两种不同活塞头结构柴油机燃烧性能的数值模拟参数比较

Shouvik Bandopadhyay, Tjprc
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引用次数: 0

摘要

在目前的工作中,对重型工业柴油发动机的两种不同活塞头结构(Open W型和Omega型)的燃烧室进行了全面的计算分析。由于燃烧室是轴对称的,由位于顶部中心的6个喷嘴组成,整个区域被转换成60度的扇形。提取的扇区启用动态计算网格控制,该控制由0.004 m的基线计算网格组成,具有适当的自适应细化和嵌入,以捕获在腔室内同时发生的各种物理现象。为了模拟燃料雾化、湍流分散、空气燃料混合、蒸发和汽化、燃烧和火焰传播,设置了适当的物理模型。对两种活塞结构进行了瞬态仿真。在相同曲柄转角范围内,根据指示平均有效压力(IMEP)、平均温度、综合放热率、综合放热率、所做功和释放的排放量对两种活塞头配置进行了比较。结果表明,两种活塞构型的性能参数都受到燃油喷射长度的基本影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Parametric Comparison of Combustion Performance Between Two Different Piston Head Configurations for Diesel Engines using Numerical Simulations
In the present work, a full scale computational analysis is performed inside the combustion chamber of a heavy duty industrial diesel engine for two different piston head configurations namely the Open W type and the Omega type. The complete domain is converted into a sector of 60 degrees as the combustion chamber is axi-symmetric consists of 6 nozzles located at the top centre. The extracted sector is enabled with dynamic computational grid control consisting of a baseline computational grid of 0.004 m with suitable adaptive refinements and embeddings to capture the various physical phenomena happening simultaneously inside the chamber. Appropriate physical models are set in place in order to model fuel atomization, turbulent dispersion, and air fuel mixing, evaporation, and vapourization, combustion and flame propagation. A transient simulation is performed for both the piston configurations. The two piston head configurations are compared on the basis of Indicated Mean Effective Pressure (IMEP), Mean Temperature, Integrated Heat Release, Integrated Heat Release Rate, Work Done and Emissions released for the same range of crank angles. It was found out that the performance parameters for both the piston configurations are fundamentally influenced by the fuel spray length for each of the piston type.
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