基于KIVA-3V代码的高速直喷柴油机三维仿真与试验

Liu Yongfeng, Zhang You-tong, Tian Hong-sen, Q. Jianjun
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引用次数: 0

摘要

为了准确模拟直喷柴油机的三维湍流燃烧温度场,对kiva - 3v程序进行了结构仿真。该方法不需要处理所有的基本反应,而只考虑一个总反应来计算起燃和消光,从而降低了计算成本。由于4JB1活塞的形状不在对称轴上,因此建立360度网格计算模型,对应x偏移量4mm, y偏移量1mm。此外,给出了试验台结构示意图和发动机规格,并绘制了600、800和1000 bar轨道压力下的实测喷油速率分布图,作为仿真的重要输入。最后,将气缸压力和相应的放热率随喷射时间的变化与实验数据进行了比较。分析了不同曲柄角度下的空间温度分布图。为理解直喷柴油机湍流扩散燃烧温度场提供了新的理论和方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Three-Dimensional Simulation and Experiment in a High-Speed Direct-Injection Diesel Engine Based on KIVA-3V Code
To simulate exactly the three-dimensional turbulent combustion temperature field in direct-injection (DI) diesel engine the structure of KIVA-3 V code is performed. Instead of dealing with all the elementary reactions, one single overall reaction is considered to calculate ignition and extinction, which reduces computational cost. Since the shape of 4JB1 piston is not on the axis of symmetry, 360 degree grid computing was modeled which corresponds x-offset 4 mm and y-offset 1 mm. Besides, schematic of the test bench configuration and engine specification are showed and the measured injection rate profiles corresponding to rail pressures of 600 bar, 800 bar, and 1000 bar are drawn as an important input for the simulation. Finally, cylinder pressures and the corresponding heat release rates with variation of injection timing are compared with experimental data. Spatial temperature distribution pictures at different crank angle are analyzed. It gives the new theory and method to understand the turbulent diffusion combustion temperature field in DI diesel engine.
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