کلیدواژهها
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Diesel-gasoline combustion simulation, High-speed diesel engine, RCCI, Diesel injection timing, Emission, Thermal efficiency
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چکیده
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This numerical research mainly aimed to investigate the impacts of diesel fuel
direct injection timing on the combustion characteristics, emission formation, and performance
in a high-speed diesel-gasoline Reactivity Controlled Compression Ignition (RCCI) engine
under low, medium, and high load operating conditions. The numerical achievements
indicated that by late diesel injection timing (32 Crank Angle (CA) Before Top Dead Center
(BTDC)), regions with a higher temperature and equivalence ratio were formed in the
combustion chamber and caused a simultaneous increase in both Nitrogen Oxides (NOx) and
soot emissions. On the contrary, early Diesel Injection Timing (DIT) under low load conditions
concurrently reduced NOx and soot due to appropriate air-fuel ratio, more homogeneous airfuel
mixture formation as a result of longer Ignition Delay (ID) period, and the absence of
high-temperature regions inside the combustion chamber. Also, when DIT was postponed
under high load conditions, the combustion process became unstable and noise emission, as
well as detonation tendency (sudden auto-ignition), were dramatically increased due to a
considerable increase in in-cylinder maximum temperature and pressure rise rate.
Furthermore, under low load conditions, because of low flame temperature and its
incompetent propagation in the engine cylinder, a substantial amount of unburnt mixture
(gasoline) was formed and accumulated at the center of the combustion chamber.
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