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In this paper, experiments and simulations were conducted to investigate the cyclic variations of gasoline/diesel and ethanol/diesel dual-fuel combustion. For both dual-fuel modes, gasoline and ethanol were injected into the intake port during the intake stroke and diesel was directly injected into the cylinder. The influences of engine load and port fuel proportion on the cyclic variability of both dual-fuel modes were investigated. At each test condition, in-cylinder pressure traces of 150 consecutive cycles were acquired. Then the cyclic variations of ignition timing (CA5), combustion phasing (CA50), accumulated heat release (Qf) and indicated mean effective pressure (IMEP) were calculated based on the in-cylinder pressure. The experimental results showed that the cyclic variation of IMEP was mainly caused by the variation of Qf for both dual-fuel modes.

Premixed charge compression ignition (PCCI) is a new combustion mode to reduce NOX and soot emission. It requires the optimization of the injection timing and pressure, fuel mass in pilot injection and EGR rate. A 6-cylinder, turbocharged, common rail heavy-duty diesel engine was used in this study. The effect of multiple injection strategies on diesel fuel combustion process, heat release rate, emission and economy of diesel engine is studied. The multiple injection strategies include different EGR level, pilot injection timing, pilot injection mass and post injection timing to achieve the homogeneous compression ignition and lower temperature combustion of diesel engine. Based on endoscope technology, the two-color method was applied to take the flame images in the engine cylinder and obtain soot concentration distribution, to understand the PCCI combustion in diesel engines.