REFERENCES
- American Society for Testing and Materials. (2011). Standard test method for Arrhenius kinetic constants for thermally unstable materials using differential scanning calorimetry and the Flynn/Wall/Ozawa method. ASTM E-698.
- Glatz, G. (2011). In-situ combustion kinetics of a Central European crude for thermal EOR. SPE 152363-STU.
- Jin, Y., Jiang, Q., and Zhao, S. (2007). A preliminary study of engineering philosophy of oilfeild development. Beijing: Petroleum Industry Press.
- Saraji, S., and Sharif, S.P. E. (2007). Kinetic study of crude-oil combustion in the presence of carbonate rock. SPE 105112.
- Sun, Q., and Li, W. (2003). Comparison between DAEM and Coats-Redfern method for combustion kinetics of coal char. J. Chem. Eng. 54:1598–1602.
- Tang, J., and Guan, W. (2013). Determination on high-temperature oxidation kinetic parameters of heavy oils with thermogravimetric analyzer. Acta Pet. Sinica 34:775–779.
- Wang, Y., and Bao, L. (2013). Research on combustion kinetic of heavy oil. J. Therm. Sci. Technol. 12:74–78.
- Zeng, F., and Liu, Z. (2008). Thermogravimetric experiment and kinetic analysis of biomass. J. Therm. Power Eng. 37:6–8.
- Zhu, W. (2009). Thermal analysis experimental Study of combustion kinetics and pyrolysis in fire flooding. Huazhong University of Science and Technology, Hubei, China.