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This paper presents the effect of injection timing on performance and emission of a new GDI engine that has been developed from modification of a multi point fuel injection (MPFI) engine. In this study the new engine at the speed of 2500 rpm with different injection timing was simulated with KIVA-4 code. The Results are compared with those were obtained from the MPFI engine experimentally. The objective of this investigation is to find the optimum injection timing for the new engine. This paper has shown that there is an optimum interval for injection timing in which the engine performance is the highest. The results show that this optimum injection timing is 142 BTDC. Generally, the output power of the GDI engine is more than the MPFI engine at the same operating condition. It is worth nothing that for the mentioned interval, the CO is higher and the NOx emission is lower than the MPFI engine.
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Tom
Strony
233--243
Opis fizyczny
Bibliogr. 16 poz., rys., tab.
Twórcy
- Department of Engineering Mechanics Ferdowsi University of Iran; Mashhad, Iran +989153598673., mo_za69@stu-mail.um.ac.ir
Bibliografia
- [1] Costa, M., Sorge, U., Allocca, L., Numerical Study of the Mixture Formation Process in a Four-Stroke GDI Engine for Two-Wheel Applications, Simulation Modeling Practice and Theory, 19, 1212(2011).
- [2] Huang, Z., Shiga, S., Ueda, T., Nakamura, H., Ishima, T., Obokata, T., Tsue, M., Kono, M., Effect of Fuel Injection Timing Relative to Ignition Timing on the Natural-Gas Direct-Injection Combustion, Journal of Engineering for Gas Turbines and Power, 125, 783(2003).
- [3] Alkidas, A.C., Combustion Advancements in Gasoline Engines, Energy Conversion and Management, 48, 2751(2007).
- [4] Zeng, K, Huang, Z., Liu, B., Liu, L., Jiang, D., Ren, Y., Wang, J., Combustion Characteristics of a Direct Injection Natural Gas Engine under Various Fuel Injection Timings, Applied Thermal Engineering 26, 806(2006).
- [5] Kano, M., Saito, K, Basaki, M., Emissions and Fuel Economy of a 1998 Toyota with a Direct Injection Spark Ignition Engine, SAE Paper No. 981462, (1998).
- [6] Heywood,J. B., Internal Combustion Engine Fundamentals, McGraw-Hill, New York (1988).
- [7] Obokata, T., Ishima, T., Shiga, S., Egurao, Y., Matsuda, T., Murakami, A, Long W., Yang, X., Liu, C., Characteristics of Premixed Combustion Type Diesel Engine Using Hollow Cone Spray, Proceeding of ASME 2001 Fall Technical Conference, New York, pp. 119-126 (2001).
- [8] Agarwal, A, and Assanis, D. N., Multi-Dimensional Modeling of Natural Gas Ignition, Combustion and Pollutant Formation in Direct Injection Engines, SAE Paper No. 201839, (2000).
- [9] Goto, Y., Mixture Formation and Ignition in a Direct Injection Natural Gas Engine, JSME Int. 1., Ser. B, 42 (2), 268 (1999).
- [10] Rahman, M.M., Kamil, M., Bakar, R.A, Engine Performance and Optimum Injection Timing for 4 cylinder Direct Injection Hydrogen Fueled Engine, Simulation Modeling Practice and Theory 19, 734 (2011).
- [11] Shiga, S., Kobayashi, K, Hayakawa, E., Matsuura, T., Nakamura, H., Ishima, T., Obokata, T., Effect of Injection Rate on the Performance and Emissions of a Direct-Injection Gasoline Engine in Comparison with the Port-Injection Operation, Proceeding of ASME Fall Technical Conference, New York, pp. 115120 (2001).
- [12] Torres, D. 1., KIVA-4 Manual, Los Alamos National laboratory Theoretical division, (2006).
- [13] O'Rouke, P.J., Collective Drop Effects on Vaporizing Liquid Sprays, Ph.D. Thesis, Princeton University, (1981).
- [14] Amsden, A.A, O'Rouke, P.J., Butler, T.D., KIVA-II- a Computer Program for Chemically Reactive Flows with Sprays, Los Alamos National Lab., LA-11560-MS, (1989).
- [15] Hentschel W., Optical diagnostics for combustion process development of direct-injection gasoline engines, Proceedings of the Combustion Institute, pp. 1119-1135 (2000).
- [16] Glassman, I., Combustion, Academic Press, San Diego, California, USA (1996).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BWM4-0040-0030