Research of laser ignition to enhance ice performance through simulation
Corressponding author's email:
dotanthich@lhu.edu.vnKeywords:
engine, Laser ignition system, power, ANSYS software, Matlab softwareAbstract
Nowadays, motorbike is a main and popular transport in Asia countries that includes Vietnam. The demand for motorcycles is increasing, because of the convenient and affordable transport for the people, over time, the fossil fuel source is increasingly depleted, due to increasing demand. Researchers find the methods that improve engine performance, efficiency and economy fuel consumption, technology and environment. There are many ways to improve engine performance, including improved ignition systems. By using CATIA design and ANSYS Fluent software in conjunction with Matlab software, the research predicts the engine efficiency accurately and efficiency power and cost–effectively. In this paper, the researchers will use CATIA 3D design software to design the basic system on the Honda Future FI 125cc engine. Simulating the Laser ignition system process combustion when simulating single cylinder engine then can simulate Laser ignition system for multiple cylinders. The Laser ignition latest ignition system in all other ignition systems. From there, compared to efficiency between Laser ignition system and conventional ignition system. Matlab software is used to calculate power, torque, BSFC, intake air mas, MFB, ignition energy, efficiency of the latest ignition system – the Laser ignition system.
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References
Mullett, J. D., Carroll, S., Dearden, G., Shenton, A. T., Watkins, K. G., Triantos, G. and Keen, Laser ignition of an IC test engine using an Nd:YAG laser and the effect of key laser parameters on engine combustion performance, Product Engineering & Manufacturing Volume 3, 2005, pp. 104-111.
O. Yasar, Plasma Modeling of Ignition for Combustion Simulations, Parallel Com- puting, 27, pp.1, 2001.
Liedl, G., Schuöcker, D., Geringer, B., Graf, J., Klawatsch, D., Lenz, H. P., Piock, W. F., Jetzinger, M. and Kapus, Laser induced ignition of gasoline direct injection enegine, Proc. SPIE, Vol. 5777, 2005, pp. 955-960.
Geoff Dearden and Tom Shenton, Laser ignited engines: progress, challenges and prospects, C) 21, pp. 1125, November 2013.
Nathan Peters, Investigation of the multi physics of laser-induced ignition of transportation fuels Dissertations, Syracuse University, 2017.
Akshita Puli, J. Jagadesh Kumar, Laser Ignition System for I. C. Engines, © IJSRSET Volume 2, Issue 5, pp. 2394-4099, 2016.
Heywood, Internal Combustion Engine Fundamental, Gc Graw-Hill, 1998.
Nathan Peters, Investigation of the multi-physics of laser-induced ignition of transportation fuels, Syracuse University, June 2017.
PGS.TS Đỗ Văn Dũng, Điện động cơ và điều khiển động cơ, trang130, NXB Đại học Quốc Gia, 2013.
Moskwa, Automotive Engine Modeling for Real Time Control, Ph.D. thesis, Massachusetts Institute of Technology, pp. 45-71, 1988.
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