【 摘 要 】

Conventional gasoline SI engines have low efficiency and poor lean burn characteristics at lower loads. The objective of this study is to improve the combustion and emission performance of gasoline SI engines under lean burn conditions through dual-injection mode with gasoline port injection and natural gas direct injection(GPI + NDI). In this work, total fuel energy is kept constant for all investigated test points. The sole gasoline mode with port injection is used as the baseline and compared with the GPI + NDI mode. The results show that the proposed GPI + NDI mode provides stable and promising performance. In particular, the GPI + NDI mode achieves stable combustion with COVIMEP lower than 1.5 under the condition of lambda = 1.4 where the sole gasoline mixture cannot stably combustion, which broadens the lean burn limit of the gasoline engine at low load. Compared with pure gasoline mode, GPI + NDI mode with appropriate RCNG and direct injection timing can increase efficiency by 0.7 and 0.94 percentage points at lambda = 1 and 1.2, and BSFC drops by 3.1% and 3.6%. HC continues to decrease with the increase of RCNG. CO emissions at lambda = 1 decrease first and then increases with the increase of RCNG, and when lambda is higher than 1.2, CO emissions reach extremely low levels. Furthermore, there is a significant effect on the limitation of the total particle number(TPN)with the increase of RCNG. When lambda = 1 and 1.2, the TPN has a downward trend with the RCNG increases. Since there is enough oxygen to ensure the complete oxidation of the particles, TPN is not sensitive to changes in RCNG at lambda = 1.4.

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10_1016_j_fuel_2021_120952.pdf	6893KB	PDF	download