1 |
Goodwin, A. R.; Sengers, J. V.; Peters, C. J., Applied Thermodynamics of Fluids, RSC Publishing, 2010
|
2 |
Anbarasu M.; Abata, D. L., Modeling of Early Pressure Rise and Flame Growth in a Spark Ignition Engine, 1994, SAE Paper No.941930
|
3 |
Pan, J.; Sheppard, C. G. W., A Theoretical and Experimental Study of the Modes of End Gas Autoignition Leading to Knock in S.I. Engine, 1994, SAE Paper No.942060
|
4 |
Shi, Y.; Ge, H. W.; Reitz, R. D.,Computational Optimization of Internal Combustion Engines, Springer, 2010
|
5 |
Burstall, A. F., Experiments on the Behavior of Various Fuels in a High Speed Internal Combustion Engine, Proc. Inst. Automobile Engineerings 22, 1977, 358
|
6 |
Furuhama, S., LH2-Car Musahi-8 & Development for 20 years, Proceedings of the Korea-Japan Joint Symposium '91 on Hydrogen energy, 1991, 1-21
|
7 |
Heywood, J. B., Combustion Modelling in Reciprocating Engines (Engine Combustion Modeling-An Overview), Plenum Press, 1980, 1-38
|
8 |
Heywood, J. B., Internal Combustion Engine Fundamentals, Mc-Graw Hill, 1987
|
9 |
Wylen, G. V.; Sonntag, R.; Borgnakke, C., Fundamentals of Classical Thermodynamics, Wiley, Fourth Edition, 1993
|
10 |
Cengel Y. A.; and Boles, M. A., An Engineering Approach Thermodynamics, McGrow Hill, Second Edition, 1994
|
11 |
Moran M. J.; Shapiro, H. N., Fundamentals of Engineering Thermodynamics, Wiley, Second Edition, 1993
|
12 |
Michaelides, E. E., Alternative Energy Sources (Green Energy and Technology), Springer, 2011
|
13 |
Guzzella, L.; Onder, C. H., Introduction to Modeling and Control of Internal Combustion Engine Systems, Springer, 2010
|