Document Type : Research Paper
Authors
- Abd Alla, G.H. 2002. Computer simulation of a four stroke spark ignition engine. Energy Conversion and Management, 43: 1043-1061.
- Ameri, M., Kiaahmadi, F., and Khanaki, M. 2012. Comparative analysis of the performance of a dual – fuel internal combustion engine for CNG and gasoline fuels. Journal of Power Technologies, 92: 214 – 226.
- Agarwal, A.K. 2007. Biofuels (alcohols and biodiesel) applications as fuels for internal combustion engines. Progress in Energy and Combustion Science, 33:233–271.
- Al-Hasan, M. 2003. Effect of Ethanol – Unleaded Gasoline Blends on Engine Performance and Exhaust Emission. Energy Conversion and Management, 44:1547–1561.
- Alkidas, A.C. 1988. The application of availability and energy balances to a diesel engine. Journal of Engineering for Gas Turbines and Power, 110: 462-469.
- Began, A. 1988. Advanced engineering thermodynamics, New York, Wiley.
- Caton, J.A. 2010. Implications of fuel selection for an SI engine: Results from the first and second laws of thermodynamics. Fuel, 89: 3157–3166.
- Caton, J.A. 2000. On the destruction of availability (exergy) due to the combustion 493process-with specific application to the internal combustion engine. Energy, 25:1097–117.
- Cengel, Y.A., and Boles M.A. 1998. Thermodynamics, an Engineering Approach. 2nd ed. McGraw-Hill.
- Celik, M.B. 2008. Experimental determination of suitable ethanol–gasoline blend rate at high compression ratio for gasoline engine. Applied Thermal Engineering, 28:396–404.
- Fatehi, R., Khalilarya, SH., and Ebrahimi, R. 2013. Energy and Exergy analyses of homogeneous charge compression ignition engine. Thermal Science, 17:107-117.
- Fergusan, C., and Kirkpatric, A. 2001. Internal Combustion Engine: Applied Therosciences (3rd ed). Wiely, New York.
- Fu, J., Liu, J., Feng, R., Yang, Y., Wang, L., and Wang, Y. 2013. Energy and exergy analysis on gasoline engine based on mapping characteristics experiment. Applied Energy, 102: 622-630.
- Gharehghani, A., Hosseini, R., Mirsalim, M., and Talal, F., 2015. A comparative study on the first and second law analysis and performance characteristics of a spark ignition engine using either natural gas or gasoline. Fuel, 158: 488–493.
- Ghobadian, B., and Rahimi, H. 2006. Evaluation of engine performance using net diesel fuel and biofuel blends. The 1st Combustion Conference of Iran, Tarbiat Modares University. Tehran. Iran.
- Goudarzi, A., and Doustdar, M.M. 2014. Exergic Comparison of SI Engines Performance for Gasoline, Methane and Hydrogen Fuel. Fuel and Combustion, 1: 89-105. (In Persian with English abstract).
- Habibian., S.H., Ebrahimi., R., Rostami., S. 2014. Thermodynamic modeling of combustion process of a DI diesel fueled with biodiesel. M.Sc thesis of in Agricultural Machinery. Shahrekord University Faculty of Agriculture. Shahrekord. Iran.
- Heywood, J.B. 1988. Internal combustion engine fundamentals, McGraw- Hill, New York.
- Kamboj, S.K., and Karimi, M.N. 2012. The effect of compreission rations and fuels on the energetic, exergetic and ecological efficiency of an air standard Otto cycle. International Journal of Energy Science, 3:320 – 332.
- Rakopoulos, C.D., and Giakoumis, E.G. 2006. Second-Law Analyses Applied to Internal Combustion Engines Operation. Progress in Energy and Combustion Science, 32: 2-47.
- Rezapour, K., Mason, B.A., Wood, A.S., Ebrahimi, M.K. 2014. Bi-fuel SI Engine Model for Analysis and Optimization. Universal Journal of Mechanical Engineering. 2(2), 71-82.
- Rezapoor, k. 2012. Availability analysis of a bi- fuel SI engine model for improvement ITS performance. International Journal on "Technical and Physical Problems of Engineering, 4: 115-121.
- Sezer, I., and Bilgin, A. 2013. Effects of charge properties on exergy balance in spark ignition engines. Fuel, 112: 523-530.
- Sezer, I., Bilgin, A. 2008. Exergy analysis of SI engines. International Journal of Exergy, 5: 204-217.
- Sayin, C., Hosoz, M., Canakci, M., and Kilicaslan, I. 2006. Energy and exergy analyses of a gasoline engine. International Jouranal of Energy Research, 31:259-273.
- Woschni, G. 1967. A Universally Applicabl Equation for the Instantaneous Heat Transfer Coefficienent in the Internal Combustion Engine. DOI: 10.4271/67093, SAE Paper 670931.
- Yoon, S.H., and Lee, C.S. 2012. Effect of undiluted bioethanol on combustion and emissions reduction in a SI engine at various charge air conditions. Fuel, 97: 887-890.
)