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Numerical analysis of the combustion process in a four-stroke
Wendy Hardyono Kurniawan
The Journal of Mechanical Science and Technology, vol. 22, no. 10, pp.1937-1944, 2008
Abstract : In this paper, a numerical study to simulate and analyze the combustion process occurred in a compressed natural
gas direct injection (CNG-DI) engine by using a multi-dimensional computational fluid dynamics (CFD) code was
presented. The investigation was performed on a single cylinder of the 1.6-liter engine running at wide open throttle at
a fixed speed of 2000 rpm. The mesh generation was established via an embedded algorithm for moving meshes and
boundaries for providing a more accurate transient condition of the operating engine. The combustion process was
characterized with the eddy-break-up model of Magnussen for unpremixed or diffusion reaction. The modeling of
gaseous fuel injection was described to define the start and end of injection timing. The utilized ignition strategy into
the computational mesh was also explained to obtain the real spark ignition timing. The natural gas employed is considered
to be 100% methane (CH4) with three global step reaction scheme. The CFD simulation was started from the
intake valves opening until the time before exhaust valves opening. The results of CFD simulation were then compared
with the data obtained from the single-cylinder engine experiment and showed a close agreement. For verification purpose,
comparison between numerical and experimental work are in the form of average in-cylinder pressure, engine
power as well as emission level of CO and NO.
Keyword : Combustion; Computational fluid dynamics; Compressed natural gas; Direct injection; Diffusion reaction; Ignition |
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