雷基林,李臻卓,刘懿,等.燃烧系统参数对商用车发动机燃烧和排放特性的影响研究[J].内燃机工程,2024,45(2):54-63.
燃烧系统参数对商用车发动机燃烧和排放特性的影响研究
Research on the Influence of Combustion System Parameters on the Combustion and Emission Characteristics of Commercial Vehicle Engines
DOI:10.13949/j.cnki.nrjgc.2024.02.007
关键词:商用车  燃烧系统  燃烧室  喷油参数  燃烧特性  排放特性
Key Words:commercial vehicle  combustion system  combustion chamber  fuel injection parameter  combustion characteristic  emission characteristic
基金项目:云南省科技厅重大科技专项项目(202102AC080004)
作者单位E-mail
雷基林 昆明理工大学 云南省内燃机重点实验室昆明 650500 leijilin@sina.com 
李臻卓 昆明理工大学 云南省内燃机重点实验室昆明 650500 1963106790@qq.com 
刘懿* 昆明理工大学 云南省内燃机重点实验室昆明 650500 lqyi@kust.edu.cn 
王伟超 昆明理工大学 云南省内燃机重点实验室昆明 650500 287692950@qq.com 
宋国富 昆明云内动力股份有限公司昆明 650224 songguofu0812@foxmail.com 
张海丰 昆明云内动力股份有限公司昆明 650224 Yn_zhanghaifeng@sina.com 
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摘要:为改善商用车发动机性能,采用计算流体力学(computational fluid dynamics, CFD)模拟、正交设计等方法,针对某商用车的燃烧室结构参数设计了4种新方案,并选取油束夹角、喷雾锥角、主喷正时等3个喷油参数开展多因素影响研究。结果表明:燃烧室形状曲线向内收缩且最大半径增大的方案1燃烧室可提升缸内湍流特性,改善燃油浓度分布,使燃烧速度加快,油气混合更好,为最优方案。在喷油参数研究方案中,以碳烟(soot)排放为优化指标时,油束夹角对排放特性影响最大,最优匹配方案是油束夹角147°、喷雾锥角15°、主喷正时-1°,其缸内碳烟排放较原机下降13.91%,且NOx排放减少13.98%;以氮氧化物(nitrogen oxides, NOx)排放为优化指标时,主喷正时对排放特性影响最大,最优匹配方案是油束夹角160°、喷雾锥角25°、主喷正时-1°,其缸内NOx排放较原机降低37.79%。
Abstract:In order to improve the performance of commercial vehicle engines, four new schemes were designed for the structural parameters of the combustion chamber of a commercial vehicle by using computational fluid dynamics(CFD) simulation, orthogonal design, and other methods. Three injection parameters, including oil beam angle, the angle of the spray cone and main spray timing, were selected to carry out a multi-factor impact study. The results show that scheme 1, where the shape curve of the combustion chamber contracts inward and the maximum radius increases, can enhance the turbulent characteristics in the cylinder, improve the distribution of fuel concentration, accelerate combustion speed, and achieve better fuel gas mixing, making it the optimal scheme. In the research of fuel injection parameters, when the soot emission is taken as the optimization index, the oil beam angle has the greatest impact on the emission characteristics. The optimal matching scheme is that the oil beam angle is 147°, the angle of the spray cone is 15°, and main spray timing is -1°. Its in-cylinder soot emissions are 13.91% lower than those of the original engine, and NOx emissions are 13.98% lower than those of the original engine. When the NOx emission is taken as the optimization index, the main spray timing has the greatest impact on the emission characteristics. The optimal matching scheme is that the oil beam angle is 160°, the angle of the spray cone is 25°, and the main spray timing is -1°. The NOx emissions in the cylinder are 37.79% lower than that of the original engine.
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