참고문헌
- Agarwal, A. and Assanis, D. N. (1998). Multi-dimensional modeling of natural gas ignition under compression ignition conditions using detailed chemistry. SAE Paper No. 980136
- Amsden, A. A. (1997). KIVA-3V: A Block Structured KIVA Program for Engines with Vertical or Canted Valves, Los Alamos National Lab. Report LA-13313-Ms
- Curran, H. J., Fischer, S. L., and Dryer, F. L. (2000). The reaction kinetics of dimethyl ether. II: Low-temperature oxidation in flow reactors. Int. J Chem. Kinet, 32, 741-759 https://doi.org/10.1002/1097-4601(2000)32:12<741::AID-KIN2>3.0.CO;2-9
- Golovitchev, V. I. and Chomiak, J. (1998). Evaluation of ignition improvers for methane autoignition. Combust. Sci. and Tech., 135, 31-47 https://doi.org/10.1080/00102209808924148
- Golovitchev, V. I. and Nordin, N. (1999). Detailed chemistry sub-grid scale model of turbulent spray combustion for the KIVA code, In- cylinder flow/ combustion measurements and modeling, ASME Fall Technical Conf., Ann Arbor, Michigan, 33, 17-25
- Golovitchev, V. I., Nordin, N., and Chomiak, J. (1997). Numerical evaluation of dual oxygenated fuel setupfor DI diesel application. SAE Paper No. 971596
- Golovitchev, V. I., Pilia, M. L., and Bruno, C. (1996). Autoignition of methane mixtures: The effect of hydrogen peroxide. J. Propulsion and Power 12, 4, 699-707 https://doi.org/10.2514/3.24091
- Ho, T., James, C. M., and Jeffrey B. S. (2003). Compression ignition delay (Physical + Chemical) of dimethyl ether - An alternative fuel for compression-ignition engines. SAE Paper No. 2003-01-0759
- Hwang, J. S., Ha, J. S. and No, S. Y. (2003). Spray characteristics of DME in conditions of common rail injection system(II). Int. J. Automotive Technology 4, 3, 119-124
- Kajitani, S. (2004). A study of low compression ratio diesel engines operated with neat dimethyl ether (DME). JSME TED Newsletter, 42
- Karim, G. A. (1980). A review of combustion processes in the dual fuel engines-the gas diesel engine. Prog. Energy Combust. Sci., 6, 277-285 https://doi.org/10.1016/0360-1285(80)90019-2
- Karim, G. A., Ito, K., Abraham, M., and Jensen, L. (1991). An examination ofthe role of formaldehyde in the ignition processes of a dual fuel engine. SAE Paper No. 912367
- Khalil, E., Samuel, P., and Karim, G. A. (1996). An analytical examination of the chemical kinetics of the combustion of N-heptane-methane air mixtures. SAE Paper No. 961932
- Liu, Z. and Karim, G. A. (1995). The ignition delay period in dual fuel engines. SAE Paper No. 950466
- Lutz, A. E., Kee, R. J., and Miller, J. A. (1998). SENKIN: A FORTRAN Program for Predicting Homogeneous Gas Phase Chemical Kinetics with Sensitivity Analysis, Sandia Report SAND 87-8248, UC-4
- Naber, J. D., Siebers, D. L., Caton, J. A., Westbrook, C. K., and Di Julio, S. S. (1994). Natural gas autoignition under diesel conditions: Experiments and chemical kinetic modeling. SAE Paper No. 942034
- Nielsen, O. B., Qvale, B., and Sorenson, S. (1987). Ignition delay in the dual fuel engine. SAE Paper No. 870589
- Rente, T., Golovitchev, V. I., and Denbratt, I. (2001). Numerical study on n-heptane spray auto-ignition at different levels of pre-ignition turbulence. The 14th Int. Symp. Diagnostics and Modeling of Combustion in Internal Combustion Engines COMODIA
- Smith, G. P., G. M. Golden, M. Frenklach, N. W. Moriarty, B. Eiteneer, M. Goldenberg, T. Bowman, R. Hanson, S. Song, G. C. Gardiner Jr., V. Lissianski, and Z. Qin, GRI-MECH 3.0, http://www.me.bereley.edu/ gri mech/
- Wakai, K., Nishida, K., Yoshizaki, T., and Hiroyasu, H. (1998). Spray and ignition characteristics of dimethyl ether injected by a D.I. diesel injector. The 4th Int. Symp. Diagnostics and Modeling of Combustion in Internal Combustion Engines COMODIA
- Zamansky, V. M. and Borisov, A. A. (1992). Promotion of high-temperature self-ignition. Progress in Energy and Combustion Science, 18, 297-325 https://doi.org/10.1016/0360-1285(92)90003-J