Effects of Injection Rate Profile on Combustion Process and Emissions in a Diesel Engine

IF 1.5 Q3 ENGINEERING, CHEMICAL
F. Bai, Zuowei Zhang, Yongchen Du, Fan Zhang, Zhijun Peng
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引用次数: 8

Abstract

When multi-injection is implemented in diesel engine via high pressure common rail injection system, changed interval between injection pulses can induce variation of injection rate profile for sequential injection pulse, though other control parameters are the same. Variations of injection rate shape which influence the air-fuel mixing and combustion process will be important for designing injection strategy. In this research, CFD numerical simulations using KIVA-3V were conducted for examining the effects of injection rate shape on diesel combustion and emissions. After the model was validated by experimental results, five different shapes (including rectangle, slope, triangle, trapezoid, and wedge) of injection rate profiles were investigated. Modeling results demonstrate that injection rate shape can have obvious influence on heat release process and heat release traces which cause different combustion process and emissions. It is observed that the baseline, rectangle (flat), shape of injection rate can have better balance between NOx and soot emissions than the other investigated shapes. As wedge shape brings about the lowest NOx emissions due to retarded heat release, it produces the highest soot emissions among the five shapes. Trapezoid shape has the lowest soot emissions, while its NOx is not the highest one. The highest NOx emissions were produced by triangle shape due to higher peak injection rate.
喷油速率分布对柴油机燃烧过程和排放的影响
柴油机采用高压共轨喷射系统进行多次喷射时,在其他控制参数相同的情况下,改变喷射脉冲间隔会引起顺序喷射脉冲的喷射速率曲线的变化。喷射速率形状的变化对空气燃料混合和燃烧过程的影响是设计喷射策略的重要依据。本研究利用KIVA-3V进行CFD数值模拟,研究喷油速率形状对柴油燃烧和排放的影响。在实验结果验证了模型的正确性后,对五种不同形状(矩形、斜面、三角形、梯形和楔形)的注射速率剖面进行了研究。模拟结果表明,喷射速度形状对燃烧过程和释放轨迹有明显的影响,从而导致燃烧过程和排放的不同。结果表明,矩形(平面)喷油速率基准比其他喷油速率基准能更好地平衡氮氧化物和烟尘排放。楔形形状由于热释放迟缓,NOx排放量最低,因此产生的烟尘排放量在五种形状中最高。梯形形状的烟尘排放量最低,但其NOx排放量并不是最高。由于较高的峰值喷射速率,三角形结构产生了最高的NOx排放量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Combustion
Journal of Combustion ENGINEERING, CHEMICAL-
CiteScore
2.00
自引率
28.60%
发文量
8
审稿时长
20 weeks
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