene by means of pyrolysis application. Energy Fuels 22(4):2619–2628.
- Guo, K., Li, H., and Yu, Z. (2016). In-situ heavy and extra-heavy oil recovery: A review. Fuel 185:886–902.
- Jouault, N., Corvis, Y., Cousin, F., Jestin, J., and Barre, L. (2009). Asphaltene adsorption mechanisms on the local scale probed by neutron reflectivity: transition from monolayer to multilayer growth above the flocculation threshold. Langmuir 25(7):3991–3998.
- León, O., Contreras, E., Rogel, E., Dambakli, G., Espidel, J., and Acevedo, S. (2001). The influence of the adsorption of amphiphiles and resins in controlling asphaltene flocculation. Energy Fuels 15(5):1028–1032.
- León, O., Contreras, E., Rogel, E., Dambakli, G., Acevedo, S., Carbognani, L., and Espidel, J. (2002). Adsorption of native resins on asphaltene particles: A correlation between adsorption and activity. Langmuir 18(13):5106–5112.
- Li, S., Li, Z., and Sun, X. (2017). Effect of flue gas and n-hexane on heavy oil properties in steam flooding process. Fuel 187:84–93.
- Murgich, J., and Strausz, O. P. (2001). Molecular mechanics of aggregates of asphaltenes and resins of the Athabasca oil. Petrol. Sci. Technol. 19(1–2):231–243.
- Merino-Garcia, D., and Andersen, S. I. (2004). Thermodynamic characterization of asphaltene-resin interaction by microcalorimetry. Langmuir 20(11):4559–4565.
- Ostlund, J. A., Wattana, P., Nyden, M., and Fogler, H. S. (2004). Characterization of fractionated asphaltenes by UV–Vis and NMR self-diffusion spectroscopy. J. Colloid Interface Sci. 271(2):372–380.
- Pereira, J. C., Lopez, I., Salas, R., Silva, F., Fernandez, C., Urbina, C., and Lopez, J. C. (2007). Resins: The molecules responsible for the stability/instability phenomena of asphaltenes. Energy Fuels 21(3):1317–1321.
- Salimi, F., Salimi, J., and Abdollahifar, M. (2016). Investigation of asphaltene deposition under dynamic flow conditions. Petrol. Sci. 13(2):340–346.
- Spiecker, P. M., Gawrys, K. L., and Kilpatrick, P. K. (2003). Aggregation and solubility behavior of asphaltenes and their subfractions. J. Colloid Interface Sci. 267(1):178–193.
- Stachowiak, C., Viguie, J. R., Grolier, J. P. E., and Rogalski, M. (2005). Effect of n-alkanes on asphaltene structuring in petroleum oils. Langmuir 21(11):4824–4829.
- Yen, T. F. (1992). The colloidal aspects of a macrostructure of petroleum asphalt. Fuel Sci. Technol. Int. 4–6(10):723–733.