References
- Balat, M. and H. Balat. 2009. Recent trends in global production and utilization of bio-ethanol fuel. Applied Energy 86:2273–82.
- Demirbas, A. 2008. Biofuels sources, biofuel policy, biofuel economy and global biofuel projections. Energy Conversion and Management 49:2106–16.
- Dessouky, H. E., H. Ettouney, I. Alatiqi, and G. A. Nuwaibit. 2002. Evaluation of steam jet ejectors. Chemical Engineering and Processing 41:551–61.
- Escobar, J., E. Lora, O. Venturini, E. Yanez, E. Castillo, and O. Almazan. 2009. Biofuels: Environment, technology and food security. Renewable and Sustainable Energy Reviews 13:1275–87.
- Fang, Y. Y., Q. Guo, and Z. C. Fu. 2006. Numerical simulation of the injector in the low pressure atmospheric gas burner. Journal of Beijing Institute of Civil Engineering and Architecture 22:55–58.
- Javier, G., M. Jose, and C. Francisco. 2012. A one dimensional model for the determination of an ejector entrainment ratio. International Journal of Refrigeration 35:772–84.
- Kaim, G. A. 2011. The combustion of Bio-Gases and low heating value gaseous fuel mixtures. International Journal of Green Energy 3:372–82.
- Koutoms, P. and J. J. Mcquirk. 1991. Isothemal modeling of gas turbine combustor computational study. Journal of Propulsion 7:1064–71.
- Leschziner, M. A., and W. Rodiw. 1984. Computation of strongly swirling axisym-metric free jets. AIAA Journal 22:1742–1747.
- Li, X. C., T. Wang, and D. Benjamin. 2010. Numerical analysis of the performance of a thermal ejector in a steam evaporator. Applied Thermal Engineering 30:2708–17.
- Li, J., Z. W. Zhao, A. Kazakov, C. Marcos, and F. Dryer. 2006. A comprehensive kinetic mechanism for CO, CH2O, and CH3OH combustion. International Journal of Chemical Kinetics 1002:109–35.
- Liu, F., E. A. Groll, and D. Li. 2012. Investigation on performance of variable geometry ejectors for CO2 refrigeration cycles. Energy 45:829–839.
- Ran, J. Y., J. Shi, and L. Zhang. 2013. Adaptive air distribution characteristics of methanol ejector burner with large load change. Journal of Engineering and Thermophysics 35:581–85.
- Ran, F., X. B. Wang, R. J. Zhu, and Z. H. Huang. 2009. Simplified chemical kinetic mechanism of premixed laminar combustion of Methanol-Air mixture. Journal of Xi’an Jiao Tong University 43:27–31.
- Saxena, P., and F. A. Williams. 2007. Numerical and experimental studies of ethanol flames. Proceedings of the Combustion Institute 31:1149–56.
- Seiser, R., S. Humer, K. Seshadri, and E. Pucher. 2007. Experimental investigation of methanol and ethanol flames in nonuniform flows. Proceedings of the Combustion Institute 31:1173–80.
- Sloan, D. G., P. J. Smith, and L. D. Smoot. 1986. Modeling of swirling in turbulent flow systems. Prog Energy Combust Sci 12:163–247.
- Varga, S., P. M. S. Lebre, and A. C. Oliveira. 2013. CFD study of a variable area ratio ejector using R600a and R152a refrigerants. International Journal of Refrigeration 36:157–65.
- Varga, S., A. C. Oliveira, and B. Diaconu. 2009. Influence of geometrical factors on steam ejector performance-A numerical assessment. International journal of refrigeration 32:1694–701.
- Wang, G., X. B. Liu, C. Yuan, and S. Y. Liao. 2009. A new reduced chemical kinetic mechanism for methanol oxidation. Journal of Combustion Science and Technology 15:557–64.
- Xu, X. X., G. M. Chen, L. M Tang, and Z. J. Zhu. 2012. Experimental investigation on performance of transcritical CO2 heat pump system with ejector under optimum high-side pressure. Energy 44:870–77.
- Yang, X., X. Long, and X. Yao. 2012. Numerical investigation on the mixing process in a steam ejector with different nozzle structures. International journal of Thermal Sciences 56:95–106.
- Zheng, Z. L., M. F. Yao, and W. L. Wu. 2010. Numerical simulation on combustion and emission processes of Premixed/Direct-Injected fuel stratification combustion. International journal of Green Energy 5:498–515.