Detailed Unburned Hydrocarbon Investigations in a Highly-Dilute Diesel Low Temperature Combustion Regime

The objective of this research is a detailed investigation of unburned hydrocarbon (UHC) in a highly-dilute diesel low temperature combustion (LTC) regime. This research concentrates on understanding the mechanisms that control the formation of UHC via experiments and simulations in a 0.48L signal-cylinder light duty engine operating at 2000 r/min and 5.5 bar IMEP with multiple injections. A multi-gas FTIR along with other gas and smoke emissions instruments are used to measure exhaust UHC species and other emissions. Controlled experiments in the single-cylinder engine are then combined with three computational tools, namely heat release analysis of measured cylinder pressure, analysis of spray trajectory with a phenomenological spray model using in-cylinder thermodynamics [ 1 ], and KIVA-3V Chemkin CFD computations recently tested at LTC conditions [ 2 ]. This study looks at the effect of inlet oxygen concentration, fuel spray targeting, injection event timing, injector sac volume, rail pressure, and boost pressure which are each explored within a defined operation range in LTC. This research compliments simultaneous research which concentrates on understanding the benefits of multiple injections on engine performance and emissions operating in the LTC regime [ 3 ].

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See papers presented at SAE World Congress & Exhibition, April 2009, Detroit, MI, USA, Session: HCCI (Part 5 of 7)

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