References
- Fan, Q. and Bai, G. (2015). The evaluation of oil sand bitumen produced from inner mongolia. Petrol. Sci. Tech. 33:437–442.
- Li, S., Wang, J., and Tan, H. (1995). Study of extraction and pyrolysis of Chinese oil sands. Fuel 74:1191–1193.
- Ma, Y. and Li, S. (2012). The pyrolysis, extraction and kinetics of Budan oil sand bitumen. Fuel Process. Tech. 100:11–15.
- Meng, M., Hu, H., and Zhang, Q. (2007). Pyrolysis behaviors of Tumuji oil sand by Thermogravimetry (TG) and in a fixed bed reactor. Energy Fuels. 21:2245–2249.
- Pakdel, H. and Roy, C. (2003). Recovery of bitumen by vacuum pyrolysis of Alberta Tar sands. Energy Fuel. 17:1145–1152.
- Park, Y. C., Paek, J. Y., and Bae, D. H. (2009). Study of pyrolysis kinetics of Alberta oil sand by thermogravimetric analysis. Korean J. Chem. Eng. 26:1608–1612.
- Phillips, C. R., Haidar, N. I., and Poon, Y. C. (1985). Kinetic models for the thermal cracking of Athabtca bitumen–the effect of the sand matrix. Fuel 64(5):678–691.
- Sonibare, O. O., Ehashira, R., and Adeosu, T. A. (2003). Thermo-oxidative reactions of Nigerian oil sand bitumen. Thermochimica Acta. 405:195–205.
- Tileuberdi, E., Ongarbayev, Y. K., and Behrendt, F. (2012). Possibilities of preparation asphalt concrete by oil sands of Kazakhstan. Chem. Bullet. Kazakh Nat. Univ. 4:9–13.
- Vamvuka, D., Kakaras, E., and Kastanaki, E. (2003). Pyrolysis characteristics and kinetics of biomass residuals mixtures with lignite. Fuel 82:1949–1960.
- Wang, Q., Jia, C., and Jiang, Q. (2014). Pyrolysis model of oil sand using thermogravimetric analysis. J. Therm. Anal. Calorim. 116:499–509.
- Zhang, A., Wang, G., and Bi, Y. (2011). Structural changes of the bitumen from Inner Mongolia oil sand during thermal conversion. Acta Petrolei Sinica (Petroleum Processing Section) 27:434–440.
- Zhang, C., Jiang, X., and Wei, L. (2007). Research on pyrolysis characteristics and kinetics of super fine and conventional pulverized coal. Energy Convers. Manage. 48:797–802.