References
- Anto-Darkwah, E., and Cinar, M. (2016). Effect of pressure on the isoconversional in situ combustion kinetic analysis of Bati Raman crude oil. J. Pet. Sci. Eng. 143:44–53.
- Banisaeed, M., and Rezaee-Manesh, R. (2016). A parametric study for gasification of liquid fuels. Pet. Sci. Technol. 34:976–979.
- Beheshti, M., Ghassemi, H., and Shahsavan-Markadeh, R. (2014). A comprehensive study on gasification of petroleum waste based on a mathematical model. Pet. Sci. Technol. 22:2674–2681.
- Gundogar, A. S., and Kok, M. V. (2014). Thermal characterization, combustion and kinetics of different origin crude oils. Fuel 123:59–65.
- Demirbas, A. (2007). Hazardous emissions from combustion of biomass. Energy Sources, Part A 30:170–178.
- Gao, W., Farahani, M. R., Rezaei, M., Kanna, R., and Rezaee-Manesh, R. (2016). Mathematical modeling of unsteady-state gasification of petroleum residue. Pet. Sci. Technol. 34:1946–1951.
- Kolb, T., Jakobs, T., Pantouflas, E., and Zarzalis, N. (2009). Production of syngas from biomass based slurry in an entrained-flow gasifier. Bochum, Germany: 24 Deutscher Flammentag.
- Kovacs, H., Szemmelveisz, K., and Koos, T. (2016). Theoretical and experimental metals flow calculations during biomass combustion. Fuel 185:524–531.
- Shan, F., Lin, Q., Zhou, K., Wu, Y., Fu, W., Zhang, P., Song, L., Shao, C., and Yi, B. (2017). An experimental study of ignition and combustion of single biomass pellets in air and oxy-fuel. Fuel 188:277–284.
- Singer, S. L., and Ghoniem, A. F. (2013). Comprehensive gasification modeling of char particles with multi-modal pore structures. Combust. Flame 160:120–137.
- Ren, X., Sun, R., Meng, X., Vorobiev, N., Schiemann, M., and Levendis, Y. A. (2017). Carbon, sulfur and nitrogen oxide emissions from combustion of pulverized raw and torrefied biomass. Fuel 188:310–323.
- Vaezi, M., Passandideh-Fard, M., Moghiman, M., and Charmchi, M. (2011). Gasification of heavy fuel oils: A thermochemical equilibrium approach. Fuel 90:878–885.